Trane Series R Helical Rotary Model RTAC Catalogue
Contents
1. VEL 325 WIRD s3Nousno NEIN E 2H09 ASLE H 43 zn ar 1 SMISO 804 FUV INVASO SNIYIS 40 94 303 MO GSN 1 OL 24 snivis LINN 140 1045 30 SLO INOD 35019 40 EJOS OL 03 034802 AVN SNOLONNA 3LvOndna WWoHS SNOLONni 53730 PAON NO SION NMOHS SY SAVER 38 SHOIVOLUN CIZ 5 138 9811 ISN ISAM SIOVINGD XOGIUSU ANV HOLMS Slo INOD 0109 AJANS 0601 3AuSisa WN ZL SITOA 2 ISNAN MO Tiv 803 SIOVINO 0314405 lt ET2. YOLVOIGNI 1 3 ALIOWdWO LINN WAOWIXVIN OL 401 2 z pue TX ONnOMNO WNANWININ 53 140135 134405 YOLVOIGNI See 4 AllOVdVO LIND NOWIXVN Loa 4 denso 1 4 LOWINOD IINA OL INANI Q3sino3s 41 W WINIA S3YIM S3UM T IWNOLLdO TWNOLLdO TEN 9015 15 15 e WNWININ 53 5 GALSIML 03014185 UN L YOLVOIGN J OL 4 53 310W3M HJHlO CvNOlLdO ai 20 lu SNLVLS 321 a JIE 2 AINO 9 14043 1284005 HUM pu 3ONVMIN3 ONIBIM sky 3ONvHIN3 AlddnS M3MOd IONA 7 fr J zs NN W3WOIShO 55810 90421 584 or a3iNnon MS 310W3N NO ES N 38 AVN HOlVHOdVA3 N LINN 1OMINOO
3. 2 og E 13 Am 23 ioars ao r 858 armo LINN oTo wanoisno 586201 wwe eras MUOZ Jo OQDZ 23200 mu 288 308105 483909 Bec lt 9799 486 1005 32 Sue NE 3 L ony or Rm a vids quay INIAN B 30 mola 8 201018 E iie al 358105 TWNRGLNI p n 35 41 4015 1915 je L EN SEI RD 221 qao CS OL 4 uN 24 ziny ler una lor OE los Gcnenog OdinO3 ONVG NYNOISYOO ON IS L es SawolonoNoo 5040 SONIO eee loo NyiS
4. 5 5 N3MOd 1081 02 ZHOS 1 022 MO 2 9 Si 0134 1 7081402 038530 OL 103 0 038530 51 1081409 4i 4 LINN 31EVN3 OL LM lv 5 3S3HL 03 SIOVINOO IHL 24 1081409 lv 38 5 5 FINGOW 5 OL 5 SAVNI GAISIML 5 CTI 14 0001 14 0002 91 14 0006 OMY 3ZIS SHIONJI NAY WNWIXYW 9NIMOTIOJ SHI Q339X3 LON Q3NInO3N i JOMINOO INVAL L 131110 3ON3IN3ANOO 19 Ya 335 13 101409 1 UNOY Avldsid S3lvOIQNI 38105012 12 09 LINN OL SIYM 1 40 SMOOTYALNI HOLIMS JO dWnd 91 NOlvN3dO 318 3 SLOVINOD 935079 LINN OL INdNI ANVNIB SIYIN 2 4015 AONADYANA zi NOllVH3dO 31EN3 SLOVINOD 0350
5. 2 55912 39VL10A OS 53801933 40 WvHOVIO SIHL 5 SI 5 S3Bhiv34 QNVONVIS TIY YINOLSND 38 LON AV HO ONY WNOLLJO 5340733 9NIMOTI03 IHL OL 3OVWvO NI 110538 INGW3NInO3N SIHL A1dWOO OL 104100 N3TIIHO A8 Q3TIOMINOO 38 ISAW N3lvM HOlvMOdVA3 IOMINOO 01 0350 38 15 10 1 02 NOLNYO lt 3svHd 319NIS 03123104 SHOLOA 2 03131402 N338 534003208 4 401415 110 IND LINN LON OQ NOlInVO SION WINI 03 3 SIYIM 2 JIBWN3 SILVINO jJ 40 LIN OL ANVNIB e 131110 3ON3IN3ANOO L 1004201 WNYSLXA 1 4 Z RETE M3IV3H z ON LINN OL LNANI 20 01 2 p zu Je 538 ae ANNOYS 1 04135
6. Gund ANVAY 53 530 13 5 531 Sind 89 531 BIMADO 13 SNOISNAL 531 531101 02 I3Sn3H39NvO NOISN3L LNAWASSILYAAV V snonis 01005 ONIOIANAS 380438 OQ OL SIOSNNOOSIO SLOWGY 9NIOToNI M3MOd OLONI TIV 123NNOOSIG SnoqsvzvH DNINHVM V saw sis a28 snivis al WNOUdO 04 80 Hod ASL H N L ibis 0156 os MANYA NI 9 1NORJ 35h TI SiL RENE Ic 41 RLC PRCOS39B EN TRANE imensions D Note Mounting location dimensions may vary on units with seismic rating See unit submittals M3IA MOVE MJA 3015 x NOLLO31OMd 1102 STANVd GX 9 304 HLGIM 44416 dav S3ovid v 4 ONIN 22 5 8 9 88 S310H ONILNNOW 6812 98 88462 9961 86 e ssvd lt 2 2 96 01 55 4 262 36 6 55 4 Z 1 3
7. x JA SX 9 S3ovld ALV1djONILAI 4961 SHOV1d 8 wwzoz2 4 S31OH NILNNO 496 901 A 6 uuuugye L 0 SIOVId 2 39 6 3ATVA Q3AOW3 1102 dO 86 8 LINN 181 SSYd 141110 18 9 1 SSYd Z LAINI 281 SSYd Z SSVd 5 5 Ly 1 UNIT CONTROL PANEL 2 LAN 48461 AAWA 5954 IHNVd 1OH LNOO 001 SSvd WWOSL 9 SS vd Z NOLLO3NNOO H3IVM 2 09 0S 3504 43 RLC PRCOS39B EN NOILO3 LOSd 1109 STANVd 22 HLGIM Gav P 88 wiw6g Lz 9 98 94 01 55 46 wwig6Z LL 55 2 18 21 ssvd 19 OL SSVdc 3SION 2 9 96 ASION ALS 2 66 NIA 91313051 33H YAWOLSND 34950 o o 5 dS 981 3H 959 1N3S3MHd LON SI a x S3ovid
8. Ol SNOLO3NNOO 5 31 03013 5 KTI 0001 OMY 0002 OMY 91 13 0006 OMY 2125 SHLONTT Q332X3 LON 00 NO LIOA OLL LINGNOD 5531 SITOA MOT NNN LON OQ OI 50481 0394115 SWNINB3L YO ONIY 143229 HOIHM MAYOS 135 01 v 54815 OL 09 HOLIMS MOT JHL 30 305 ONY 151110 3ONGINJANOO 81 OL vl JO V S NI LINOYIO OL 5 5 TIY OLON SY 1430 3 SLIOA 006 40 NOLWINSNI WNWININ AINO SYOLONGNOD 534409 38 15 NONIO N3AOISnO TW lt 6 NOSS3NdNOO 4422 6052 SUINN 305534109 2222 6088 NO NMOHS SI 5 SNOINVA 030084 325 SMI JHL IZIS ISNA NDWINIM LINN 33S 70 338930 06 40 ONUVM NOLIVINSNI WNWININ AINO 801 0 0 534405 38 SAW YIMOd TY lt 53002 318 12201 A1dWOO 5 ONIMIM LNN 1 19
9. 24 2 96 4388 310H ONILNNOW 82 9 LL SSWd uu LL 29 29 1 206 LL SSYd Z ET vy 79 69 H 1 S zi SSvd 2 0 SSYd Z 1 NOLLO3NNOO 3SION MOT 9 96 MLM OIA LIINI 3SION ALS uugzez 66 YLM OIA 1371100 t 15 Jo Q3AOW3 1109 MAIA 5 NOLLO3NNOO 5 ALVOO MAIA NW1d 401 HLON31 3SV8 9 692 846619 9 92255 46 1971100 LZZ SSvd 2 AFINI 9 9 122 55 42 TINO 9 6 SSYd 8 js i MAIA VNAG UNIT CONTROL PANEL TANVd ZH 09 3X 041 SSL 2 09 3S 092 SZZ 2 09 0S 002 981 991 8 aS SZZ 58 NO 13959 LON 2 WWOOL SSYd 9 SSVd Z 3 1VM Z avs 6 86 45 9
10. a NU gag ee J m snis a Des 9 dE ws 9 o UTER 8 onunnon yous 0 of iw 277 2 T3Nvd 10831102 EN CMM CDM LI MI 1 Fa di 1 Da dg NNI M so edo TI at 2 CI o E aa a sat ent AL Pt 4 dois 091 SNOLWOINNINNOS SS Seo 00 77073 4 es 3 2 Ordo 5 HOLMS 1003201 li 1 fivc eit E ee ee SE _ amem fof FS sino 2 4 11 11 25 1 5 sous s mo 111 a pd sii a 1545 2 i lt 57 Soo mul iI
11. AINO 124005 e AlddhS 9 INN BIKE 71031405 2 SLINN NOSS3NdNOD y 081009 3091 inoav BERE 6622 6062 3NvHL 9 36 Electrical Connection LINNA OVLY TWOIdAL lt 3900 SIONIS SLNN NO 2 9 SINDH 3ONVMIN3 M3MOd FOVLIOA INN 1 NJA 335 4 2 Loo ANOS AB 0310141535 SI NOlIVH3dO 4i 35010 1 0 LINN QALIW OL SIOVINOO 703007 ATINA 3Hv SHOSS3HdWOO TIV N3HM 35010 YOLVOIGNI ALIOVdvO JHL OL SLOVINOO SI 505538 409 35010 HOIVOIONI IHL OL SLOVINOO NO 35010 1 OL SIOVINOO SMOTIOS SV 3lVM3dO AVI3H HOV3 NO SIOVINOO N3dO ATIVNHON JHL NMOHS SNOLLONN4 81 33S 318vWVHDONd MINTON 11915 40 5 JHL 31000W Snivis ONlvH3dO NO SAYI3H 1045 30 40 SLOWLNOD 035012 ATIVWHO
12. DLL VON O09 MS ONE mamas oct ssi 8 09 81 WOW 008 OMY WOW 009 OMY OMI 35 552 5888 6709709 009 Z ONI 09 002 DLL 95 3 3s OLI SEI 011 E WOW 008 135 05 002 009 Hum IO TORTE ONE HON 008 WOE WOW 008 2 OML 35 oni 509 098 009 OW 2 15 062 WOW 009 EXE WOW 009 2 58 58 UH NON 009 DAW 2 OMI SS 507 007 5734735 001 Vii NON 009 OML BS 522 SEI esi GX 34 35 DOS OMY 008 OMY 2 WOW 008 s EE SOLL OUS 5701 Gs SHS 009 DAW Z OME 009 ONY OML 002 6S 009 325 9M 35 Jona 5400 325 9n 9 35
13. osz 622 x 3H 3s 002 81 68 WOW 006 OML 35 622 002 68 0 1 25 SSL 091 WOW 005 O t OML 13 35 002 58 011 66 35 WOW 005 0 1 Z3NHL 13 35 661 25 3215 ONT 35 AONSQ4S3 325 LINN JONVY IZIS 3MIM 901 3X 3H 35 ADNIA 3215 3MIM 9M 3X 3H 35 3 SNOI 325 39VL10 NOlLdO HOLIMS 123 02510 WOW 006 0 lt OML 13 35 002 041 551 Ovi 7021 WOW 009 0 OML 1 35 002 041 09 02 WOW 006 0 13 35 002 581 041 ssi Ovi 3H 021 lt 05 00 WOW 006 0 OML 062 3x 3H 3S 002 sei oct 991 ovi WOW 006 0 OMU 062 622 5 OL Ovi 006 O C osz 522 3x 3H 3s 002 set 041 991 ovi 09 S G WOW 005 0 OML aH ds 082 13x 3H 3S 002 LL 008 0 OML 3H 3S osz Ste 002 581 011 SSI Ovi WOW 005 0 6 5 062 522
14. ONINOO N3WOlSh TW lt 6 SIYM 2 SUNN NOIVHOQVA3 3lOW2N O3QIAONd LON 5 ZH OG VA 06 ATALWNIXONddY 7 09 NO AlddNS FIGVIWAY 19101 JO 0991 ISN 4 0383MOd N3HM 418405 100 207 1 YINOLSND NOMWOO AB 03114405 SI 131110 UILWIH N3MOd 8 1 318VL 3HL NI NMOHS SI SUNN SMORIVA SHE a 444 NO 325 SLNSWZYINOSY 3715 3504 WNWIXWA WOWINIW 303 3lvid3WVvN 335 Ye 103 T 334930 06 JO WNWININ v AINO SHOLONGNOD 334405 38 SAW TIY Z 53009 3gvoniddv 1201 14 09 fo 0 22 LINN 1 SIN3W3NInO3H 7 201 3115 3009 91412373 VNOLVN 3ONYONOOOY NI 38 ISNW 0134 9 LINN 3 48 NMOHS SNOILOZNNOD 0134 sinn NR 1409135 Q3TIHO SINSW3HITO3H ONIM les
15. sel 011 ssi 09 09v 4 PUES WOW 005 ONY 0 1 33UHL 35 062 522 5 002 922 5 esi 062 642 3X 3H 3S 002 011 SSL Ovi WOW 005 0 6 OMI 3H 3S 082 3X 3H 3S 002 011 7091 WON 005 35 WOW 008 681 7011 661 Ovi 09 08 WOW 005 0 1 5 062 002 006 0 1 13 35 062 522 3 002 sel WOW 009 WOW 062 8 04 3H 3S 062 522 5 002 581 35 0 1 09 0cz WOW 006 0 OML 5 622 002 25 681 0 1 991 091 WOW 005 0 OML 13 35 002 681 3X 3H 3S 011 551 WOW 005 0 1 3 IKOLL 3X 3H 3S 661 091 WOW 005 0 1 3H 3S 052 002 58 OLL WOW OOS OMY 0 1 33 35 052 SZ 3X 002 58 011 SSL 005 052 052 ezz 002 581 o0z WOW 005 OML 35 682 002 OLI 3X 3H 3S 661 09 005 0 6 OML 1 35 002 SBI 0 1 SSI 3X 3H 3S WOW 006 0 1 13 3 35 3ONvH 3715 9 36 325 LINN 3715 9m 3X 5 AONI 325 3715 3HIM 3 3S 5801 325
16. 5 ssi ovi WON 006 0 6 5 osz 522 3X 3H 3S 002 981 011 661 Ort WOW 005 0 6 35 062 522 3X 3H 3S 68 OL SSI 09 09 6 5 WOW 008 0 OML 134 3S 082 522 3 3 35 set 011 ssi opi 006 O C OML 34 35 052 522 002 581 70 1 551 Ovi WOW 005 0 6 OML 55 062 522 X 3H 3S 002 581 7071 SST Ovi lt 09 09 WOW 005 0 1 13 35 052 522 3 35 002 WOW 006 0 OML set szz ssh 3H 3S 082 622 5 002 sel sci WON 006 0 6 5 062 522 3X 3H 3S 002 021 691 09 WOW 006 0 OML X 3H 35 681 701 SSI Opi 09 08 WOW 005 0 1 33UHL 38 052 WON 006 0 1 35 062 002 WOW 006 062 5 062 ozz 00 WOW 006 0 6 8 522 002 5 58 011 551 09 WOW OOS 3 35 522 002 581 0 1 551 09 006 0 1 5 011 661 Ovi WOM 005 0 1 33BHL 5 052 3X 002 041 WOW 00 0 1 5 052 522 3X 002 011 901 WOW 005 WOW 082
17. 38 LSNW SNOLLO3NNOO H31VM OS LINN JHL SH3AOO L3NI8VO SNOISN3WIG NOLLO3NNOO HalVM JHL MOHS OL SVM TANVd TOHLNOO 802 ASIAXOVS WAL 55 46 2 622 49 88 26 12 9 98 109 401 LINN 8 1 97 4448918 LZE SSVd LATLNO 9 ELE SSWd Z 9 197 48918 126 SSYd 2 uoc 4 vi 7T 3SION MO1 55 4 2 2 16 3SION 018 NOILO3NNOO 844612 96 YLM OIA LIINI NOLLOSNNOO YLM OIA 1911 0 LNIOd TANVd 1051409 31160440 NO NOILISOd NOLLO3NNOO YINOLSNO 34990 PANEL CKT 5 Z Lan 44461 33733 ZH09 3X 008 ZHOS 45 9 6 ZH09 05 3S 00 2 09 09 OSE ZHOS 3 OSE V LINDYID TOHLNOO LNIOd 319NIS YSNOLSND 349907 CONTROL PANEL S3ovidz 39 6 z LINDUID TANVd 1031405 1141005 8 Ssvd 55 Z NOLLO3NNOO Y3LYM 49 9 5
18. 3snvo OS FMN SHOLDDONO2 40 1d322V Ol G3NOISSQ LON SWNINY3L LINN iAINO SYOLONGNOD N3ddOO ISN 9 02 2405 N04 ISNA 3504 XV moon suvis WNOUdO 803 saca Bios H ZHOS 2809 ASLE 15 0 SJWNOSN3d 53 31 BVNOISYOO 4 07 92 ON 73 130 vouvosaa 8 SY 311058409 NQIOOsMIO 3 3 SVI vavd OOYNJOvWIY 3 13 OQvoNvosid NVAVH MOION 130 53 SOT 5000 30 A SOLNSINIGEDONd SO VOIS A SviOmGN S3NODGNOOS3Q SYI OSMI NI V WOOL 3123409530 iosON9r3d VION3 LH3AQV V 3413 INVANOd 530 1034 S3NnS3M 530 5 SVd 531 SNOLI2PMISNI XAV 3S 318 35531 SNOL INO
19. x WW LEE WAL S3ovid8 24 S3ovid OF S310H ONILNNO wwe Lz unge 001 46 a3AOW3 1102 NV1d 401 HLONA1 ASV 0261 665 LAIN 5 186 SSvd 1971100 446688 2 55 40 LIMNI 442806 3 186 6894 Z PNTROL PANEL CKT 2 590 1 2 gaove Avs 6 SATA 431134 e LINDYIO TANVd ZH 09 AX 098 2 09 09 3H 007 ZH 09 AS 00S 05 2 08 3H SZE Imensions D MAIA LNIOd 319NIS NOLLO3NNOO YAWOLSND 3190 MOVE NOLLO3 LO3d 1109 STANVd 9 dav 40 3415 LNO 1 9 38 LSNW 6 OS LINN 1 30 3HLLN3 SHL SH3AOO 1 JHL SNOISNAWIG NOLLO3NNOO 3 1 VM 3H L MOHS GSAOWSY SVM T3NVd TOHLNOO AHL 910 uuu EL 98 Ssvdt z wwe tL ASION 55 46 2 8 26 3SION OLS NOILOANNOO YLM OIA L3TNI NOILOANNOO SIA 131100 L 56 LNIOd T3NVd 10109 31160440
20. 2 5 002 071 OZI 008 3H 3S 002 7981 011 991 Ovi OCI OZI WOW 009 2 33 35 002 GB 70 1 SSI 0217 lt 05 00 WOW 009 OML 3 35 052 522 3X 2H 3S 002 981 OLL eGl Ovi WOW 009 2 OML 3H 3S 062 522 3X 3H 3S 002 G8 011 SSI Ob 009 522 3X 3H 3S 002 021 SSI 09 09 S G WOW 009 Z OML 35 062 522 5 002 981 041 961 Ovi WOW 009 2 3 35 052 522 5 002 581 041 551 Owl WOW 009 2 OML 3H 3S 062 622 3X 3H 3S 071 ssi 09 6 09 099 WOW 009 Z 3 3 35 062 622 5 002 681 4 WON 009 tsu ss 062 SZz 3X 3H 3S 002 581 OLL SSI Ovi 98735 052 22 3 3 25 002 ori unum WOW 009 2 OML HAS Oni 57097 085 WON 008 2 3 36 052 SX 01 WON 009 OMY 2 3 35 052 0 1 Gi WON 009 OMY 2 8004 Set 021 NON 009 2 002 WOW 009 2 4 is WOW 009 2 35 522 1002 58 0 1 3
21. 600 or 600 MCM 500 MCM 500 MCM 500 MCM 500 2 1 2 1 250 250 350 400 4 2 AWG 2 4 2 2 0 2 2 0 2 4 AWG 2 2 0 2 2 0 600 MCM 500 MCM 500 500 MCM 500 MCM 500 500 MCM 375 4008 All n a 4 2 AWG 2 4 AWG 2 2 0 2 2 0 4 2 AWG 2 2 0 2 2 0 600 MCM 500 MCM 500 MCM 500 MCM 600 MCM 500 MCM 500 MCM 400 400 All n a 4 2 AWG 2 4 AWG 2 2 0 2 2 0 2 4 2 2 0 2 2 0 600 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 1 Non fused unit disconnect and circuit breaker are optional 2 Copper wire only based on nameplate minimum circuit ampacity MCA 3 Circuit breaker sizes are for factory mounted only 4 n a not available RLC PRCO39B EN 33 qq SQv3 3 03441415 SIVNIWH3L 3 14322 M3NOS 135 LINN J3IBVN3 SIOVINOO 018 SdiiIS OL O9 HOLIMS 40 3015 ANNOYS 131110 1 3 JHL 81 N3dO LINN OL INdNI OL wi JO SOM QNVOB OL 5 ONIIM YINOLSND TV GION SY 1430 3 SITOA 006 40 NOLWINSNI ONY ANO SYOLONGNOD 534409 38 5
22. 1 1AWG 1 1AWG 1 1 AWG 170 2 4 AWG 2 2 0 2 2 0 4 AWG 600 or 600 or 4 AWG 600 or 600 500 MCM 500 MCM 500 MCM 500 MCM 2 1 2 1AWG 500 2 1 2 1 250 250 250 250 1 1 1 1 185 2 4 AWG 2 2 0 2 2 0 4 AWG 2 2 0 2 2 0 4 AWG 600 600 500 500 500 500 500 500 500 2 1AWG 2 1 250 250 200 2 4 AWG 2 2 0 2 2 0 4 AWG 2 2 0 2 2 0 4 AWG 2 2 0 2 2 0 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 250 400 2 4AWG 3 3 0 3 3 0 2 4AWG 2 2 0 2 2 0 4 AWG 2 2 0 2 2 0 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 275 400 4 2 AWG 2 4 AWG 2 2 0 2 2 0 4 AWG 2 2 0 2 2 0 600 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 300 400 4 2 AWG 2 4 AWG 2 2 0 2 2 0 4 AWG 2 2 0 2 2 0 600 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 350 400 4 2 AWG 2 4 AWG 2 2 0 2 2 0 2 4 AWG 2 2 0 2 2 0 600 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 375 400 4 2 AWG 2 4AWG 2 2 0 2 2 0 4 2 AWG 2 2 0 2 2 0 600 MCM 500 MCM 500 MCM 500 MCM 600 MCM 500 MCM 500 MCM 400 400 n a 4 2 ANG 2 4 AWG 2 2
23. SSI Ovi 005 0 6 OML 55 58 55 00 SBI 53 38 55 OLA 006 0 1 3 38 55 Ot esi 005 0 1 S os 006 0 1 35 94 OIL 005 052 8003 ss ost Oe 553755 011 WOW 008 ONY 0 6 135 SEz 002 OL 5 951 Ovi NON 005 OMY 0 6 OML ssi SSL A SH 3S WON 006 OMY 0 1 1 ssi 3 3 55 326 34 735 SNOL UNN 325 9m 36 400 325 35 SNOL 325 3ONnOS WALLIN 3ONnOS TWoRLOITa Z L 3ONnOS 130 HOLIMS LOSNNOOSIG WOW 005 0 2 OMT 1 OLI GEL GH 005 075 OMI Set ori S51 008 0 OMI 1 Gai SH oi 67087009 005 077 OMT WOW 005 O7E ONT Ss 57097505 34 38 ooz
24. 33H HAWOLSND 1 201 LINDYID T3NVd 103109 LNIOd 3 19NIS YAWOLSND 31V901 VNAG 3 082 LN3S3Hd LON SNVJ TANVd SdN WWOSL 9 SSVd 002 8 SSVd 2 H313AVIO NOLLO3NNOO ZH09 09 3S 5 2 ZHO0S 3H 3S 052 RLC PRCO39B EN 46 Imensions D 6 391 XL S3ovid9 ONILSIT wwopsz S3ovid 0L S3 10H ONILNNOW 2 6 be 01 1102 HLON313SV8 LINN 9601 Ler LAINI PH SSVd 131100 883968 662 SSvd 2 88446622 106 SSVd Z 1311 0 926 821 ssvd 5 5 T al H 5 l2 8 HE 5 5 8 8 S3oviaz LAN AVS AAA 33933 SAWA 39038 c LIQOMIO T3NYd TOHINOO ZH 09 3X 082 2 09 3S OSE ZHO9 09 3 006 2 09 0S 3H 9 2 NOLLO3LO d 1100 STANVd HLAIM O4 H3TIIHO 40 WO 4 LNO 38 LSNW SNOLLO3NNOO S31VM OS 40 SHL Y3A09 513 8 2 1 JH
25. 325 180 325 35 SNOW 05 Z Tonos 3MOd 05 1 WOLONI 2 1 NO 76040313 M3MOd INOS NOlLdO 90 NO INNINH3L WOR 005 SV 078 OWL SH 3s Li SH 005 sai TOLL 005 0 6 OMLT 002 COLL 02 5709709 EE WON 005 077 OWL 005 OMY 0 5 OMI 005 SIN 076 aya avus WOW 006 0 6 WOR 005 ONY 0 6 OML 75 008 7 ORL 002 egi 0 1 7961 091 ooz sai oc ssi on 09 09 oer sez 005 0 1 33MHL 36 05 Gee SH 3S 002 195 082 sea WON 006 0 ONL 881 SSL 006 002 OLI SSL 005 07 OML SHS S S esi 97097085 005 OW 071 33881 38 052 006 35 005 WON 062 anos WON 005 o g omi 135 588 38 35 002
26. H3MOd M3OISQ2 410345 NOLO W3HOd 3OWROS ONINVMO SIHL 034345 38 88804 308005 WNG MOHS SNOLONN S1WISO 335 TaVMVUOOUd FINGON SNLVIS 40 naon 50 05 40 LINN NO SIT 1045 JO HOYI SLOVINOD 036070 UG 1530 2i HIOB 80 GUDANNOD 38 AVA SIVAN ANONS 8004 83330 TEINN wo SMON NMOHS SV 0188 CE 5 INS S 9811 NOUO Z Y Unou Vo Pe Y SEA 50 SLOVINOO 30014214 HOLMS MOU Gilvid GWOT 3USIS2N zi 0 LSNA 54012340 Z SSVI TW 894 136180 QS Si SI 35884 40 ANY SNA AV 8 803 SLOVINOD aH 08 OZI ce i 1014 882 24 Galva OLNL A
27. IIVO M3MOd 395005 Z 1 2119313 4 324005 LUNDY 791510373 2 1 NOXO 3OHhOS TIONIS SNOILO3NNOO YAWOLSND 304 S NI 304 39NVH 3215 529 09 516 2 e 2 009 8241 BSL 118 N3WNOJSNVMI YILYJANI IAYO YILYJANI 9 22 009 113 9 9131 7035 2 45 M3MOd 1051405 01 22 009 Stat 7235 611 W3WHOJSNVHL N3MOd 108109 8 06 009 pe i oeae 29 009 M3WNOJSNYMI ONDOUO P WDMININ SIYM 3 0708 JOMINOO 8 097055 Q3TIHO ot 09 002 L PE oc 22 009 2131 NYHL bab 092 01 021 SNV4 YISNJONO9 mI SS eet a 1 Sany 55912 SIOA NOLYN9ISIQ ZH 39VLIOA 3215 NOLLONn4 1931034 ISNA 3 53715 35014 1438 LOVINOD LINN OL INANI un 3WOS 031011533 SI LINN WWHON 35010 4 OL SIOVINOO c 131110 3ON3INJANOO mem vNOlLdO 030901 ATINA SHOSS3NdWOO LINN TIV N3HM 35010 MOLVOIONI 4 UNN OL SIOVINOO
28. D 5 8 55 55 55 55 75 77 9B 9898 Min ambient std C 3 9 3 9 3 9 3 9 3 9 3 9 3 9 3 9 3 9 3 9 3 9 3 9 3 9 Min ambient low 17 8 17 8 17 8 17 8 17 8 17 8 17 8 17 8 17 8 17 8 17 8 17 8 17 8 1 Data containing information on two circuits is shown as follows ckt 1 ckt 2 2 Minimum start up operating ambient is based on a 5 mph wind across the condenser RLC PRC039B EN 17 TRANE Performance Data Table 5 50 Hz standard efficiency l P units Cond Entering Air Temp F Evap Leaving 85 95 105 115 Water Unit kW kW kW kW Temp F Size Tons Input EER Tons Input EER Tons Input EER Tons Input EER 140 134 4 143 3 10 7 124 4 156 7 9 1 114 3 171 5 7 7 103 9 187 9 6 4 155 147 1 158 2 10 6 136 3 172 4 9 1 125 3 188 3 7 7 114 206 6 4 170 160 5 173 6 10 5 148 9 188 8 9 137 205 8 7 7 124 7 224 8 6 4 185 176 7 189 2 10 6 164 2 205 7 9 1 151 3 224 1 7 8 138 1 244 6 6 5 200 193 9 205 6 10 7 180 5 223 3 9 3 166 6 243 2 7 9 152 3 265 2 6 6 40 250 231 246 6 10 7 214 6 268 9 9 1 197 7 293 7 7 7 180 4 321 1 6 5 275 258 1 278 3 10 6 239 8 302 2 9 1 220 9 329 1 7 7 201 7 358 9 6 5 300 291 5 311 5 10 7 271 4 338 9 2 250 7 367 6 7 8 227 1 395 7 6 6 350 324 8 352 5 10 5 301 5 382 9 9 277 6 417 7 7 250 9 450 6 4 375 358 4 385 8 10 6 333 4 418 8 9 1 307 6 455 7 7 8 275 8 485 3 6 6 400 391 5 418 9 10 7 364 7 454 3 9 2 336 9 494 7 8 300 9 522 6 6 140 139 3 146 4 10 9 129 1 159 9 9 3
29. Ovi WON 006 0 1 325 05 Tonos 3 34 35 SNO 325 om 1 9313 AONAN SNOL ZIS UNN 325 9M Z 9 YaMOd 05 3H JOVITOA 0130 SNOILOSNNOO W3MOd YSWOLSND O4 S NI Q3GlAONd 2 4 39NVH 325 579 09 975 59 009 BIL ara Td M3WBOSNYML HALFANI Sid 535 105109 5 ene 935 Sii N3WWHOJSNVMI 108110 5 05700 09 548 5 09 087 3 20 M3OJSNYML HINOJ 8 09 087 n 09 002 55 008 Ld Tv osz or Oi Shiva WSSN3ONDS 55912 SIOA NOLYN9IS30 ZH 3OVETO LINN 325 NOHONNA 1931058 3504 53215 3504 IN3 3Ov1d3H 444 Je P 1081405 sse
30. 089 Si 4 NO ZH OL GINOHS 8921 3031 41 OOF 1OMINOO JINN VAMON SY Fl OL 1 ONY 4 LINN OL 1 SHGGN OP A SAL 538111 SLOVINGD TANYE 0 38 5 GTAHS SNOLWOINNNNOD OL SNOLIDANNOD IAV 50881 Q3ISUML 301485 Zi Li 0001 81 Li 0002 81 44 0008 ri IZIS SHIONZI LON 00 BSHOIH HO OLL HIM LINGNOD 5531 SO OE ONT TOMINGD SO LION AO LON OQ 50931 03401415 57 MY04 MO 105209 HOIHM 3595 135 Oif V HUM 5415 Ol 09 HOLIMS MOTA 20 3015 7070 8 0 1 3Hl OMY 81 OL vL 40 Y HIM XOG INNON OL TON SNOLLOSNNOO ONIM
31. 35 58 09 WON 009 2 13 35 522 002 981 561 35 091 WOW 009 ONV 2 T3H 3S 561 Ovi WOW 008 002 009 unos SX 002 009 2 13 35052 622 3X 34 35 002 OLL Sst 009 T3H 3S 062 3X 581 011 7691 ovi 009 OMV 2 3 36 062 Sez OLL 561 Ovi WON 009 2 338Hl 334 35 OFF WOW 008 2 OML 3H 3S GZZ 002 581 7011 SSL WOW 008 2 33 35 002 SBI 70 1 SSI Ovi 326 3H 35 SNOL 325 LINN 3ONvH IZIS IS SNOL 325 3715 3HIM 9m 36 ADNGIOU SNOL 325 LINN W3MOd 324005 LINDYID 795119979 M3MOd 124005 7991319979 2 1 7951313 M3MOd 05 TIONIS NOLdO 9f NO 39018 32405 2 UNDO 191419373 324005 LOBO 7991819373 9 1519313 M3MOd 324005 19 5 WOW 009 0 OML 13 35 002 581 021 SSL 7021 WOW 009 0 OML 35 002 0 1 561 091 021 WOW 006 0 3 oc oov NON 005 0 t OML 3H 3S 062 622
32. 500 2 1 2 1 AWG 50 MCM 250 MCM 250 MCM 250 MCM 1AWG 1 1 AWG 1 1 AWG 1 1 AWG 155 400 All 2 4 AWG 2 2 0 2 2 0 4 AWG 0 or 600 4 600 600 or 500 500 500 500 1AWG 2 1AWG 500 2 1 2 1 AWG 50 250 250 250 1 1 AWG 1 1AWG 1 1 AWG 400 Std Low 2 4 2 2 0 2 2 0 4 AWG 600 MCM or 4AWG 600 600 or 500 500 500 500 2 1 AWG 500 2 1 2 1 250 250 250 1 1 AWG 1 1 AWG 1 1 AWG 400 High Wide 4 AWG 2 2 0 2 2 0 600 MCM or 4 600 600 or 9 500 MCM 500 MCM 0 MCM 2 1AWG 500 2 1AWG 2 1 250 MCM 250 MCM 250 MCM 1AWG 1 1AWG 1 1AWG 1 1 AWG 400 Std Low 2 4 AWG 2 2 0 2 2 0 4AWG 600MCMor 600 or 4AWG 600 600 or 500 MCM 500 MCM 500 MCM 500 MCM 1AWG 2 1AWG 500 2 1 2 1 AWG 185 250 250 250 250 1 1 AWG 1 1 AWG 400 High Wide 4 AWG 2 2 0 4 AWG 2 2 0 2 2 0 4 600 600 or 9 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 2 1AWG 2 1 250 250 1 1AWG 1 1 1 1 AWG 1 1 AWG 400 std tow 2 2 2 0 600 6
33. Performance Data Table 9 50 Hz high efficiency SI units Evap Cond Entering Air Temp C 35 40 45 Unit kW kW kW kW kW kW kW kW C Size Cooling Input COP Cooling Input COP Cooling Input COP Cooling Input COP 120 406 1 115 8 3 29 379 73 125 3 2 86 352 3 136 2 46 324 53 147 8 2 09 130 451 1 127 1 3 33 421 92 137 6 2 89 392 03 149 2 2 49 361 44 162 2 12 140 498 92 138 8 3 37 466 92 150 2 2 93 434 23 162 8 2 52 400 82 176 7 2 16 155 543 22 153 2 3 32 508 41 165 3 2 9 472 9 178 9 2 5 436 69 193 8 2 14 170 589 99 168 1 3 29 552 36 181 2 88 513 69 195 5 2 49 474 31 211 5 2 13 185 650 46 184 2 3 32 610 38 198 3 2 9 568 89 214 2 52 526 7 231 3 2 17 5 200 714 8 201 3 34 671 56 216 2 2 93 626 9 233 1 2 55 581 2 251 8 2 2 250 847 71 245 2 3 26 793 91 264 5 2 84 739 06 286 2 46 682 81 309 6 2 11 275 950 73 271 3 31 891 31 291 4 2 9 830 83 314 1 2 52 768 6 339 3 2 16 300 1070 97 304 4 3 32 1006 63 326 9 2 92 940 53 352 1 2 54 872 32 379 9 2 19 350 1192 98 341 6 3 28 1118 09 367 5 2 87 1041 09 396 4 2 49 962 33 428 4 2 14 375 1315 69 375 3 3 3 1235 52 403 4 2 89 1152 9 434 7 2 52 1068 16 469 5 2 17 400 1441 91 409 8 3 31 1355 42 440 2 91 1266 46 473 6 2 54 1175 05 510 9 2 19 120 434 58 120 3 3 4 406 45 130 2 96 377 62 140 8 2 55 348 08 152 7 2 18 130 482 4 132 3 44 451 45 142 6 2 99 419 81 154 4 2 58 387 46 167 3 2 21 140 533 03 144 1 3 47 499 27 155 6 3 03 464 82 168 4 2 62 429 66 182 4 2 24 155 579 79 159 1 3 42 543 22
34. TANN JINN 10 SION WENT Hos voz 2809 2325 18 10 azis 3504 NO Alddns 50 SMUVLS ONDIW 321 NOI SIMOJ ZHOS 7022 4 ZHO9 ASIL 01314408 13401500 MOLWOION a 39 9 Electrical Connection T m x EM OS yng Bos JOLVOIN LINN 11 EX EUH EXE ab d 2 1 noo 11 Ss wowocw we 1 A d pn 11 bo e tot Fog E rod 2 p MN ED
35. 2 3 2 3 1 3 1 3 1 3 1 3 1 3 1 3 19 2 1 1 9 2 1 1 9 1 9 2 1 2 1 2 3 2 3 2 3 2 3 Min ambient std F 25 25 25 25 25 25 25 25 25 25 25 25 25 Min ambient low F 0 0 0 0 0 0 0 0 0 0 0 0 0 1 Data containing information on two circuits is shown as follows ckt 1 ckt 2 2 Minimum start up operating ambient is based on a 5 mph wind across the condenser 9 15 General Data Table 3 50 Hz standard efficiency SI Size 140 155 170 185 200 250 275 300 350 375 400 Compressor Screw Quantity 2 2 2 2 2 3 3 3 4 4 4 size sortz 7070 8570 85 85 100 85 100100 Foo 100 100 100 85 88 85 85 100 100 Evaporator Flooded Water storage L 110 121 129 136 151 212 235 254 284 299 314 2 pass arrangement Min 1 5 12 14 13 14 15 17 19 21 22 24 25 1 5 45 50 47 50 56 61 72 78 81 88 94 Water connection NPS in 4 4 6 6 6 8 8 8 8 8 8 3 pass arrangement Min 1 5 8 9 9 9 10 11 13 14 15 16 17 flow 1 5 30 33 31 34 37 41 48 52 54 59 62 Water connection NPS in 3 5 3 5 4 4 4 6 6 6 8 8 8 Condenser Fin and tube Qty of coils 4 4 4 4 4 8 8 8 8 8 8 Coil length 3962 4572 4572 5486 5486 3962 4572 5486 4572 5486 5486 3962 3962 4572 4572 5486 2743 2743 2743 4572 4572 5486 Coil height 1067 1067 1067 1067 1067 1067 1067 1067 1067 1067 1067 Number of rows 3 3 3 3 3 3 3 3 3 3 3 Fins per foot fpf 192 192 192 192 192 192 192 192 192 192 192 Fan Direct drive p
36. 300 25893 11745 26336 11946 27617 12527 28182 12783 350 29084 13192 29527 13393 32037 14532 32712 14838 375 30432 13804 30971 14048 32463 14725 32971 14955 400 32112 14566 32787 14872 34982 15867 35525 16114 1 Operating weight includes refrigerant and water 2 Shipping weight includes refrigerant 3 All weights 3 9 TRANE Mechanical Specifications 52 General Units are leak and pressure tested at 390 psig high side 250 psig low side then evacuated and charged All Air Cooled Series R Chillers are factory tested prior to shipment Packaged units ship with a full operating charge of oil and refrigerant Unit panels structural elements and control boxes are constructed of galvanized steel and mounted on a welded structural steel base Unit panels and control boxes are finished with a baked on powder paint and the structural base with an air dry paint All paint meets the requirement for outdoor equipment of the US Navy and other federal government agencies Evaporator The evaporator is a tube in shell heat exchanger design with internally and externally finned copper tubes roller expanded into the tube sheet The evaporator is designed tested and stamped in accordance with ASME for a refrigerant side working pressure of 200 psig The evaporator is designed for a water side working pressure of 150 psig Water connections are grooved pipe Each shell includes a vent a drain and fittings f
37. 401 131100 HLONS1 36 8 81 97 197 49918 9 LZE SSVd 13110 416008 SLE SSWd 2 141 49028 EZE 66 Z 191100 0 96 ENER OTHISWOSI LNIOd NOILO3NNOO 319907 CONTROL PANEL 2 ICONTROL PANEL Sa3ovidz uiuere 3ATVA S3ovldz LAN 6 4313Y LINDYID TANVd 1031409 ZH 09 3X 4 2 2 09 0S 3H 006 Imensions D 56 46 2 RLC PRCO39B EN MJA JVE wht 22 49 88 612 98 0611 Jv OIA L3TNI 3SION 2 16 3SION ALS 96 LNIOd TANVd 1041409 3LISOddO NO NOILISOd NOLLO3NNOO YSIWOLSNO 319907 TANVd 1031409 88 46 Ssvaz alvi 48 Imensions D 3dis x 6 9 4 39748 uwet wh S3ovid OL 982 wwe 96 10 449 i ww SPE S3 1OH ONILNNOW NOLLO3 LOHd STANVd OL 9 2 aav H3 TIIHO 30 S3GIS LNO 1
38. 5 50001 300 OOS SNOL NOUNSANIINI SOLON 30 53 3 530 13 ONIONS 380438 SUNN 2 _ 30 SOINAM3OOMd 501 vols 5380030084 531 5 sind 100 4001 MOTION ONY ava NOS 571 5 Y SU IINNOLDAS 531 WHANO SI9UNNOOSIO INIONT NI vORIO313 V WOOL 193 02530 43 SNOISNAL S3 5317101 M3dnOO YAMOd 21019313 TIV 123NNOOSIO 1050491139 i3Sn3N39NvO NOISN3L Snodasvzvd pd m W VIONSLYSAGV V 1N3W3SSILHJAV V SNINHVM V Lx ime 802c 60 c 3NVHL UO 38 Electrical Connection SUNT VEG 3X SUNN SUNN 143 QNONVIS 35 WOR 059 SAY Z OL T SH S 991 SSL 334 OF ORT WON 009 5 2 OML 0 Sat 581 09 WOW 008 2 OME SHAS TOLL SEI Ovi SH OFT 87687009 W 009 SV EX 3s per eT a EET 51 38 011 est OPL 3m 3s 002
39. 9 840 14 8 S3 1OH ONILNNOW 6 2 NOLLO3NNOO SIA LATINI NOLLO3NNOO LATLNO VNAG IHNVd 1031405 9689 ZEZ 166 unugy V A Sv 2 LZ P 9L S3ovidc 6 6 GSAOWSY 1102 401 HLSN31 3SV8 LINN 8996 9 97 WWLOLS 002 SSVd 181100 48469 56 SSvd Z 131 446814 LOZ SSYd Z 18100 9 6 86 UNIT CONTROL PANEL S3OVd Z 39119 ZH 09 3X 071 2 09 09 3S 002 S8L 3H 0 1 SSL 1001 SSvd 06 9 SSVd 2 1 NOLLO3NNOO S31VM RLC PRC039B EN 44 o c o c E x 21 10 NIA MOVE 8 8 0 NOILOALONd 1100 540 14 STANVd NI 0189 22 4 892 HLGIM OL 88
40. IWNOLLdO OL 0130 Sv SISVIIVAY SI 395005 ONVONVIS SY SI N3MOd 394005 TIONIS 01 210 1 40 AND vu 00 NO 01 2 M3wv3N8 NO 193NNOOSIO 52018 TVNIH3I LINN SNOlldO 39VL10A INN 4 WOWIXVA S3HIM 131100 NOlLdO NOIVMOdVA3 3lOW3H 035 LON YOIVYOdVAa 4 ONNOYD P SIYM C IvNOlLdO GYVGNVIS 323344 4 0 1 04135 IN3MHOD ZINGON 01915 9Nuvs34O LINN la j 1491 301 ZHOS 5 40 022 YO SINN 2 09 303 SNOldO IOA Sit BOINOKNNI MSYIV T SNIVA S3EVN3 5 14109135 Q3TIIHO 1 NIU JOVINOO OL I 3 amo SOLIVOIONI OS 638 1 34 SIHL NO NMOHS S SNOLLdO 4 9NDIVW 321 4015 1991 5 TIV 01602 030084 38 LON AVN NO S3Bniv34 ONIMOTIOS lt gt OL
41. NO NOILISOd 3ALLV 13H NI NOLLO3NNOO TANVd SdN 002 8 SSYd SSWd Z 1 NOLLO3NNOO YILYM RLC PRCO39B EN 50 TRANE Weights Table 15 Weight packaged units 50 Hz aluminum or CompleteCoat coils Standard Efficiency High Efficiency E Shipping Operating Shipping Operating tons Ib kg Ib kg Ib kg Ib kg 120 10832 4913 11146 5056 130 10910 4949 11146 5056 140 10871 4931 11160 5062 155 12466 5654 12786 5800 170 12742 5780 12990 5892 185 14383 6524 14754 6692 200 14516 6584 14967 6789 250 19176 8698 20483 9291 275 21944 9954 21532 9767 300 22272 10102 22185 10063 350 24924 11305 25812 11708 375 26298 11929 26963 12230 400 27120 12301 27751 12588 1 Operating weight includes refrigerant and water 2 Shipping weight includes refrigerant weights 3 Table 16 Weight packaged units 50 Hz copper coils Standard Efficiency High Efficiency Shipping Operating Shipping Operating tons Ib kg Ib kg Ib kg Ib kg 120 n a 13407 6081 13734 6230 130 n a 13426 6090 13734 6230 140 13417 6086 13734 6230 13446 6099 13734 6230 155 13851 6283 13962 6333 15772 7154 16192 7345 170 13856 6285 14366 6516 16162 7331 17421 7902 185 16216 7355 16463 7467 18570 8423 18979 8609 200 16381 7430 16721 7584 18833 8542 19223 8719 250 22058 10005 21837 9905 24015 10893 24056 10912 275 24584 11151 25095 11383 26617 12073 27135 12308
42. SNOLIdO 1 022 SLINN ZHO9 03 5 40 MOA Gil 1 04135 M3IVM 1 8015 1815 351 2 55410 WwNOLLdO MOT G3LON OS S3uniY3i WNOILdO SIHL NO NMOHS SI 5 40 ONY S3Nniv3J GUVONVIS 15 38 ON AW YO 9 104 01 I10S3 SIHL HIM OL Indino NIHO 50 ISAN LYN OMINOO JNNA OL 0321 ISAN NOUmO t ISHA TIONS jaw NOUS 03131084 SMOION Z INO TUNA LON i STON WIND 529 097515 1 weiter JAYO M JHVONOOSS AVI WSWHOINVHI H3NOd 1051 5 or 910 61 JNYONOOSS 1614 TORINOD 5 087009 09 515 osz 5 MSNHOASNVML
43. SdMY Si 8 ISHL 40 ANY IZIS ISNA SITOA OPZ 9 S SIOvINOO ZH 09 SITOA 021 Z L dH 1 1014 88 2 24 X04 2101 Oi 501815 ONDNM SMUVIS 0 JINN IOMINOO 03 SIOVINOO AYO 1 NVS INY 14320 HOIHM MGNOS 135 OLF SVH HOIHM 4415 OL 5 514405 511 ODE 40 9 NOLIVINSNI ONY AINO SHOLORQNOO 34405 38 ISAN ON 1 080 ssMOlsnO T 4 0001 81 13 0002 OMY 81 0008 ZI NIAID NAY LON OQ HHIH LOA OLL LNIGNOD 5531 HO SLIOA 06 J0MNO9 3OYLIOA MOT 00 81 OL Pl 40 SOM XOH GAINNON 0806 OL OAM SHE TOMOS HE IY 03080080 38 01 UNG 030015 88 Gl ANE NOUYONNANOS qi anya IND SHGEOS 080080 63002 48 5304418 Sii 0
44. as MO foot 2556 sal es Ea _ uxo 8 I Doas diana doe 3ounos 33 015 5 E a Nd d 5 E D EIN tear pat o 21 eas DE Di zai nous S owog wo z 4m 111 104155 ie 5 a o aw 2 AME 308005 P ai Lg wt E 27 ps n e gne LU LET Es a 8 imn 2 0 anes EE suo see HNYd 1081 So ud CHEN UU AE E XVL OL SNIMIM 01314 Elz 2222 6066 e 0 9 40 Electrical Connection ATIVOUNGA MY SINJA 103800 LISN 335 2 38 AVN 530 30 OHLON IHL NS 81 MO 19344095 549018 NOUNNIMSL Z 1 STINE NI 40130 2 TOMINOD Z 1 71081402 1 NOMO OI IV
45. 10 1 228 4 303 4 8 6 194 301 7 4 275 297 7 284 6 11 9 277 5 307 5 10 3 256 7 333 4 8 8 235 4 362 3 7 5 300 335 2 320 1 11 9 313 2 345 5 10 3 290 5 374 3 8 9 267 1 406 5 7 6 350 373 358 3 11 8 347 5 387 3 10 2 321 2 420 1 8 7 294 3 456 6 7 4 375 411 3 394 1 11 8 383 9 425 7 10 3 355 7 461 4 8 8 326 7 501 2 7 5 400 450 6 430 8 11 9 421 2 464 8 10 3 390 8 503 3 8 9 359 4 546 3 7 6 120 132 5 123 8 12 1 123 2 134 7 10 4 113 5 146 8 8 8 103 6 160 3 7 4 130 147 135 8 12 2 136 8 147 6 10 5 126 2 160 9 9 115 175 7 5 140 162 3 148 1 12 4 151 1 161 10 7 139 6 175 5 9 1 126 2 188 2 re 155 176 3 163 8 12 2 164 2 177 6 10 5 151 7 193 1 9 137 9 208 2 7 6 170 191 3 180 3 12 178 1 194 9 10 4 164 5 211 4 8 9 150 6 229 7 7 5 185 210 6 197 7 12 1 196 5 213 7 10 5 182 231 7 9 167 251 8 7 6 48 200 231 6 216 1 12 2 216 3 233 4 10 6 200 6 252 9 9 1 183 9 273 8 7 7 250 274 8 262 9 11 9 255 9 284 9 10 3 236 5 309 5 8 8 194 7 293 9 7 6 275 308 291 1 12 287 2 314 2 10 4 265 7 340 2 9 243 1 367 9 7 6 300 346 8 327 5 12 324 1 353 2 10 5 300 7 382 2 9 275 7 412 9 7 7 350 385 7 366 3 11 9 359 4 395 5 10 3 332 4 428 4 8 9 303 4 462 3 7 5 375 425 3 403 12 397 1 434 9 10 4 368 470 8 8 9 335 1 504 6 7 6 400 466 440 7 12 435 7 475 10 5 404 3 513 9 9 365 8 544 8 7 7 1 Rated accordance with AHRI Standard 550 590 based TOPSS version 140 sea level altitude evaporator fouling factor 0 0001 F ft h Btu evaporator temperature drop of 10 F and 2 pass evaporator configurati
46. 118 6 174 9 7 8 106 8 188 9 6 5 155 152 4 161 7 10 8 141 3 176 1 9 2 129 9 192 2 7 8 116 6 206 1 6 5 170 166 2 177 6 10 7 154 2 192 9 9 2 141 9 210 7 8 127 6 225 3 6 5 185 182 9 193 6 10 8 170 210 2 9 3 156 8 228 8 7 9 139 8 242 2 6 7 200 200 8 210 4 10 9 186 9 228 3 9 4 172 6 248 4 8 154 262 5 6 8 42 250 239 2 252 1 10 8 222 3 274 6 9 3 204 9 299 6 7 9 182 3 316 9 6 6 275 267 2 284 7 10 7 248 3 308 8 9 2 228 9 335 9 7 8 203 2 353 4 6 6 300 301 8 318 9 10 8 281 345 6 9 3 259 6 375 5 8 228 3 388 9 6 8 350 336 360 6 10 6 312 1 391 2 9 1 287 5 425 6 7 8 253 442 9 6 6 375 370 8 394 8 10 7 345 428 9 2 318 4 465 3 7 9 278 9 479 9 6 7 400 405 428 6 10 8 377 3 464 4 9 3 348 8 504 6 8 303 9 515 7 6 8 140 144 2 149 6 11 133 7 163 3 9 4 123 178 4 7 9 107 9 185 9 6 7 155 157 8 165 4 10 9 146 4 179 9 9 3 134 6 196 7 9 117 9 203 4 6 7 170 172 181 7 10 8 159 6 197 1 9 3 146 9 214 3 7 9 128 7 221 6 6 7 185 189 2 198 10 9 175 9 214 8 9 4 162 3 233 6 8 141 4 239 4 6 8 200 207 7 215 3 11 193 4 233 4 9 5 178 6 253 8 8 1 155 6 259 3 6 9 44 250 247 5 257 8 11 230 1 280 5 9 4 212 2 305 7 8 184 1 312 1 6 8 275 276 4 291 3 10 8 256 9 315 7 9 3 236 9 343 8 204 6 347 6 8 300 312 1 326 4 10 9 290 7 353 4 9 4 268 6 383 6 8 1 230 6 383 7 6 9 350 347 4 368 8 10 8 322 7 399 7 9 3 297 4 434 3 7 9 254 8 434 9 6 8 375 383 3 403 9 10 8 356 7 437 5 9 4 329 3 475 8 280 4 470 5 6 9 400 418 7 438 7 10 9 390 2 474 9 9 4 360 7 515 4 8 1 305 1 504 9 7 18 9
47. 118 7 184 8 7 3 155 164 4 156 9 11 8 153 170 5 10 2 141 2 185 8 8 7 129 1 202 8 7 3 170 178 5 172 5 11 7 166 1 186 9 10 1 153 2 203 2 8 6 140 1 221 4 7 3 185 196 7 189 1 11 7 183 4 204 8 10 2 169 7 222 5 8 7 155 6 242 3 7 4 44 200 216 2 206 5 11 8 201 8 223 5 10 3 187 242 6 8 8 171 7 264 7 5 250 256 5 251 5 11 6 238 7 273 1 10 220 4 297 4 8 5 193 1 307 5 7 2 275 287 5 278 3 11 7 267 9 301 10 1 247 7 326 7 8 7 227 1 355 4 7 3 300 323 9 312 8 11 7 302 5 338 10 2 280 5 366 5 8 8 257 8 398 4 7 4 350 360 5 350 5 11 6 335 7 379 4 10 310 2 411 9 8 6 284 1 448 3 7 3 375 397 5 385 4 11 7 371 416 8 10 1 343 5 452 2 8 7 315 4 491 7 7 4 400 435 5 421 1 11 7 406 9 454 8 10 2 377 4 492 9 8 8 347 535 6 7 4 20 9 Performance Data Table 6 50 Hz high efficiency I P units Cond Entering Air Temp F Evap Leaving 85 95 105 115 Bienes p Unit kW kW kW kW Size Tons Input EER Tons Input EER Tons Input EER Tons Input EER 120 127 8 121 2 11 9 118 8 131 9 10 2 109 4 144 8 7 99 8 157 5 7 3 130 141 9 132 9 12 131 9 144 7 10 3 121 7 157 9 8 8 111 1 172 5 7 4 140 156 7 145 12 2 145 8 157 9 10 5 134 7 172 2 8 9 122 9 187 5 7 5 155 170 3 160 3 12 158 6 174 10 3 146 4 189 4 8 8 133 7 205 8 7 4 170 184 9 176 3 11 8 172 190 9 10 2 158 8 207 2 8 7 145 3 225 5 7 4 185 203 6 193 3 11 9 189 9 209 2 10 3 175 8 227 1 8 8 161 3 247 7 5 46 200 223 8 211 2 12 209 228 4 10 4 193 7 247 7 8 9 178 269 3 7 6 250 265 6 257 1 11 7 247 2 278 9
48. 171 5 2 99 505 6 185 2 2 59 467 63 200 3 2 23 170 629 36 174 9 3 38 589 63 188 2 96 548 85 202 6 2 57 507 01 218 7 2 21 185 693 36 191 7 3 41 650 81 206 2 99 607 21 221 9 2 6 562 56 239 5 2 24 7 200 761 92 209 3 3 43 716 21 224 8 3 02 669 1 242 2 63 620 57 260 9 2 27 250 903 96 255 1 3 35 847 36 274 7 2 93 788 99 296 5 2 54 725 7 318 3 2 18 275 1013 66 282 1 3 39 951 08 302 8 2 98 886 74 325 8 2 59 820 99 351 3 2 24 300 1141 29 317 1 3 41 1073 44 340 3 1003 12 365 5 2 62 931 04 393 9 2 26 350 1270 68 355 3 3 37 1191 57 381 5 2 95 1110 35 410 7 2 57 1027 38 443 2 21 375 1401 13 390 6 3 38 1316 39 419 1 2 97 1228 84 450 9 2 59 1139 54 486 2 24 400 1535 44 426 8 3 39 1444 37 457 5 2 99 1350 14 491 7 2 61 1253 45 529 5 2 26 120 463 76 125 3 5 434 23 134 9 3 05 403 64 145 7 2 64 372 34 157 7 2 26 130 514 74 137 1 3 54 482 04 147 9 3 09 448 64 159 7 2 67 414 54 172 8 2 29 140 568 19 149 5 3 58 532 67 161 2 3 13 496 46 174 2 2 71 458 13 187 7 2 33 155 617 41 165 4 3 52 578 73 177 9 3 08 539 35 191 8 2 67 497 87 206 3 2 3 170 669 45 181 9 3 47 627 61 195 2 3 05 584 71 209 9 2 65 540 76 226 2 2 28 185 737 31 199 5 3 49 692 65 214 3 07 646 59 230 1 2 68 599 48 247 9 2 31 9 200 810 44 218 3 51 762 27 233 7 3 1 712 34 251 2 2 7 661 36 270 5 2 34 250 961 63 265 4 3 43 901 85 285 3 3 01 840 32 307 3 2 61 730 98 305 8 2 28 275 1078 01 293 7 3 48 1011 91 314 6 3 06 944 05 337 9 2 67 874 78 363 7 2 31 300 1213 72 330 3 3 48 1141 65 353 6 3 07 1067 81 379 6 2 69 991 51 40
49. 180 108 216 108 180 180 216 180 216 216 Coil height in 42 42 42 42 42 42 42 42 42 42 42 Number of rows 3 3 3 3 3 3 3 3 3 3 3 Fins per foot fpf 192 192 192 192 192 192 192 192 192 192 192 Fan Direct drive propeller Quantity 4 4 5 4 5 5 6 5 6 5 8 6 10 6 12 6 10 10 12 10 12 12 Diameter in 30 30 30 30 30 30 30 30 30 30 30 Air flow per fan cfm 7918 7723 7567 7567 7567 7764 7566 7567 7567 7567 7567 Power per motor hp 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 Fan speed rpm 950 950 950 950 950 950 950 950 950 950 950 Tip speed Ft min 7461 7461 7461 7461 7461 7461 7461 7461 7461 7461 7461 General Unit HFC 134a refrig ckts 2 2 2 2 2 2 2 2 2 2 2 min load 15 15 15 15 15 15 15 15 15 15 15 Refrig charge Ib 175 175 215 205 215 215 225 215 225 225 235 235 235 235 415 200 460 200 415 415 460 460 Oil charge ga 1 3 1 3 1 3 1 3 1 3 1 3 19 13 1 9 1 9 95 4090 0 2323 Min ambient std F 25 25 25 25 25 25 25 25 25 25 25 Min ambient low F 0 0 0 0 0 0 0 0 0 0 0 1 Data containing information on two circuits is shown as follows ckt 1 ckt 2 2 Minimum start up operating ambient is based on a 5 mph wind across the condenser 14 RLC PRCOS39B EN General Data Table 2 50 Hz high efficiency 1 Size 120 130 140 155 170 185 200 250 275 300 350 375 400 Compressor Screw Quantity 2 2 2 2 2 2 2 3 3 3 4 4 4 MM 428 NE M E E CE Evaporator Flooded Water storage gal 29 32 34 36 40 39
50. 3 3 35 OLL ssi Ovi m ss 008 OMY 0 6 omi 1 3X 34 35 001 SSI See Ed WOW 005 0 OMT 1 34 3H 35 SSL 005 072 ONT 006 0 ORL ori 81 lt 09 09 sur 009 T 135 062 Sez 002 us 082 SUE Ta non 006 o e POR tos 34 25 soi 34 34 35 0 0 008 O t mU 5 08 08 005 SMW 071 SUH 005 SHY 071 SHOAL WOW 008 058 5001 WOM 005 07 ONL 55 58 55 007 005 OML 962 SX SS S61 WOW 008 9MY 0 1 Ori WOW 005 OMY 0 1 T35 OGZ ax OLN WON 005 0 1 33HHL 135 062 72 3X 041 951 WoW 005 WOW 062 8004 185 052 522 15 002 Set 3X 3H 35 0 1 551 c os ooz WOW 005 ONV 0 6 OMI 55 34 35 002 OLI 35 NIN 005 OML 8 35 007 011 SEI
51. 39VAVO NI 110533 AVW amamos si 35079 Pr 1 SIHL OL MIVA Lndino 8 Q3T104INO2 38 15 HOIHM SLOVINOD 340 XYMWHON OL 5 TOMINOD OL 35 38 1508 101409 lt 22441 41 ONnONO SIYM FIONIS NOUS JAV 2 ag 9 N338 S3Nnd32ONd 5 110 NN LINN 3ZIONZN3 LON i 1 90 OLN _1 L SNLWLS 4 Q3ISIML 5 1 J930 L XJOVYL ERE TaNVd SInOXOONX 9 1 084 3ONVMIN3 1 30unos E 244441 wna P d Anddns W3Wwod 39vI10A INT Lf ACN SInOXOON 9 3ONVMIN3 YBNOLSND VN 71 2 55810 Odino3 ONVO YVNOISYDO 30 01 ON IS 5041 0510 939 SvOvN3SId 153 531 SYI 134905
52. 43 67 72 72 83 86 91 2 pass arrangement Min flow gpm 193 214 202 217 241 217 241 339 375 375 404 422 461 gpm 709 785 741 796 883 796 883 1243 1374 1374 1483 1548 1690 conne e NPS in 4 4 6 6 6 6 6 8 8 8 8 8 8 3 pass arrangement Min flow gpm 129 143 135 145 161 145 161 226 250 250 270 282 307 Max flow gpm 473 523 494 531 589 531 589 829 916 916 989 1032 1127 NPS i 35 35 4 4 4 4 4 6 6 6 8 8 8 Condenser Fin and tube Qty of coils 4 4 4 4 4 4 4 8 8 8 8 8 8 Coillength in 136 216 216 252 252 1087 216 252 144 216 216 252 216 252 252 Coil height in 42 42 42 42 42 42 42 42 42 42 42 42 42 Number of rows 3 3 3 3 3 3 3 3 3 3 3 3 3 Fins per foot fpf 192 192 192 192 192 192 192 192 192 192 192 192 192 Fan Direct drive propeller Quantity 4 4 5 4 5 5 6 5 6 6 7 6 7 7 10 6 12 6 14 6 12 12 14 12 14 14 Diameter in 30 30 30 30 30 30 30 30 30 30 30 30 30 Air flow per fan cfm 62484 68819 7558 7557 7557 7558 7559 7561 7943 7906 7557 7490 7559 Power per motor hp 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 Fan speed rpm 950 950 950 950 950 950 950 950 950 950 950 950 950 Tip speed Ft min 7461 7461 7461 7461 7461 7461 7461 7461 7461 7461 7461 7461 7461 General Unit HFC 134a refrig ckts 2 2 2 2 2 2 2 2 2 2 2 2 2 15 15 15 15 15 15 15 15 15 15 15 15 15 c Arcu dudo ger ewe charge gal 1 3 1 3 1 3 1 3 1 3 1 9 1 9 2 1 2 1 2 3 2 3 2 1 2 1 2 3 2 3
53. 800 300 400 50 3 2 3 14 6 15 28 3 7 12 189 189 189 1089 1089 1089 354 354 354 468 256 600 400 400 50 3 1 4 24 15 28 37 12 Mer aue 755 800 400 50 3 2 2 05 18 28 igo 354 35 397 397 500 500 m 400 50 3 1 4 6 15 28 37 159 UE er pos 826 1000 400 50 3 2 4 14 12 1 28 37 159 1818 354 35 468 397 600 500 400 503 1 4 8 hse 2 159 110 ES 889 1000 400 50 3 2 4 1414 15 28 37 159 d 468 468 600 600 Notes 1 2 3 4 5 6 7 8 9 Voltage Utilization Range 10 of rated voltage Rated voltage use range 400 volt 360 440 As standard 140 200 ton units have a single point power connection Optional dual point power connections are available As standard 250 400 ton units have dual point power connections Optional single point power connections are available on 400V 50 Hz units Control VA includes operational controls only It does not include evaporator heaters A separate 220 50 1 15 amp customer provided power connection is required to power the evaporator heaters 1640 watts RLA Rated Load Amps XLRA Locked Rotor Amps based on full winding x line start units YLRA for wye delta starters is 1 3 of LRA of x line units MCA Minimum Circuit Ampacity 125 percent of largest compressor RLA plus 100 percent of all other loads Max fuse or MOPD 225 percent of the largest compressor RLA plus 100 percent of the second compressor RLA plus t
54. SVlOW3H S3NOIX3NOOS3Q SY OSITIONI VOIHIOST3 V1 vGOL 3103 2530 105039134 3PvlloA VION3 LH3AQV V 3413 S3AVHO 534055318 530 H3NIVMIN3 1034 S34nS3W 530 531034535 Svd 531 30 1 30 SNOWLONYISNI N3lNOd3N 3S 318 355314 Y SIN3W3NIVHIN3 530 INVLMOdWOO SVO 31 SNVQ 5 1105 SM 3lOW 530 5 5 0 S31 SNOL 31n0L ANVAY Sananda 530 13 39VNINOYYIA 30 531 IYANS gONVISIO SM 3NNOLO3S 531 YIYANO SNOISN3L 531 531 01 834009 jASNAYSONVG NOISN3L IN3NWG3SSILH3AV 500835 110538 01002 9NIDIAMSS 30438 OQ Ol 303 SNOLLOQMISNI IAYO OL M3434 03395 SLNN 038015 53019945 MOLOW TIY LVHL 5 ONIDIANAS 340438 5 9 1 110 201 MOT104 SIO3NNOOSIO 310W34 M3MOd 51519373 Tv 103NNOOSIG SNOGYVZVH DNINHVM V 34 ical Connecti Electr SIND VAI 3X SUNN 301443 3H SUNN 301433 QNVONVIS 35 008
55. When cooling is required ice chilled glycol is pumped from the ice storage tanks directly to the cooling coils No expensive heat exchanger is required The glycol loop is a sealed system eliminating expensive annual chemical treatment costs The air cooled chiller is also available for comfort cooling duty at nominal cooling conditions and efficiencies The modular concept of glycol ice storage systems and the proven simplicity ofTraneTracer controllers allow the successful blend of reliability and energy saving performance in any ice storage application The ice storage system is operated in six different modes each optimized for the utility cost of the hour 1 Provide comfort cooling with chiller Provide comfort cooling with ice Provide comfort cooling with ice and chiller Freeze ice storage Freeze ice storage when comfort cooling is required Off Tracer optimization software controls operation of the required equipment and accessories to easily transition from one mode of operation to another For example oo Even with storage systems there numerous hours when is neither produced consumed but saved In this mode the chiller is the sole source of cooling For example to cool the building after all ice is produced but before high electrical demand charges take effect Tracer sets the air cooled chiller leaving fluid setpoint to its most efficient setting and starts the chiller chiller pump and load
56. an evaporator when the unit is not operating is 108 F 42 C Flow Rates Out of Range Many process cooling jobs require flow rates that cannot be met with the minimum and maximum published values for the Model RTAC evaporator A simple piping change can alleviate this problem For example A plastic injection molding process requires 80 gpm 5 1 1 5 of 50 F 10 C water and returns that water at 60 F 15 6 C The selected chiller can operate at these temperatures but has a minimum flow rate of 120 gpm 7 6 I s The system layout in Figure A1 can satisfy the process Figure 1 Flow rate out of range system layout 50 deg F 80 gpm 50 deg F 120 gpm 50 deg F 40 gpm 80 gpm Flow Control Trane requires the chilled water flow control in conjunction with the Air Cooled Series R Chiller to be done by the chiller This will allow the chiller to protect itself in potentially harmful conditions Supply Water Temperature Drop The performance data for the Trane air cooled Series R chiller is based on a chilled water temperature drop of 10 F 5 6 C Chilled water temperature drops from 6 to 18 F 3 3 to 10 C may be used as long as minimum and maximum water temperatures and flow rates are not violated Temperature drops outside this range are beyond the optimum range for control and may adversely affect the microcomputer s ability to maintain an acceptable supply water temperature range Further temperature drops of less
57. at maximum capacity failure has occurred ckt 1 ckt 2 BACnet Interface BACnet interface capabilities are available with communication link via single twisted pair wiring to a factory installed and tested communication board Required features BACnet Interface selectable option with chiller BACnet is data communication protocol for building automation and control networks developed by American Society of Heating Refrigerating and Air Conditioning Engineers ASHRAE LonTalk LCI C Interface LonTalk LCI C communications capabilities are available with communication link via single twisted pair wiring to factory installed tested communication board e Required features LonTalk Tracer Summit Interface selectable option with chiller 26 9 5 9 Controls LonTalk is a communications protocol developed by the Echelon Corporation The LonMark association develops control profiles using the LonTalk communication protocol LonTalk is a unit level communications protocol LonTalk Communications Interface for Chillers LCI C provides a generic automation system with the LonMark chiller profile inputs outputs In addition to the standard points Trane provides other commonly used network output variables for greater interoperability with any automation system The complete reference list of Trane LonTalk points is available on the LonM
58. coating Flange Kit Provides a raised face flange kit that converts the grooved pipe evaporator water connections to flange connectors Insulation for High Humidity The evaporator is covered with factory installed 1 25 inch 31 8 mm Armaflex Il or equal k 0 28 insulation Foam insulation is used on the suction line Low Noise Fans Complete fan assembly combining ultra quiet nine blade fans and TEAO fan motors to provide sound reductions with no performance degradation to the unit The fan blades are heavy duty molded plastic with wavy edges to reduce airflow turbulation Isolators Neoprene Isolators provide isolation between chiller and structure to help eliminate vibration transmission Neoprene isolators are more effective and recommended over spring isolators Elastomeric Isolation Pads Seismically Rated Elastomeric isolation pads are designed and tested to control the motion of the chiller during a seismic event Isolators Seismically Rated Spring isolators are designed and tested to control the motion of the chiller during a seismic event Seismically Rated Unit IBC amp OSHPD Unit is built and certified for seismic applications in accordance with OSHPD and the following International Building Code IBC releases 2000 2003 2006 and 2009 Performance Tests Performance and witness tests are available based on requested operating points to certify chiller performance in accordance with AHRI Standard 550 5
59. energy bills Trane s RTAC optimizes the part load performance of your machine for energy efficiency precise control for process applications and your personal comfort regardless of the weather outside Excellent Reliability A buildings environment is expected to be comfortable When it is no one says a word If it s not that s a different story The same is true with chillers No one ever talks about chillers yet alone compressors until they fail and tenants are uncomfortable and productivity is lost Trane s helical rotary compressors have been designed and built to stay running when you need them Fewer moving parts Trane s helical rotary compressors have only two major rotating parts the male and female rotor A reciprocating compressor can have more than 15 times that number of critical parts Multiples of pistons valves crankshafts and connecting rods in a reciprocating unit all represent different failure paths for the compressor In fact reciprocating compressors can easily have a failure rate four times of a helical rotor Combine that with two to three reciprocating compressors for each helical rotary compressor on chillers of equal tonnage and statistics tell you it s a matter of time before you lose a reciprocating compressor Robust components Helical rotary compressors are precisely machined using state of the art processes from solid metal bar stock Tolerances are maintained within a micron or less than a tenth of
60. option may be a variable primary flow VPF system VPF systems present building owners with several cost saving benefits that are directly related to the pumps The most obvious cost savings result from eliminating the secondary distribution pump which in turn avoids the expense incurred with the associated piping connections material labor electrical service and variable frequency drive Building owners often cite pump related energy savings as the reason that prompted them to install a VPF system The evaporator on the Model RTAC can withstand up to 50 percent water flow reduction as long as this flow is equal to or above the minimum flow rate requirements The microprocessor and capacity control algorithms are designed to handle a maximum of 10 change in water flow rate per minute in order to maintain 0 5 F 0 28 C leaving evaporator temperature control For applications in which system energy savings is most important and tight temperature control is classified as 2 F 1 1 C up to 30 percent changes in flow per minute are possible With the help of a software analysis tool such as System Analyzer DOE 2 or TRACE you can determine whether the anticipated energy savings justify the use of variable primary flow particular application It may also be easier to apply variable primary flow in an existing chilled water plant Unlike the decoupled system design the bypass can be positioned at various points in the chill
61. pump 11 12 Application Considerations When electrical demand is high the ice pump is started and the chiller is either demand limited or shut down completely Tracer controls have the intelligence to optimally balance the contribution of ice and chiller in meeting the cooling load The capacity of the chiller plant is extended by operating the chiller and ice in tandem Tracer rations the ice augmenting chiller capacity while reducing cooling costs When ice is produced Tracer will lower the air cooled chiller leaving fluid setpoint and start the chiller ice and chiller pumps and other accessories Any incidental loads that persist while producing ice can be addressed by starting the load pump and drawing spent cooling fluid from the ice storage tanks For specific information on ice storage applications contact your local Trane sales office RLC PRCOS39B EN TRANE Model Number Descriptions Digits 1 2 Unit Model RT Rotary chiller Digit 3 Unit Type A Aircooled Digit 4 Development Sequence C Development sequence Digits 5 6 amp 7 Nominal Capacity 120 120 Nominal tons 130 130 Nominal tons 140 140 Nominal tons 155 155 Nominal tons 170 170 Nominal tons 185 185 Nominal tons 200 200 Nominal tons 250 250 Nominal tons 275 275 Nominal tons 300 300 Nominal tons 350 350 Nominal tons 375 375 Nominal tons 400 400 Nominal tons Digit 8 Unit Voltage D 400 50 3 Digi
62. the diameter of a human hair The resulting compressor is a robust yet highly sophisticated assembly capable of ingesting liquid refrigerant without risk of damage 4 9 Features and Benefits Condenser coils Trane s condenser coils are manufactured with the same philosophy as the compressors they re built to last Even though manufacturing processes have allowed thinner and thinner materials in their assembly with obvious material and manufacturing savings Trane s coil material did not change with the RTAC generation of air cooled chillers Substantial condenser fins that do not require additional coating in non corrosive environments contribute to the highest reliability standards for air cooled chillers in the industry Superior Control The Adaptive Control microprocessor system enhances the air cooled Series chiller by providing the very latest chiller control technology With the Adaptive Control microprocessor unnecessary service calls and unhappy tenants are avoided The unit is designed not to trip or unnecessarily shut down Only when theTracer chiller controllers have exhausted all possible corrective actions and the unitis still violating an operating limit will the chiller shut down Controls on other equipment typically shut down the chiller usually just when it is needed the most For example A typical five year old chiller with dirty coils might trip out on high pressure cutout on a 100
63. 0 2 2 0 2 4 AWG 2 2 0 2 2 0 600 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM Non fused unit disconnect and circuit breaker are optional Copper wire only based on nameplate minimum circuit ampacity MCA Circuit breaker sizes are for factory mounted only n a not available 9 31 Electrical Data Table 14 Customer wire selection high efficiency Single point power Dual point power Ckt 1 Dual point power Ckt 2 Unit Circuit Circuit Circuit Size Volt Ambient Term Disc Breaker Term Disc Breaker Term Disc Breaker 1 1 AWG 1 1 AWG 120 400 All 4 AWG 600 600 4 3 0 3 0 4 AWG 3 0 3 0 500 2 1AWG 2 1 AWG 500 350MCM 350MCM 500 MCM 350MCM 350MCM 250 MCM 250 MCM 1 1 AWG 1 1 AWG 400 Std Low 600 or 600 or 3 0 3 0 4 AWG 3 0 3 0 2 1AWG 2 1 AWG 350MCM 350MCM 500 MCM 350MCM 350MCM 139 250 250 1 1 AWG 1 1AWG 400 High Wide 4 2 2 0 2 2 0 4 600 600 or 4 3 0 3 0 9 500 MCM 500 MCM 500 MCM 500MCM 2 1AWG 2 1AWG 250 500 MCM 350MCM 350MCM 250 MCM MCM 1AWG 1 1AWG 1 1AWG 1 1 AWG 140 400 All 2 4 AWG 2 2 0 2 2 0 4 AWG 0 600 or 4 600 600 or 500 MCM 500 MCM 500 MCM 500 MCM 1AWG 2 1
64. 0 450 400 50 3 1 3 16 L5 28 37 12 138 138 198 896 896 1089 291 291 354 575 700 250 00 50 3 2 3 106 15 28 37 1 2 138 138 198 896 896 1089 291 291 354 342 267 450 450 400 50 3 1 3 18 15 28 37 1 2 168 168 198 1089 1089 1089 354 354 354 642 800 275 00 50 3 2 3 126 15 28 37 1 2 168 168 198 1089 1089 1089 354 354 354 416 267 500 450 400 50 3 1 3 20 15 28 37 1 2 198 198 198 1089 1089 1089 354 354 354 706 800 300 00 50 3 2 3 146 15 28 37 12 198 198 198 1089 1089 1089 354 354 354 489 267 600 450 m 400 50 3 1 4 24 15 28 3 7 159 P dep 25252 789 800 400 50 3 2 4 212 15 28 108103 aud 415 415 500 500 400 50 3 1 4 26 15 2 37 case 178 19 pt 862 1000 400 50 3 2 4 1412 15 28 159 3543541 89 415 600 500 22 400 50 3 1 4 8 15 2 37 159 PETS 31543110 928 1000 400 50 3 2 4 14 14 15 28 37 159 ee 489 489 600 600 Notes 1 2 3 4 5 6 7 8 9 30 Voltage Utilization Range 10 of rated voltage Rated voltage use range 400 volt 360 440 As standard 140 200 ton units have a single point power connection Optional dual point power connections are available As standard 250 400 ton units have dual point power connections Optional single point power connections are available on 400V 50 Hz units Control VA includes operational controls only It does not include evaporator heaters A separate 220 50 1 15 amp customer provided power connection is required to power the evaporator heate
65. 00 or 4 600 600 or 5 500 2 LAWG 2 1AWG 500 2 1 2 1 500 250 250 250 250 1 1 AWG 1 1 AWG ADO Hiahz Wide 2 2 0 4 5 2 2 0 2 2 0 4 600 600 gn 500 MCM 00 500 MCM 500 MCM 500 2 1 2 1 250 250 1 1 1 1 AWG 400 Std Low 2 4 WG 3 3 0 3 0 4 AWG 2 2 0 2 2 0 4 600 600 or 500 500 500 500 500 500 500 2 1 2 1 250 250 250 High Wide 4 AWG 3 3 0 3 3 0 4 2 2 0 2 2 0 4 AWG 2 2 0 2 2 0 9 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 500 MCM 1 1 AWG 1 1 AWG 275 400 All 4 2 AWG 2 4AWG 2 2 0 2 2 0 4AWG 600 600 or 600 500 500 500 500 2 1 2 1 250 250 32 RLC PRCO39B EN Table 14 Customer wire selection high efficiency continued Electrical Data Single point power Dual point power Ckt 1 Dual point power Ckt 2 Unit Circuit Circuit Circuit Size Volt Ambient Term Disc Breaker Term Disc Breaker Term Disc Breaker 1 1 1 300 400 All 4 2 AWG 2 4 2 2 0 2 2 0 4AWG 600
66. 10 LINN OL INANI 8 538 2 9015 OLNV 21 340 LIND OL ANVNIB 538 2 2 1005201 TVN331X3 40 LIND OL 538 Z 1 10032301 IVNH31X3 i 6 37 RLC PRCOS39B EN Electrical Connection RLC PRCO39B EN gu ext d 5 Loo pog 111 kb de d Dod dog Eod og 101 Es ug eee opo d 8 2 E a 2g 1 qx RT y SS Wd 2 LEM 28e 88 E J MEN 25254 s ps 2 8 8 E 4 3 Gis 330 m IOMINOO 883 loo Z
67. 14 13 14 15 14 15 21 24 24 25 27 29 Max 1 5 45 50 47 50 56 50 56 78 87 87 94 98 107 Water connection 5 4 4 6 6 6 6 6 8 8 8 8 8 8 3 pass arrangement Min 1 5 8 9 9 9 10 9 10 14 16 16 17 18 19 Max 1 5 30 33 31 34 37 34 37 52 58 58 62 65 71 Water connection 5 3 5 3 5 4 4 4 4 4 6 6 6 8 8 8 Condenser Fin and tube Qty of coils 4 4 4 4 4 4 4 8 8 8 8 8 8 Coil length mm 3962 4572 4572 5486 5486 6400 6400 4572 5486 6400 5486 6400 6400 3962 3962 4572 4572 5486 5486 6400 2743 3657 3657 5486 5486 6400 Coil height mm 1067 1067 1067 1067 1067 1067 1067 1067 1067 1067 1067 1067 1067 Number of rows 3 3 3 3 3 3 3 3 3 3 3 3 3 Fins per foot fpf 192 192 192 192 192 192 192 192 192 192 192 192 192 Fan Direct drive propeller Quantity 4 4 5 4 5 5 6 5 6 6 7 6 7 7 10 6 12 6 14 6 12 12 14 12 14 14 Diameter mm 762 762 762 762 762 762 762 762 762 762 762 762 762 Air flow per fan m hr 62484 68819 12839 12839 12839 12840 12842 12844 13493 13430 12838 12724 12841 Power per motor kW 0 74 0 74 0 74 0 74 0 74 0 74 0 74 0 74 0 74 0 74 0 74 0 74 0 74 Fan speed rps 15 8 15 8 15 8 15 8 15 8 15 8 15 8 15 8 15 8 15 8 15 8 15 8 15 8 Tip speed M S 38 38 38 38 38 38 38 38 38 38 38 38 38 General Unit 134 refrig ckts 2 2 2 2 2 2 2 2 2 2 2 2 2 15 15 15 15 15 15 15 15 15 15 15 15 15 Refrig charge 75 75 79 75 79 79 98 93 98 98 1027 10 186 18 20 7 188 209 2
68. 201 31415 3000 51419373 3ONYQMOOO 38 ISNW 0134 TV 9 SINN A8 NMOHS JYV 5 ONIYIM 0184 O3ON3AWOOSN 75 SNWN 85 LINOYID 3dAL NOVH YO S3HOIIMS lO3NNOOSIO SHOOTS 33WOISnO Z P ST3Nvd NI SNOILdO 18 2 T3Nvd 1OHINOO Z LINOYIO OL 101409 OL 5 YIMOd YINOLSNO 03140345 SI YIMOd 324005 N3HM NOVH 319 5 Y 5 Z 1 STINYd 1041409 35 2 SIHL 5001 550018 AINO SI TaNVd 0134 SI TANYd 0310395 SI XIMOd 324005 319 5 N3HM 03110395 38 AVW YIMOd 3284005 JIONIS SNOILdO JOVIIOA 51 5 2 09 NO AINO SI NOILdO 111110 NOLLdO SOLVMOdVA3 310W3H 0350 LON LINN 1 NOILOJLOYd 323384 N31V3H YOLYYOdVAJ FINGOW 01915 4 LNN 01915 ZHOS NO SNOLLO LOA 022 YO SLNN 2 9 401 5 40 LIOA SLL 1410135 VNH3IX3 015 1 15 301
69. 29 433 2 36 956 7 450 9 2 04 375 1350 14 409 5 3 14 1265 06 440 2 75 1177 86 473 7 2 39 1054 45 489 1 2 07 400 1475 31 444 8 3 16 1383 9 477 7 2 77 1290 37 514 1 2 41 1149 73 526 3 2 1 140 540 06 157 8 3 27 504 55 170 3 2 84 468 68 184 1 2 45 412 43 186 7 2 13 155 590 69 174 6 3 23 552 01 187 9 2 81 512 63 202 6 2 43 449 34 204 1 2 12 170 642 37 191 8 3 19 600 88 206 2 79 558 34 221 7 2 42 489 08 222 2 12 185 707 07 209 3 3 22 662 41 224 7 2 82 616 71 241 9 2 45 536 89 239 8 2 15 200 776 33 227 6 3 26 728 16 244 4 2 85 678 59 263 1 2 48 590 34 259 7 2 18 9 250 925 76 272 1 3 25 867 05 293 2 83 806 92 316 2 46 704 96 315 5 2 15 275 1032 3 307 8 3 2 966 55 330 2 2 8 899 39 355 2 44 779 85 349 6 2 14 300 1165 91 345 1 3 23 1093 83 370 2 83 1019 29 397 7 2 46 878 3 386 6 2 18 350 1296 35 389 4 3 18 1213 37 417 7 2 78 1128 64 449 2 42 971 12 437 6 2 13 375 1430 31 426 7 3 2 1341 457 6 2 81 1248 88 491 8 2 44 1068 16 473 4 2 17 400 1563 21 463 7 3 22 1466 88 497 2 2 83 1368 08 534 4 2 46 1162 04 508 2 2 1 Ratings based TOPSS version 140 evaporator fouling factor of 0 01761m C kW figuration Consult Trane representative for additional performance information 2 kW input is for compressors only COP Coefficient of Performance 3 Power inputs include compressors and control power 4 Interpolation between points is permissible Extrapolation is not permitted RLC PRC039B EN evaporator temperature drop of 5 C and2 pass evaporator con 23
70. 3 ON OVANA Y 30 SXWNIMESL SYI i3H8O2 S3HOLOnONOO 3lN3AVOIND 1NSm3dinb3 B3OVWNOONS nad WnalonaNoo FINV seniionoNoo 5305405 594 INOS Sil 5308 INO 5 ananaino OL 3snvo AVN OS OL FUMI SHOLONGNOD 40 414300 OL 530 LON IANO SHOLONANOD ISN SATANON S wNosHid LNvANOd 539155219 WVNOISVO OQVOIONI 530 WoNMING 1034 4 _ SNOINIS GUNSMSORSINY ON T3 530 SYd 111534 01100 35 340438 7HOGVSN3QNO2 130 530 531 08V OQ OL aun TVs SNOIDODMISN SVI 3IInSNOO 1 SNOLLONUSNI wouvavo TIVNA QvOIDO IA 30 Xv MINOR 38 HVA 3553 SNOLODMISN OL NOD 5 0 0 Y SINQMGNNIN 530 INVIHOdNOO 2 INYO 03345 3IENINVA OQVN3OvW Iv INVIO 13 0 08 2530 Svo SGONVMOSQ HL SINN 2SVLIOA 038015 NVAVH 130 53801 94 0 501 INOS SHNGLON 530 531 Q3OMVHOSIO
71. 3400503 1 2 15 28 37 083 138 138 896 896 291291 337 4 amp 0 140 00 50 3 2 2 44 28 37 0 83 138 138 896 896 291 291 187 185 300 300 400 50 3 1 2 9 15 28 37 0 83 168 138 1089 896 354 291 377 500 155 0 50 3 2 2 5 4 15 28 3 7 0 83 168 138 1089 896 354 291 227 185 350 300 400 50 3 1 2 10 15 28 37 0 83 168 168 1089 1089 354 354 410 500 109 2 2 5 5 15 28 37 0 83 168 168 1089 1089 354 354 227 225 350 350 400 50 3 1 2 1 15 28 37 0 83 198 168 1089 1089 354 354 450 600 185 00 50 3 2 2 6 5 15 28 3 7 0 83 198 168 1089 1089 354 354 267 225 450 350 goo 5007503 1 2 12 15 28 37 0 83 198 198 1089 1089 354 354 483 600 400 50 3 2 2 66 15 28 37 0 83 198 198 1089 1089 354 354 267 265 450 450 250 500503 1 3 14 15 28 37 12 138 138 198 3 896 896 1089 291 291 354 569 700 400 50 3 2 8 6 15 28 3 7 12 138 138 198 896 896 1089 291 291 354 336 267 450 450 400 50 3 1 3 18 15 28 37 1 2 168 168 198 1089 1089 1089 354 354 354 636 800 275 400 50 3 2 106 15 28 3 7 12 168 168 198 1089 1089 1089 354 354 354 410 267 500 450 400 50 3 1 3 18 15 28 37 1 2 198 198 198 1089 1089 1089 354 354 354 702 800 300 400 50 3 2 3 126 15 28 3 7 12 198 198 198 1089 1089 1089 354 354 354 483 267 600 450 400 50 3 1 4 20 15 28 37 1 59 1 2229 778 800 400 503 2 4 1010 15 28 37 159 35435 410 410 500 500 m 400 50 3 1 4 22 15 28 37 1 59 12 851 1000 400 50 3 2 4 12 10 15 28 37 1 59 1 212 483 410 600 500 m 400 503 1 4 24 15 28 37 15
72. 5 YLRA5 Cktl Size Voltage Conn Comp Ckt2 kW FLA Input kVA3 Cktl Ckt2 Ckt1 Ckt2 Cktl Ckt2 Ckt2 Ckt2 C 400503 1 2 15 28 37 083 113 113 796 796 259 258 4280 350 120 00 50 3 2 2 44 15 28 37 083 113 113 796 796 259 259 155 153 250 250 400 50 3 1 2 9 15 28 37 0 83 132 113 896 796 291 259 307 400 130 00 50 3 2 2 5 4 15 28 37 083 132 113 896 796 291 259 182 153 300 250 400 50 3 1 2 10 15 28 37 083 132 132 896 896 291 291 329 450 140 00 50 3 2 2 5 5 15 28 37 083 132 132 896 896 291 291 3 182 180 300 300 400 50 3 1 2 1 L5 28 37 083 160 132 1089 896 354 291 367 500 155 0 50 3 2 2 6 5 15 28 37 083 160 132 1089 896 354 291 220 180 350 300 400 50 3 1 2 12 15 28 37 083 160 160 1089 1089 354 354 397 500 170 0 50 3 2 2 6 6 15 28 37 083 160 160 1089 1089 354 354 220 218 350 350 185 400503 1 2 13 15 28 37 083 189 160 1089 1089 354 354 436 600 400 50 3 2 2 76 15 28 37 0 83 189 160 1089 1089 354 354 259 218 400 350 400 50 3 1 2 14 L5 28 37 083 189 189 1089 1089 354 354 468 600 200 00 50 3 2 2 77 15 28 37 083 189 189 1089 1089 354 354 259 257 400 400 400 50 3 1 3 16 15 28 37 12 132132 180 896 896 1089 291 291 354 553 700 250 400 50 3 2 3 106 15 28 37 12 132 132 189 896 896 1089 291 291 354 329 256 450 400 400 50 3 1 3 18 15 28 37 12 160 160 180 1089 1089 1089 354 354 354 614 800 275 400 50 3 2 3 12 6 15 28 37 12 160 160 189 1089 1089 1089 354 354 354 397 256 500 400 400 50 3 1 3 20 15 28 37 12 189 189 189 1089 1089 1089 354 354 354 677
73. 8 3 234 9 371 7 7 3 350 370 6 385 9 11 344 4 417 1 9 5 317 6 452 1 8 1 259 3 420 4 7 1 375 408 8 422 8 11 1 380 6 457 9 6 351 6 495 2 8 2 287 458 7 2 400 446 6 459 5 11 1 416 3 496 5 9 6 385 1 538 8 3 312 5 492 7 3 1 Rated accordance with AHRI Standard 550 590 based TOPSS version 140 sea level altitude evaporator fouling factor 0 0001 F ft h Btu evaporator temperature drop of 10 F and 2 pass evaporator configuration Consult a Trane representative for additional performance information 2 kW input is for compressors only 3 EER Energy Efficiency Ratio Btu watt hour Power inputs include compressors condenser fans and control power 4 Interpolation between points is permissible Extrapolation is not permitted 9 19 Performance Data Table 6 50 Hz high efficiency I P units Cond Entering Air Temp F Evap Leaving 85 95 105 115 p Unit kw kw kw kw Size Tons Input EER Tons Input EER Tons Input EER Tons Input EER 120 114 2 113 6 11 3 105 9 124 1 9 7 97 4 135 9 8 2 88 7 149 2 6 8 130 126 9 124 7 11 4 117 7 136 2 9 8 108 4 149 1 8 3 98 8 163 5 6 9 140 140 3 136 2 11 6 130 4 148 8 9 9 120 1 162 8 8 4 109 7 178 4 155 152 8 150 3 11 4 142 163 7 9 8 130 9 178 8 8 3 119 5 195 6 170 166 1 165 11 3 154 3 179 2 9 7 142 3 195 3 8 3 129 9 213 3 7 185 183 1 180 9 11 4 170 6 196 3 9 8 157 7 213 8 8 4 144 4 233 3 7 1 40 200 201 2 197 4 11 5 187 8 214 1 9 9 173 8 232 8 8 5 15
74. 8 4 2 33 350 1350 14 369 6 3 45 1266 46 396 3 03 1181 02 425 5 2 64 1093 83 458 2 28 375 1488 67 406 6 3 46 1399 02 435 4 3 05 1306 9 467 6 2 66 1212 67 503 2 2 31 400 1631 42 444 6 3 47 1535 09 475 7 3 07 1435 93 510 5 2 68 1330 81 547 2 2 33 1 Ratings based on TOPSS version 140 evaporator fouling factor of 0 01761m C kW evaporator temperature drop of 5 C and2 pass evaporator con figuration Consult Trane representative for additional performance information 2 kW input is for compressors only COP Coefficient of Performance 3 Power inputs include compressors and control power 4 Interpolation between points is permissible Extrapolation is not permitted 24 RLC PRC039B EN TRANE Controls LCD Touch Screen Display The standard DynaView display provided with theTrane CH530 control panel features an LCD touch screen that is navigated by file tabs This is an advanced interface that allows the user to access any important information concerning setpoints active temperatures modes electrical data pressure and diagnostics It uses full text display available in 19 languages Display Features Include e LCD touch screen with LED backlighting for scrolling access to input and output operating information Single screen folder tab style display of all available information on individual components evaporator condenser compressor etc e Password entry lockout system to enable or disable display e Automatic an
75. 8005 WNO SY SI lt MS 81 NOVH 1944095 542018 WNINYAL SNO4O 39WLIO 3lOW LON WolVOdV 3 INN HIM GNvONVIS 3108 323343 MOlVMOXYAd inaom shivis 9Nuve3do LINA SMUVIS SUNN ZHOS 5 40 LIA 022 NO SINN ZHO9 MO 540480 SLL INNO YNANG 4015 144 5 ONDIN 3OVAW3INI AISAS NOLLYHOLNY YO 2 55910 5 40 MOT OS 4 SIHL NO NMOHS SI 4 OMVONVIS TY M3AOISnO 03040384 38 10 AVW AVN CNY ONMOTION LIN OL NI 110538 AVN SIHL OL IndinO NSTUHO AB GITIOMINOD 38 ISAM OMINOO OL 38 ISAM OMINOO 0 231084 SYOLON A A C3IidOO dNUAVIS
76. 9 2 2222 916 1000 400 50 3 2 4 1242 15 28 37 1 59 2222 483 483 600 600 Notes 1 Voltage Utilization Range 10 of rated voltage Rated voltage use range 400 volt 360 440 2 As standard 140 200 ton units have a single point power connection Optional dual point power connections are available As standard 250 400 ton units have dual point power connections Optional single point power connections are available on 400V 50 Hz units Control VA includes operational controls only It does not include evaporator heaters A separate 220 50 1 15 amp customer provided power connection is required to power the evaporator heaters 1640 watts RLA Rated Load Amps XLRA Locked Rotor Amps based on full winding x line start units YLRA for wye delta starters is 1 3 of LRA of x line units MCA Minimum Circuit Ampacity 125 percent of largest compressor RLA plus 100 percent of all other loads Max fuse or MOPD 225 percent of the largest compressor RLA plus 100 percent of the second compressor RLA plus the sum of the condenser fan FLA Use FLA per circuit NOT FLA for the entire unit Local codes may take precedence All ambient means standard low high and wide ambient options oo w 28 9 Electrical Data Table 11 High efficiency standard and low ambient options Fan MCAS Unit Rated Power Cktl Fan Fan VFD Cntrl RLA4 XLRA
77. 9 5 253 8 7 2 250 238 6 240 7 11 2 221 9 261 9 9 6 204 7 285 7 8 2 187 1 312 2 6 9 275 267 6 266 11 4 249 2 288 5 9 8 230 2 313 8 8 4 210 8 342 1 7 1 300 301 5 298 9 11 4 281 5 323 7 9 9 260 8 351 6 8 5 239 5 382 9 7 2 350 335 9 335 4 11 3 312 6 363 9 9 7 288 6 396 1 8 3 263 9 432 1 7 375 370 5 368 6 11 3 345 5 399 4 9 8 319 7 434 3 8 4 293 2 473 3 7 1 400 405 9 402 4 11 4 379 1 435 5 9 9 351 3 472 9 8 5 322 6 514 8 7 2 120 118 6 116 1 11 5 110 2 126 6 9 9 101 4 138 6 8 3 92 3 151 9 7 130 131 8 127 4 11 6 122 4 139 10 112 7 152 8 4 102 8 166 5 7 1 140 145 7 139 1 11 8 135 4 151 7 10 1 124 9 165 9 8 6 114 1 181 6 7 2 155 158 6 153 6 11 6 147 5 167 1 10 136 182 3 8 5 124 3 199 1 7 1 170 172 3 168 7 11 5 160 2 183 9 9 147 7 199 2 8 4 135 217 3 7 1 185 189 8 184 9 11 6 176 9 200 5 10 163 6 218 1 8 5 149 9 237 8 7 2 42 200 208 6 201 9 11 7 194 7 218 7 10 1 180 4 237 7 8 7 165 6 258 8 7 3 250 247 5 246 11 4 230 2 267 4 9 8 212 5 291 5 8 3 192 2 314 1 7 275 277 5 272 1 11 5 258 5 294 7 10 238 9 320 2 8 5 218 9 348 7 7 2 300 312 6 305 8 11 6 291 9 330 8 10 1 270 6 359 8 6 248 5 390 6 7 3 350 348 1 342 9 11 4 324 1 371 5 9 9 299 3 403 9 8 4 273 9 440 2 7 1 375 383 9 376 9 11 5 358 2 408 10 331 6 443 2 8 5 304 2 482 5 7 2 400 420 6 411 6 11 5 392 9 445 10 364 2 482 8 8 6 334 7 525 1 7 3 120 123 2 118 6 11 7 114 4 129 2 10 105 4 141 3 8 5 96 154 7 7 1 130 136 8 130 1 11 8 127 1 141 8 10 2 117 2 154 9 8 6 107 169 5 7 2 140 151 2 142 12 140 6 154 8 10 3 129 8 169 8 7
78. 90 Rapid Restart Test After completion of a standard full load witness test power to the chiller will be cut and then reapplied to demonstrate the chiller s rapid restart capabilities for disaster relief Tarp The unit will be covered at the factory with a PVC coated polyester tarp that is tied to the chiller base to help protect the chiller from debris during shipment especially in the winter months and on shipping vessels This option may also be helpful if the chiller will be stored at the jobsite before use 55 i UL JETISTES CERTIFIED Air Cooled Chillers AHRI Standard 550 590 ex TRANE Trane optimizes the performance of homes and buildings around the world A business of Ingersoll Rand the leader in creating and sustaining safe comfortable and energy efficient environments Trane offers a broad portfolio of advanced controls and HVAC systems comprehensive building services and parts For more information visit www Trane com Trane has a policy of continuous product and product data improvement and reserves the right to change design and specifications without notice 2015 Trane All rights reserved RLC PRCO39B EN 15 Jan 2015 We are committed to using environmentally Il d Supersedes RLC PRCO39 EN 25 May 2012 conscious print practices that reduce waste ngerso Ran
79. Air Cooled Series R Chillers Model RTAC 120 to 400 nominal tons 50 Hz January 2015 RLC PRCO39B EN FD TRANE Introduction Like its chillers Trane wants its relationships with customers to last Trane is interested in maintaining long term loyal relationships This perspective means the point in time that a customer purchases a chiller is the beginning of a relationship not the end Your business is important but your satisfaction is paramount The RTAC offers high reliability coupled with proven Series R performance The Series R Model RTAC is an industrial grade design built for both the industrial and commercial markets It is ideal for schools hospitals retailers office buildings Internet service providers and manufacturing facilities Copyright This document and the information in it are the property ofTrane and may not be used or reproduced in whole or in part without written permission Trane reserves the right to revise this publication at any time and to make changes to its content without obligation to notify any person of such revision or change Trademarks All trademarks referenced in this document are the trademarks of their respective owners Revision History RLC PRC039B EN 15 Jan 2015 The following points describe the changes to this revision on the manual e Updated electrical data and customer wiring information e Rapid Restart Test e Add seismic isolator option
80. COS39B EN Options Options include loss of chilled water flow evaporator freezing loss of refrigerant low refrigerant pressure high refrigerant pressure reverse rotation compressor starting and running over current phase loss phase imbalance phase reversal and loss of oil flow A digital display indicates chilled water setpoint and leaving chilled water temperature as standard While current limit setpoint evaporator and condenser refrigerant pressures and electrical information are an option Both standard and optional displays can be viewed on the unit without opening any control panel doors Standard power connections include main three phase power to the compressors condenser fans and control power transformer and optional connections are available for the 115 volt 60 Hz single phase power for freeze protection on the evaporator heaters Starters Starters are housed in a weather tight enclosure with removable cover plate to allow for customer connection of power wiring Across the line starters are standard on all 400 50 volt units Wye Delta closed transition starters 33 percent of LRA inrush are optional on 400 50 volt units Typically Trane helical rotary screw compressors are up to full speed in one second when started across the line and have equivalent inrush with similar size reciprocating compressor with part wind starters Chilled Water Reset This provides the control logic and factory installed sensors to reset l
81. F 38 C day in August A hot day is just when comfort cooling is needed the most In contrast the air cooled Series R chiller with an Adaptive Control microprocessor will stage fans on modulate electronic expansion valves and modulate slide valve positions as the chiller approaches a high pressure cutout thereby keeping the chiller online when you need it the most Simple Installation 9 Factory Installed Flow Switch Installed in the optimum location in the piping for reduced chiller installation cost and superior flow sensing reducing the potential for nuisance trips e Close Spacing Installation The air cooled Series R Chiller has the tightest recommended side clearance in the industry four feet for maximum performance In situations where equipment must be installed with less clearance than recommended which frequently occurs in retrofit applications restricted airflow is common Conventional chillers may not work at all However the air cooled Series R chiller with Adaptive Control microprocessor will make as much chilled water as possible given the actual installed conditions stay on line during unforeseen abnormal conditions and optimize the unit performance Consult yourTrane sales engineer for more details Factory Testing Means Trouble Free Startup All air cooled Series chillers are given complete functional test at the factory This computer based test program completely checks the s
82. HOS 7022 WO 2808 ASL Ted due sg 18 B c E a un i 54 BIKSIKOKE eg lt 2s 128 Bs 3 BR NE amp Ec E exc Le 5 15 ie 58 A us ple sl 3 8 8 8 47 Perm 1 f 835 L Co T P na 4 2 1 1 2 saz 656 1 5 1 8 4 d duis Nido B 8015 s duis kd 1 IE 9 S por he wax Seje eos meus 2 _ 1 2 9243 515 JG 5 328005 WNO 5 he 1090001 aas070 TONUNNON WILASA sn 1 woe 1183 M3WOd 304005 7 ms el HOLINS 1109907 z zm imapa aod 5 Wna 223 zas H HOLMS 1703901 z Sur ozas ho wna Jj tef sn a b
83. Imensions D ugs x wwe OF ONILNNOW E 5 2 8 g 2 8 8 5 4 9 22 06 22 22 24 S4 261 0661 92 XO8 1102 MJA 401 HLON31 LINN 6 6 686 1 41410999 292 SSYd 1 11 44842069 94 952 SSVd igno 98 SSYd 1 1 0 29 9 792 SSVd Z S3ovidz LAN S3ovidz TAW Avs 6 331193 ONTROL PANEL 1 B SNOISNAWIG NOILOANNOO NOILO31OHd 1100 STANVd H1GIM OL 4419 2 dav MIA yava JHL 30 391 JHL WO4 LNO 1 38 LSAW SNOILLO3NNOO HZ 1VM OS LINN 40 SEV SL13NI8VO TANVd 1OH1NOO 622 W31VM MOHS 01 SI TANVd 1081 310N 1 SSVvdt c L SSWd ZL 55 Z 26 3SION 018 ve 96 NOLLO3NNOO YLM OIA L3TINI NOILOSNNOO YLM OIA 131100 LNIOd 303 TANVd 1OH1NOO YIHLO NO _ NOLLISOd
84. L SNOISNAWIG NOLLO3NNOO H31VM MOHS O G3AOWSY SVM 18 1081 31ON wwzgzz n 826 9 1 SSvd Z L SSYd 3SION MOT SSW 2 26 3SION 815 NOILO3NNOO HIM SIA LIINI NOILO3NNOO OIA LATLNO 2 96 LNIOd 303 T3NVd 1 415040 NO NOILISOd S3ALLVT3H NOILOANNOD H3MOd YAWOLSND 31V901 L LINDYID TANVd TOULNOD LNIOd 1 5 3H3H NOLLO3NNOO YAWOLSND 414901 VNAG EY 092 00 9 2 NO AIN3SdHd LON SNV4 9 SSVd SdN 002 8 8594 2 NOLLO3NNOO YILYM 47 9 x OX S30V1d 8 ONILSIT 662 82 662 1102 S3ov1d 0L ZOL ZOL STANVd HLAIM OL lt SATOH ONILNNOW 16 uuezz H3TIIHO 341 AHL LNO 38 LSNW SNOLLOSNNOO OS 30 SYILNA H3AO9 SLANISVO 1 SNOISN3WIG NOLLO3NNOO YALVM MOHS SYM T3NVd JHL 910 SSWd SSWd Z 1109 NIA
85. LINN WDWIXVIN JOMINOO 3lOW3N 3IBVN3 OL LM AB 1094 53 1 34 83 04 SIOVINOO Zi ies deer n rdi UINN SLOVINGS 4i S3BIM LIN OL 1 TANVd lv 38 5 1 RS GINS NO 31000 32 3 SNOLIVOINDWAOO Ol SNOLO3NNOO 50 31 Q31SIML CTI 41 8 nouo 140001 OMY 81 13 0002 OMY 91 Ld 0005 vl 3ZIS SHLONZ7 NAY WNWIXYW ONIMOTIOS YOLVOIGNI LON OQ ONIMIM YO OLL HLM LINGNOD 5531 YO SIOA OF TOMINOO MOT LON 00 COI Allovdvo LINN 1107907 WNYALXa 35 9 Electrical Connection OL 193NNOO SN3dWnr CALON 3AOW3H 038530 SI 10841409 310W3H 31 316 OL ZM LM ANOLOVS lv 5 3S3HL NO SIOVINOO CZI TOMINOD lv 38 GINOHS AHS vzni 310008
86. N 30 N3dO ATIVWMON 40 HIOB NO OL Q3123NNOO 38 SNOLLOND4 31VOlldnQ 3Hl NMOHS SNOLLO3NNOO P H3MOd 05 TIONIS 303 SNOILONN 532130 8 YO SIHIN SAVIIY 38 SMOLVOIONI 030084 21 2 LOA 022 V 3SN NO FIBVIdIOOV 38 SIOVINOO 1431 HOLIMS 91 3NY 51291409 031814 0109 23415 0901 5 VW 03 20 SLIOA ANG 3T8VIVdWOO 38 15 SNOUO3NNOO 55910 SIOVINOO 034405 3301500 Sij SITOA ObZ lv 35048404 7 4 S 031 SLOWINOD ZH 09 SLIOA 021 19 Wid 24 dH 1014 882 8 24 03168 AvI3H 5 1 15 ONDIV 301 5 1 SMIVLS LINN 108140 dWNd MOlVHOdVA3 N04 SLOVINOD 5 IOVINOO TANYA 1081409 SM3NOS N33N9 3000 SY 53179905 4 N3AOISnO TIY ANNOYS SL SI SLInOMIO 0134 TIY X04 3215 3504 3HL SLONGONd ZH OS 022 NO Gl 51000084 2 09 GLL SdAV OZ SI Nilv3H NOIVHOdVA3 304 325 3504
87. NIY 143229 HOIHM 25 135 01 V 541115 OL O9 HOLIMS 305 137110 3ON3INSANOO 81 OL 91 40 SIMI 08808 OL Jo SNOOJNNO2 N3MOISTO GILON Sv 142003 SLIOA 30 NOUYINSN SAYH 58012100 834200 108103 saWolsno Tw CE MOSS3NdWOO 9222 6062 6622 6062 SNIMWUO NO NMOHS SI SINN SNOVA NO 030034 225 HL 4034 3614 ONv 17080 804 143 JINA 235 0 335030 06 40 AVH ONV XINO SHOIORONOO 3340 ISAN INN TTY 53002 7 201 1S LYOdXI TOOT ALVIS 3000 212373 NNOUYN HLM Ni 38 ISAM 134 TW 9 S N NWOHS SNOLOSNNOO Q3ONSMOOSM 75 SINRA ONE 2409 AINO 3IEVIV V SI NOUO LUNO 3IOWGN HII 10 MOLVMOdVAd C3INDOM LINN OMYONVIS 323344 TINTON 1 LINA SMUWIS 9NDIVW ZHOS
88. Performance Data Table 5 50 Hz standard efficiency units Cond Entering Air Temp F Evap Leaving 85 95 105 115 Water Unit kW kW kW kW Temp F Size Tons Input EER Tons Input EER Tons Input EER Tons Input EER 140 149 3 152 9 11 2 138 5 166 6 9 5 127 4 181 9 8 1 109 1 183 2 6 9 155 163 3 169 1 11 151 5 183 7 9 5 139 4 200 8 119 5 201 6 9 170 177 8 185 8 10 9 165 201 4 9 4 152 218 8 8 129 6 217 5 6 9 185 195 6 202 6 11 181 9 219 6 9 5 167 9 238 5 8 1 142 2 234 6 7 200 214 7 220 3 11 1 200 238 7 9 6 184 8 259 2 8 2 156 3 253 7 7 1 46 250 256 263 6 11 1 238 286 5 9 5 219 6 311 9 8 1 187 4 310 6 7 275 285 7 298 1 11 265 6 322 6 9 5 245 350 1 8 1 206 7 342 2 7 300 322 7 334 1 11 300 6 361 4 9 6 277 8 392 8 2 232 6 377 7 7 1 350 358 9 377 2 10 9 333 5 408 3 9 4 307 4 443 1 8 257 5 428 8 6 9 375 396 413 3 11 368 6 447 1 9 5 340 4 485 8 1 284 5 466 3 7 400 432 6 448 9 11 403 2 485 5 9 5 372 9 526 6 8 2 309 3 499 8 7 1 140 154 4 156 3 11 3 143 2 170 1 9 7 131 9 185 5 8 2 109 6 178 8 7 1 155 168 8 172 9 112 156 6 187 7 9 6 144 2 204 8 2 120 6 197 6 7 170 183 6 190 1 11 1 170 5 205 8 9 5 157 1 223 2 8 1 131 214 3 7 185 202 207 3 11 2 188 224 4 9 6 173 5 243 5 8 2 144 231 7 7 2 200 221 8 225 5 11 3 206 6 244 1 9 7 190 9 264 9 8 3 157 6 249 3 7 3 48 250 264 6 269 5 11 2 246 1 292 6 9 7 227 1 318 2 8 2 189 3 305 6 7 1 275 295 1 305 11 1 274 4 329 7 9 6 253 2 357 4 8 2 208 335 2 7 1 300 333 3 342 11 2 310 5 369 6 9 7 287 400 5
89. S3AGIShO G3LON SY 143253 JO NINE ONY KINO 58012040 534400 ISAM 17050 lt i SUNN ILONA 10 SUJINAH SIINN ZH 05 NO VA SINN ZH O9 NO VIOL SHL JO VA SSM SHL 030084 5 2 NONNOO Y 814415 5 ITINO 19 804 53402 NI SI SINN lt SHL om 325 ISNA ANAKYN AUNAN 11580 MANNIN 335 co 298050 Y X NO 54010000 834405 SB smod UNA Tw CE 5309 W07 HUM ISAN IND SINGWGMInO3H ALVIS 3009 9112313 WNOLYN 30 0 022 38 ISAN 1 S31 48 NMOHS SNOLONNOD TIL 9 SINGWGHITOTH NMOHS SI v 1 5 N3MOd 05 ANO JAY ZMSI 281 2891 SININOdWOD SY TIEVIVAY S 30
90. SAYOLONGNOD 31N3WVOINO NOIONVOAYd 310W34 HO LINN 38 N N 3ONVHIN3 AMOIOV AVYON OVAA X 2 55812 IN3W3dInOg 1 N39VAWOON3 d 1101730 S3dAL S3MInv O YIOAIOIY YNOd S305NOO Syd 1405 JUNNI 30 S3NHOB 531 SYNSLONGNOD 53 YISNILN N NOLLN3 LIV 1N3AdIno3 OL 39vWvG 5 OS OG OL 3YMIVA SHOIOnQNOO 4O S3dAL N3HlO 14300 OL 530 LON 3NV S VNIWN3L LINN iAINO SYOLONGNOD HN3ddOO 350 5 RLC PRCO39B EN TRANE Electrical Connection N SUNN 5538 2 Z 031002 ovis 1noAvi 0191 01 avus Ls 8700 60 lt 04 3NVHI S3 WNOSM3d 53 01531 5 35 O HVNOISVOO V NOOd OQVOIONI 3IN3WHOlN3INV 01 BNVZI IV3H ON 13 HOQVSN3ONOO 130 vONVOS3 V S3NOIDOQMISNI SYI 3L10SNO2 3 BVINVA 530 0 SYI vavd OGVNEOWWV 13 53 130 S3NOlIOvdvO 501 50001 353509359 35 N30390Nd S3lNv OQvi3nou3 A 30 SOIN3IWIG3OONd 501 5
91. SI 8055389 0 ANY N3HM 35010 BOIVOIONI 0 JHL HL SIOVINOO 5 201831 HOLIMS NOLLOND IVA Y 35019 NOIVOIONI WAVY JHL OL SIOVINOO NO 35407103 SV 3674340 HOV SIOVINOO N3dO JHL lt Q3TIHO Ka NMOHS 1 57 130 NO 335 1 0 SAVY 37000 5191 4 40 5 IHL 2 D TINGOW SNIVIS 40 LINN NO SAYI2N 1045 1 30 HOV SIOVINOO 035010 ATIVAYON N3dO ATIVAYON JO NO 38 AVN 5 NMOHS 5 HOIVOIONI 530130 MO SIHON SAYISN 38 SHOIVOKINI 0134 CZI d VOIONI Nn OL UNOID IOA 92 V 3SN X04 318 19390 38 ISN SIOVINOO HOOTUAINI HOLIMS MOT si SIYM Z SLOVINOD 031814 0109 NO N3 IIS 001 SHM 08 9015 AONADYSNA V OQ SIOA vZ 3I8VIVdWOO 38 1501 SNOIO3NNOO Z 55712
92. SION 9 9 91 96 3SION als lt 6 3vs 8846 6 86 3AWA 331734 OILOANNOO OIA LINI OLLO3NNOO YIM OIA 131100 02 5 MJA dol H19N31 3579 LINN M3MOd YSAWOLSND 31 20 181 29 281 SSYd 131110 984 99 9 1 SSVd 2 NI 44346099 281 SSWd 2 3vs 8466 3133 131110 SHOV1d 2 6 T3Nvd 1 S 0 1 3 021 NO 1 35384 LON SI ZHO9 OS 3S 951 35 ZH OS 3H O I 3H 6 2 1 ssvd 6 001 SSVd Z NOLLOANNOO 42 Imensions D MOVE ak NOILO31O d 1109 STANVd Q3H3An01 22 303 HLGIM OL 88 NIOVdS 310H ONILNNOW 68 2 98 96 6 SSvd 2 6 SSWd Z Arr 692 OL SSYd 2 9 OL 55 42 3SION MO1 2 96 3SION ALS 56 OIH LHINOSI NOILOANNOO 5 ALVDO YLM OIA LIINI SIA LJILNO
93. TONINO 5 08 08 8 08 02 w 514 15530805 59 0 SEA NOUVNDISST 305 NOUDNN4 3504 53215 3snd IN3W3Ov1d38 oe ee Wier Sany Si Si ONINOO 16905 3NN 2 1 3504 MavM ZHOS AOZ 2 09 lt ci azis asna muno 3ONSIN NOO 2108 AGLI L H 1 T lt v NYNOISV2O 01 ON IS 5041 50810 vaivd SVOVN3SIQ NYIS3 ON QvOINn 30 S3WNIMEL SVI i38802 S3HOIOnQNOO 3IN3MVOINO NOIOnVO3Hd N3KGdln03 1 1101 SHD319nQNOO S3dAL 4 S3n5bNOO Svd INOS S3NMOB S31 SYNBLONGNOD 39 YISNILN N NOLLN3 LLV uanainoa 01
94. TV SIOVINOO 03114405 1502 Si U ae SL10A ObZ 4 WH3N39 QyNolido 112222222222 S SIOVINOO ZH 09 SIOA 021 1v Vid 274 dH 1 1014 882 HAISISSY SdWV 24 Q3lvH YOLVOIGNI 1 01915 SNDIVW 391 5 1 SMLVLS 0 LINN TONLNOD 304 SLOVINOD ri NOLVM3dO LINN 1 SIOVINOO ee 035010 LINN OL ANVNIB SINSAGNInO38 SONUVS IOVINO 1 SIYM 2 TANVd OMINOO LINN NI 43395 1 S3HIM 4015 Olnv QNnONO Ni349 3002 A8 SV 53114405 Y4IMOd YAWOLSND TIV GNNOYD SdWv 61 SI SLINDYID 0134 304 3215 ISNA SLONGONd ZH OS 022 NO SdWV 51000084 ZHO9 IOA SLL NO OZ SI 131110 3ONdINJANOO ONY pet HOlVHOdVA3 3215 35 4 53114405 N3MOd 1051409 ZHOS 10A 022 NO ZHOS 611 GaGIAOYd 0134 lt E j MOLVOIONI MER 2 JOMINOD 04441530 OL 1O3NNOO 3AO G 038530 SI 1
95. VY 501415 50 08 SH SIOVINCO Si SONTVE 1291805 M 583508 53009 AB SV 53714405 wsHod 10A SEI O3OAONA 1210 04049 lt w30d MO OL 010088 8921 BIMYOASNVEL dvi 00 NO TOMINCO LINN 1104 009 038485 Sv EI noua 034530 01 I09NNOO 034531 SI TOMINGO Ji NR OL IM 38 OIOV IV ENIVEI SS SONOS 34 ON3 T3Nvd 70H1NOO OviH lv JHL SNOUYOINOWRCO JHL OL SNOLGJNNOO Gi 14 0002 ORY 81 43 0005 OMY 325 V SHL NGI NNU MORAN ONMOTIO4 033033 LON 0 LIOA OLI Ni ESM SUA 06 AOT NR LON 00 Bi sav 51 4 O
96. ar unit isolators Neoprene isolators and flange kit Seismic elastomeric isolation pads Seismic spring isolators Digit 34 Factory Testing Options Standard functional test Customer witnessed performance test with report Customer witnessed performance test plus Rapid Restart test Non witnessed performance test with report Digit 35 Control Label amp Literature 2 o 0 C C Spanish English French Digit 36 Special Order X Standard unit configuration S Unithas special order feature Digit 37 Safety Devices Standard 13 TRANE General Data Table 1 50 Hz standard efficiency l P Size 140 155 170 185 200 250 275 300 350 375 400 Compressor Screw Quantity 2 2 2 2 2 3 3 3 4 4 4 size soHz Ons 70 70 85 70 85 85 100 85 100 100 Too 100 100 85 85 8585 100 100 Evaporator Flooded Water storage gal 29 32 34 36 40 56 62 67 75 79 83 2 pass arrangement Min flow gpm 193 214 202 217 241 265 309 339 351 381 404 Max flow 709 785 741 796 883 970 1134 1243 1287 1396 1483 Water connection NPS in 4 4 6 6 6 8 8 8 8 8 8 3 pass arrangement Min flow gpm 129 143 135 145 161 176 206 226 234 254 270 flow gpm 473 523 494 531 589 647 756 829 858 930 989 Water connection NPS in 3 5 3 5 4 4 4 6 6 6 8 8 8 Condenser Fin and tube Qty of coils 4 4 4 4 4 8 8 8 8 8 8 Coil length in 156 156 180 156 180 180 216 180 216 216 156 108
97. ark web site Trane controls or another vendor s system can use the predefined list of points with ease to give the operator a complete picture of how the system is running The chiller plant control capabilities of the Trane Tracer Summit building automation system are unequaled in the industry Trane s depth of experience in chillers and controls makes us a well qualified choice for automation of chiller plants using air cooled chillers Our chiller plant automation software is fully pre engineered and tested Required features e LonTalk Tracer Summit Interface selectable option with chiller Building Control Unit external device required Energy Efficiency Sequences starting of chillers to optimize the overall chiller plant energy efficiency Individual chillers operate as base peak or swing based on capacity and efficiency Automatically rotates individual chiller operation to equalize runtime and wear between chillers Evaluates and selects the lowest energy consumption alternative from an overall system perspective Easy Operation and Maintenance Remote monitoring and control Displays both current operation conditions and scheduled automated control actions Concise reports assist in planning for preventative maintenance and verifying performance Alarm notification and diagnostic messages aid in quick and accurate troubleshooting TheTracer SC system controller acts as the central coordinator for all indiv
98. ations Staggering the chiller set points is another control technique that works well for preferentially loading Chiller 1 If the cooling load is less than 50 percent of the system capacity Chiller 1 would be able to satisfy the entire call for cooling As system loads increase Chiller 2 is started to meet any portion of the load that Chiller 1 can not meet Figure 3 Typical series chiller arrangement Chiller 2 Chiller 1 Set Point 42 F 5 6 C Set Point 42 F 5 6 C Blending Valve Variable depending on load 42 F 5 6 C O Typical Water Piping All building water piping must be flushed prior to making the final connections to the chiller To reduce heat loss and prevent condensation insulation should be installed Expansion tanks are also usually required so that chilled water volume changes can be accommodated Short Water Loops The proper location of the temperature control sensor is in the supply outlet water connection or pipe This location allows the building to act as a buffer and assures a slowly changing return water temperature If there is nota sufficient volume of water in the system to provide an adequate buffer temperature control can be lost resulting in erratic system operation and excessive compressor cycling A short water loop has the same effect as attempting to control from the building return water Typically a two minute water loop is sufficient to prevent probl
99. between the water and system components Foreign matter in the chilled water system can also increase pressure drop and consequently reduce water flow Proper water treatment must be determined locally depending on the type of system and local water characteristics Neither salt nor brackish water is recommended for use inTrane air cooled Series R chillers Use of either will lead to a shortened life to an indeterminable degree The Trane Company encourages the employment of a reputable water treatment specialist familiar with local water conditions to assist in this determination and in the establishment of a proper water treatment program Effect Of Altitude On Capacity Air cooled Series R chiller capacities given in the performance data tables are for use at sea level At elevations substantially above sea level the decreased air density will reduce condenser capacity and therefore unit capacity and efficiency Ambient Limitations Trane air cooled Series R chillers are designed for year round operation over a range of ambient temperatures The Model RTAC chiller will operate as standard in ambient temperatures of 25 F to 115 F 4 to 46 C With the low ambient option these units will operate down to 18 C If an ambient temperature as high as 125 F 51 C is the basis for design the high ambient option will permit the chiller to run without going into a limiting condition For installations in areas with large ambient dif
100. ct when possible This includes replacing spring or metal weave isolation with elastomeric isolators Figure 4 illustrates isolation recommendations for the RTAC For chiller sound ratings installation tips and considerations on chiller location pipe isolation etc refer to the Trane Air Cooled Series R Chillers Sound Data and Application Guide for Noise Sensitive Installations System Options Ice Storage Trane air cooled Series R Chillers are well suited for ice production An air cooled machine typically switches to ice production at night Two things happen under this assumption First the leaving brine temperature from the evaporator is lowered to around 22 to 24 F 5 5 to 4 4 C Second the ambient temperature has typically dropped about 15 to 20 F 8 3 to 11 C from the peak daytime ambient This effectively places a lift on the compressors that is similar to daytime running conditions The chiller can operate in lower ambient at night and successfully produce ice to supplement the next day s cooling demands The Model RTAC produces ice by supplying ice storage tanks with a constant supply of glycol solution Aircooled chillers selected for these lower leaving fluid temperatures are also selected for efficient production of chilled fluid at nominal comfort cooling conditions The ability of Trane chillers to serve double duty in ice production and comfort cooling greatly reduces the capital cost of ice storage systems
101. d immediate stop capabilities for standard or immediate manual shutdown e Fast easy access to available chiller data in tabbed format including e Modes of operation including normal cooling as well as ice making e Water temperatures and setpoints Loading and limiting status and setpoints Outdoor air temperature Start stop differential timers Pump status and override Chilled water reset settings Optional external setpoints including e Chilled water demand limit ice building Reports listed on a single tabbed screen for easy access including ASHRAE containing all guideline 3 report information Evaporator condenser compressor Evaporator condenser and compressor reports containing all operational information on individual components including Water temperatures refrigerant pressures temperatures and approach Flow switch status EXV position compressor starts and run time Alarm and diagnostic information including e Flashing alarms with touch screen button for immediate address of alarm condition Scrollable list of last ten active diagnostics Specific information on applicable diagnostic from list of over one hundred e Automatic or manual resetting diagnostic types Adaptive Controls RLC PRCOS39B EN Adaptive Controls directly sense the control variables that govern the operation of the chiller evaporator pressure and condenser pressure When any one of these variables approaches a limit co
102. d system such as a fire alarm e Chilled Water Pump Control Unit controls provide an output to control the chilled water pump s One contact closure to the chiller is all that is required to initiate the chilled water system Chilled water pump control by the chiller is a requirement on the Air Cooled Series R e Chilled Water Temperature Reset The reset be based on return water temperature or outdoor air temperature Hardwire Points Microcomputer controls allow simple interface with other control systems such as time clocks building automation systems and ice storage systems via hardwire points This means you have the flexibility to meet job requirements while not having to learn a complicated control system Remote devices are wired from the control panel to provide auxiliary control to a building automation system Inputs and outputs can be communicated via a typical 4 20 mA electrical signal an equivalent 2 10 Vdc signal or by utilizing contact closures Contact closures may be used to trigger job site supplied alarm lights or alarm bells This setup has the same features as a stand alone water chiller with the possibility of having additional optional features Circuit enable disable ce making enable status External chilled water setpoint external demand limit setpoint Alarm indication contacts provides three single pole double throw contact closures to indicate compressor on off status compressor running
103. e Added optional tarp information 2015Trane All rights reserved TRANE Table of Contents RLC PRC039B EN BERS 2 Table Ot Contents Reda m xad 3 Features and Benefits 4 Application Considerations 7 Model Number 5 13 General Data 14 Performance Data _ 18 ta tases aa E 25 Electrical 2 POR 28 Electrical Connection NC cox WR 34 PUTET 42 WeilghtS NOS UU NO RUN 51 Mechanical 5 5 52 11 19 1 53 3 TRANE Features and Benefits World Class Energy Efficiency The importance of energy efficiency cannot be understated Fortunately ASHRAE has created a guideline emphasizing its importance Nonetheless energy is often dismissed as an operational cost over which the owner has
104. eaving chilled water temperature The setpoint can be reset based on ambient temperature or return evaporator water temperature Flow Control The factory installed flow switch is provided with the control logic and relays to turn the chilled water flow on and off as the chiller requires for operation and protection This function is a requirement on the Air Cooled Series R Chiller Applications Options 9 High Efficiency Performance Option High efficiency option provides an increase in efficiency over standard efficiency by providing oversized heat exchangers for two purposes One it allows the unit to be more energy efficient Two the unit will have enhanced operation in high ambient conditions Extra Efficiency Performance Option Extra efficiency option 60 Hz only provides an increase in efficiency over the high efficiency unit by providing oversized heat exchangers for two purposes One it allows the unit to be more energy efficient Two the unit will have enhanced operation in high ambient conditions Ice Making The ice making option provides special control logic and oil coolers to handle low temperature brine applications less than 40 F 4 4 C leaving evaporator temperature for thermal storage applications Low Temperature Brine The low temperature option provides special control logic and oil coolers to handle low temperature brine applications less than 40 F 4 4 C leaving evaporator
105. ed water loop and an additional pump is unnecessary Series Chiller Arrangements Another energy saving strategy is to design the system around chillers arranged in series The actual savings possible with such strategies depends on the application dynamics and should be researched by consulting yourTrane Systems Solutions Representative and applying an analysis tool from the Trace software family It is possible to operate a pair of chillers more efficiently series chiller arrangement than in a parallel arrangement It is also possible to achieve higher entering to leaving chiller differentials which may in turn provide the opportunity for lower chilled water design temperature lower design flow and resulting installation and operational cost savings The Trane screw compressor also has excellent capabilities for lift which affords an opportunity for which affords an opportunity for savings on the evaporator water loop Series chiller arrangements can be controlled in several ways Figure A3 shows a strategy where each chiller is trying to achieve the system design set point If the cooling load 15 less than 50 percent of the systems capabilities either chiller can fulfill the demand As system loads increase the Chiller 2 becomes preferentially loaded as it attempts to meet the leaving chilled water setpoint Chiller 1 will finish cooling the leaving water from Chiller 2 down to the system design setpoint Application Consider
106. educed inrush starter Wye Delta starters are standard on 200 230 volt machines BACnet Communications Interface Allows the user to easily interface with BACnet via a single twisted pair wiring to a factory installed and tested communication board LonTalk LCI C Communications Interface Provides the LonMark chiller profile inputs outputs for use with a generic building automation system Remote Input Options Permits remote chilled liquid setpoint remote current limit setpoint or both by accepting a 4 20 mA or 2 10 Vdc analog signal Remote Output Options Permits alarm relay outputs ice making outputs or both Tracer Summit Communication Interface Permits bi directional communication to the Tracer Summit system Architectural Louvered Panels Louvered panels cover the complete condensing coil and service area beneath the condenser RLC PRCOS39B EN 9 Options Coil Protection Louvered panels protect the condenser coils only Compressor Sound Enhancement Factory installed weatherproof compressor enclosure to reduce compressor sound levels Condenser Corrosion Protection Copper fins and CompleteCoat are available on all size units for corrosion protection Job site conditions should be matched with the appropriate condenser fin materials to inhibit coil corrosion and ensure extended equipment life The CompleteCoat option provides fully assembled coils with a flexible dip and bake epoxy
107. ems Therefore as a guideline ensure the volume of water in the evaporator loop equals or exceeds two times the evaporator flow rate in gallons per minute For a rapidly changing load profile the amount of volume should be increased To prevent the effect of a short water loop the following items should be given careful consideration A storage tank or larger header pipe to increase the volume of water in the system and therefore reduce the rate of change of the return water temperature Applications Types e Comfort cooling e Industrial process cooling e Ice thermal storage e Low temperature process cooling 10 9 9 Application Considerations Typical Unit Installation Outdoor HVAC equipment must be located to minimize noise and vibration transmission to the occupied spaces of the building structure it serves If the equipment must be located in close proximity to a building it could be placed next to an unoccupied space such as a storage room mechanical room etc It is not recommended to locate the equipment near occupied sound sensitive areas of the building or near windows Locating the equipment away from structures will also prevent sound reflection which can increase levels at property lines or other sensitive points When physically isolating the unit from structures it is a good idea to not use rigid supports and to eliminate any metal to metal or hard material conta
108. ensors wiring electrical components microprocessor function communication capability expansion valve performance and fans In addition each compressor is run and tested to verify capacity and efficiency Where applicable each unit is factory preset to the customer s design conditions an example would be leaving liquid temperature setpoint The result of this test program is that the chiller arrives at the job site fully tested and ready for operation e Factory Installed and Tested Controls Options Speed Installation All Series chiller options including main power supply disconnect low ambient control ambient temperature sensor low ambient lockout communication interface and ice making controls are factory installed and tested Some manufacturers send accessories in pieces to be field installed With Trane the customer saves on installation expense and has assurance that ALL chiller controls options have been tested and will function as intended Features and Benefits Unit Performance Testing The AHRI Certification Program has had a certification program covering air cooled water chillers for many years With this in mind customers may ask Do need to factory performance test my chiller Trane began promoting factory performance tests for water cooled water chillers in 1984 for the same reasons it is valid today for air cooled water chillers to show we stand behind the products we design and build The benefits of a pe
109. ferences the wide ambient option will allow the chiller to perform uninhibited from O F to 125 F 18 C to 51 C Water Flow Limits The minimum and maximum water flow rates are given in the General Data tables Evaporator flow rates below the tabulated values will result in laminar flow causing freeze up problems scaling stratification and poor control Flow rates exceeding those listed may result in excessive tube erosion Note Flow rates in General Data tables are for water only They do not include glycol Leaving Water Temperature Limits Trane air cooled Series R chillers have three distinct leaving water categories standard low temperature and ice making The standard leaving solution temperature range is 40 to 65 F 4 4 to 15 6 C Low temperature machines produce leaving liquid temperatures less than 40 F 4 4 C Since liquid supply temperature setpoints less than 40 F 4 4 C result in suction temperatures at or below the freezing point of water a glycol solution is required for all low temperature machines Ice making machines have a leaving liquid temperature range of 20 to 60 F 6 7 to 15 6 C Ice making controls include dual setpoint controls and safeties for ice making and standard cooling capabilities Consult your local Trane sales engineer for applications or selections involving low Application Considerations temperature or ice making machines The maximum water temperature that can be circulated through
110. g Input COP 140 477 12 146 3 11 445 13 158 2 2 69 412 78 171 6 2 31 379 73 186 2 1 96 155 522 48 161 2 3 08 487 67 174 2 2 67 452 16 188 5 2 3 416 29 204 2 1 96 170 569 94 176 9 3 06 532 32 190 7 2 66 494 206 2 3 454 97 222 9 1 96 185 627 25 192 8 3 09 587 17 207 8 2 69 545 68 224 4 2 33 503 84 242 6 2 200 688 43 209 5 3 12 645 19 225 7 2 73 600 53 243 5 2 36 554 83 263 2 2 03 5 250 819 93 251 3 3 1 767 19 271 5 2 7 713 05 293 9 2 33 657 84 318 3 1 99 275 915 57 283 5 3 07 856 85 305 3 2 68 796 73 329 4 2 32 735 2 356 1 99 300 1034 41 317 4 3 1 969 71 341 4 2 71 903 26 368 1 2 35 835 05 397 4 2 02 350 1152 19 359 1 3 05 1077 65 386 8 2 66 1001 01 417 5 2 3 922 95 451 3 1 97 375 1271 39 393 1 3 08 1190 87 423 2 69 1108 24 456 3 2 33 1023 86 492 9 2 400 1389 17 426 8 3 1 1303 03 459 2 71 1214 08 494 7 2 35 1123 01 534 1 2 02 140 508 06 151 8 3 19 474 66 164 2 2 77 440 55 177 7 2 38 405 39 192 5 2 03 155 556 23 167 8 3 16 519 31 180 9 2 75 482 04 195 4 2 37 441 96 210 2 03 170 605 81 184 2 3 13 566 43 198 2 2 73 525 99 213 7 2 36 482 75 229 5 2 02 185 666 63 200 9 3 16 624 44 216 1 2 76 580 84 233 2 39 531 62 248 4 2 06 200 732 03 218 3 3 19 686 32 234 8 2 79 639 21 253 1 2 42 582 6 268 2 09 7 250 871 97 261 5 3 18 816 42 282 1 2 77 759 46 304 7 2 39 690 89 323 2 06 275 973 23 295 4 3 14 911 35 317 5 2 74 847 36 342 2 38 768 6 360 1 2 05 300 1099 45 330 9 3 17 1030 89 355 4 2 77 960 57 382 6 2 41 863 53 396 9 2 09 350 1223 57 374 3 12 1144 81 402 2 72 1064
111. he sum of the condenser fan FLA Use FLA per circuit NOT FLA for the entire unit Local codes may take precedence All ambient means standard low high and wide ambient options 9 29 Electrical Data Table 12 High efficiency high and wide ambient options Fan Unit Rated Power Cktl Fan Fan VFD Cntrl RLA4 5 Ckt1 Ckt1 Size Voltage Conn Comp Ckt2 kW FLA Input kVA Ckt1 Ckt2 Ckt1 Ckt2 Ckt1 Ckt2 Ckt2 Ckt2 400503 1 2 15 28 37 0 83 118118 796 796 259 259 22 400 120 490 50 3 2 2 44 15 28 37 0 83 118 118 796 796 259 259 162 160 250 250 400 50 3 1 2 9 15 28 37 0483 138 118 896 796 291 259 320 450 130 50 3 2 2 5 4 15 28 37 083 138 118 896 796 291 259 189 160 300 250 400 50 3 1 2 10 15 28 37 083 138 138 896 896 291 291 342 450 140 400 50 3 2 2 5 5 15 28 37 083 138 138 896 896 291 291 189 187 300 300 400 50 3 1 2 1 15 28 37 083 168 138 1089 896 354 291 383 500 155 0 50 3 2 2 6 5 15 28 37 0 83 168 138 1089 896 354 291 230 187 350 300 170 400 50 3 1 2 12 15 28 37 083 168 168 1089 1089 354 354 415 500 400 50 3 2 2 66 15 28 37 0 83 168 168 1089 1089 354 354 230 228 350 350 185 400 50 3 1 2 13 15 28 37 083 198 168 1089 1089 354 354 456 600 400 50 3 2 2 76 15 28 37 0 83 198 168 1089 1089 354 354 270 228 450 350 400 50 3 1 2 14 15 28 37 0 83 198 198 1089 1089 354 354 489 600 200 400 50 3 2 2 77 15 28 37 0 83 198 198 1089 1089 354 354 270 268 45
112. idual equipment devices on a Tracer building automation system The Tracer SC scans all unit controllers to update information and coordinate building control including building subsystems such as VAV and chiller water systems With this system option the full breadth of Trane s HVAC and controls experience are applied to offer solutions to many facility issues The LAN allows building operators to manage these varied components as one system from any personal computer with web access The benefits of this system are e Improved usability with automatic data collection enhanced data logging easier to create graphics simpler navigation pre programmed scheduling reporting and alarm logs e Flexible technology allows for system sizes from 30 120 unit controllers with combination of LonTalk or BACnet unit controllers e LEED certification through site commissioning report energy data collection measurement optimizing energy performance and maintaining indoor air quality Energy savings programs include fan pressure optimization ventilation reset and chiller plant control adds and subtracts chillers to meet cooling loads 27 TRANE Electrical Data Table 10 Standard efficiency all ambient options Fan 6 Unit Rated Power 4 Cktl Fan Fan VFD Cntrl RLA4 XLRA5 YLRA Cktl Cktl Size Voltage Conn Comp Ckt2 kW FLA Input kVA3 Ckt1 Ckt2 Ckt1 Ckt2 Ckt1 Ckt2 Ckt2 Ckt2
113. little control That perception results in missed opportunities for energy efficiency reduced utility bills and higher profits Lower utility bills directly affect profitability Every dollar saved in energy goes directly to the bottom line Trane s RTAC is one way to maximize your profits ASHRAE Standard 90 1 and Executive Order All Trane air cooled chillers meet the new efficiency levels mandated by ASHRAE Standard 90 1 This new standard requires higher efficiencies than past technologies can deliver The US Federal Government has adopted standard 90 1 and in some cases requires even higher efficiencies Federal Executive Order mandates energy consuming devices procured must be in the top 25 of their class In the case of chillers that product standard is ASHRAE 90 1 Trane s RTAC meets exceeds the efficiency requirements of 90 1 while the high and extra efficiency RTAC can meet the stretch goals of Executive Order Precise Capacity Control Trane s patented unloading system allows the compressor to modulate infinitely and exactly match building loads At the same time chilled water temperatures will be maintained within 1 2 F 0 28 C of setpoint Screw or scroll chillers with stepped capacity control do well to maintain chilled water temperatures within 2 F 1 1 C of setpoint Stepped control also results in over cooling because rarely does the capacity of the machine match the building load The result can be 10 higher
114. mbient test conditions to assure our customers that our chillers will perform as predicted Rapid Restart testing is also available to demonstrate the chiller s rapid restart capabilities for disaster relief While the chiller is operating at customer specified full load conditions power to the chiller is cut and the customer can witness how quickly the chiller will return to full load For more information on test performance testing see brochure 51 012 9 TRANE Application Considerations RLC PRC039B EN Important Certain application constraints should be considered when sizing selecting and installingTrane air cooled Series R chillers Unit and system reliability is often dependent upon proper and complete compliance with these considerations When the application varies from the guidelines presented it should be reviewed with your local Trane sales engineer Unit Sizing Unit capacities are listed in the performance data section Intentionally over sizing a unit to assure adequate capacity is not recommended Erratic system operation and excessive compressor cycling are often a direct result of an oversized chiller addition an oversized unit is usually more expensive to purchase install and operate If over sizing is desired consider using multiple units Water Treatment Dirt scale products of corrosion and other foreign material will adversely affect heat transfer
115. ndition when damage may occur to the unit or shutdown on a safety Adaptive Controls takes corrective action to avoid shutdown and keep the chiller operating This happens through combined actions of compressor and or fan staging Whenever possible the chiller is allowed to continue making chilled water This keeps cooling capacity available until the problem can be solved Overall the safety controls help keep the building or process running and out of trouble 25 Controls Stand Alone Controls Single chillers installed in applications without a building management system is simple to install and control only a remote auto stop for scheduling is required for unit operation Signals from the chilled water pump contactor auxiliary or a flow switch are wired to the chilled water flow interlock Signals from a time clock or some other remote device are wired to the external auto stop input e External Auto Stop A job site provided contact closure will turn the unit on and off Chilled Water Flow Interlock A job site provided contact closure from a chilled water pump contactor or a flow switch is required and will allow unit operation if a load exists This feature will allow the unit to run in conjunction with the pump system e External Interlock A job site supplied contact opening wired to this input will turn the unit off and require a manual reset of the unit microcomputer This closure is typically triggered by a job site supplie
116. on Consult a Trane representative for additional performance information 2 kW input is for compressors only 3 EER Energy Efficiency Ratio Btu watt hour Power inputs include compressors condenser fans and control power 4 Interpolation between points is permissible Extrapolation is not permitted 9 21 Performance Data High Efficiency Table 7 AHRI and Part Load Performance 50 Hz I P units Standard Efficiency Unit Size jen IPLV 140 133 7 9 4 14 4 155 146 4 9 3 14 4 170 159 6 9 3 14 1 185 175 9 9 4 14 5 200 193 4 9 5 14 2 250 230 1 9 4 16 1 275 256 7 9 3 15 7 300 290 6 9 4 15 7 350 322 4 9 3 16 2 375 356 3 9 4 16 4 400 389 8 9 4 16 4 1 IPLV values are rated in accordance with AHRI Standard 550 590 2 EER and IPLV values include compressors condenser fans and control kW 22 Unit Size 52 ERU IPLV 120 114 4 10 0 14 8 130 127 1 10 2 15 2 140 140 6 10 3 15 1 155 153 0 10 2 15 1 170 166 0 10 1 14 9 185 183 4 10 2 15 2 200 201 8 10 3 14 9 250 238 7 10 0 16 0 275 267 9 10 1 16 1 302 5 10 2 16 2 350 335 7 10 0 16 4 375 370 9 101 16 6 400 406 9 10 2 16 6 RLC PRCOS39B EN Table 8 50 Hz standard efficiency Sl units Performance Data Evap Cond Entering Air Temp d 35 40 45 Temp Unit kW kW kW kW kW kW kW kW C Size Cooling Input COP Cooling Input COP Cooling Input COP Coolin
117. onnection Non fused disconnect switch es Circuit breaker s Digit 23 Unit Operator Interface D operator interface Digit 24 Remote Operator Interface remote interface Tracer Comm interface B BACnet interface L LonTalk compatible LCI C interface Digit 25 Control Input Accessories Options remote inputs R Ext evaporator leaving water setpoint C Ext current limit setpoint Ext leaving water and current limit setpoint Digit 26 Control Output Accessories Options Nooutput options A Alarm relay outputs C Ice making I O D Alarm relay outputs and ice making 1 Digit 27 Electrical Protection Options No short circuit rating Default short circuit rating High amp short circuit rating Digit 28 Flow Switch Factory installed flow switch water U Factory installed flow switch glycol Digit 29 Control Panel Accessories outlet Digit 30 Service Valves 1 With suction service valves Digit 31 Compressor Sound Attenuation Option 0 Nocompressor sound attenuation Factory installed compressor sound attenuation 1 Digit 32 Appearance Options appearance options Architectural louvered panels Half louvers Digit 33 Installation Accessories No installation accessories Flange kit for water connections Neoprene in she
118. or temperature control sensors and is insulated with 3 4 inch equal insulation K 0 28 Evaporator heaters with thermostat are provided to help protect the evaporator from freezing at ambient temperatures down to 20 F 29 C Factory installed flow switch is installed on a pipe stub in the evaporator inlet Condenser and Fans Air cooled condenser coils have aluminum fins mechanically bonded to internally finned seamless copper tubing The condenser coil has an integral subcooling circuit Condensers are factory proof and leak tested at 506 psig Direct drive vertical discharge condenser fans are dynamically balanced Totally enclosed air over motors completely seal the motor windings to prevent exposure to ambient conditions Three phase condenser fan motors with permanently lubricated ball bearings and internal thermal overload protection are provided Standard units will start and operate between 25 to 115 F 4 to 46 C ambient Compressor and Lube Oil System The rotary screw compressor is semi hermetic direct drive 3000 rpm 50 Hz with capacity control slide valve load unload valve rolling element bearings differential refrigerant pressure oil pump and oil heater The motor is a suction gas cooled hermetically sealed two pole squirrel cage induction motor Oil separator and filtration devices are provided separate from the compressor Check valves in the compressor discharge and lube oil system and a solenoid valve in the lube s
119. rformance test include verification of performance prevention of operational problems and assurance of a smooth startup Only a performance test conducted in a laboratory or laboratory grade facility will confirm both performance and operation of a specific chiller While most factory performance tests go smoothly should problems occur Trane personnel can quickly correct them and the chiller will ship as specified Job site diagnosis ordering of parts and waiting for delivery of replacement components is significantly reduced A factory performance test reduces startup time thereby saving job site expense A chiller that has been tested is operation and performance proven This allows the installing contractor to concentrate on proper electrical wiring and water piping and the service technicians to concentrate on proper refrigerant charge safeties diagnosis and initial logging of the chiller Means of obtaining full load on the chiller and proving its performance do not have to be determined by engineers or contractors thus saving time The certified test report documents performance for the unit as built In addition factory testing significantly reduces commissioning time and risk by reintroducing manufacturer responsibility where its mitigation should reside When a factory performance test is requested the test can be conducted at the specified design conditions for all packaged chillers The test facility has the capability to control a
120. ropeller Quantity 4 4 5 4 5 5 6 5 6 6 8 6 10 6 12 6 10 10 12 10 12 12 Diameter 762 762 762 762 762 762 762 762 762 762 762 Air flow per m3 hr 13452 13120 12855 12855 12855 13190 12853 12856 12854 12855 12855 Power per motor kW 0 74 0 74 0 74 0 74 0 74 0 74 0 74 0 74 0 74 0 74 0 74 Fan speed rps 15 8 15 8 15 8 15 8 15 8 15 8 15 8 15 8 15 8 15 8 15 8 Tip speed M S 38 38 38 38 38 38 38 38 38 38 38 General Unit HFC 134a refrig ckts 2 2 2 2 2 2 2 2 2 2 2 96 min load 96 15 15 15 15 15 15 15 15 15 15 15 Refrig charge 79 79 98 93 98 98 102 98 102 102 107 107 107 107 188 91 209 91 188 188 209 209 Oil charge L 5 5 5 5 5 5 7 5 7 7 8 8 7 8 8 7 8 8 7 8 8 8 8 9 9 8 8 9 9 9 9 Min ambient std 3 9 3 9 3 9 3 9 3 9 3 9 3 9 3 9 3 9 3 9 3 9 Min ambient low 17 8 17 8 17 8 17 8 17 8 17 8 17 8 17 8 17 8 17 8 17 8 1 Data containing information on two circuits is shown as follows ckt 1 ckt 2 2 Minimum start up operating ambient is based on a 5 mph wind across the condenser 16 9 General Data Table 4 50 Hz high efficiency SI Size 120 130 140 155 170 185 200 250 275 300 350 375 400 Compressor Screw Quantity 2 2 2 2 2 2 2 3 3 3 4 4 4 size soriz 60 60 70 60 70 70 85 70 85 85 15 100 100 100 100 8585 85 85 100 100 Evaporator Flooded Water storage L 110 121 129 136 151 148 163 254 273 273 314 326 344 2 pass arrangement Min flow 1 5 12
121. rs 1640 watts RLA Rated Load Amps XLRA Locked Rotor Amps based on full winding x line start units YLRA for wye delta starters is 1 3 of LRA of x line units MCA Minimum Circuit Ampacity 125 percent of largest compressor RLA plus 100 percent of all other loads Max fuse or MOPD 225 percent of the largest compressor RLA plus 100 percent of the second compressor RLA plus the sum of the condenser fan FLA Use FLA per circuit NOT FLA for the entire unit Local codes may take precedence All ambient means standard low high and wide ambient options 9 Electrical Data Table 13 Customer wire selection standard efficiency Single point power Dual point power Ckt 1 Dual point power Ckt 2 Unit Circuit Circuit Circuit Size Volt Term Disc Breaker Term Disc Breaker Term Disc Breaker 1 1AWG 1 1 1 1AWG 1 1 AWG 140 2 4 AWG 2 2 0 2 2 0 4 AWG 600 or 600 or 4 AWG 600 or 600 or 500 MCM 500 MCM 500 MCM 500 MCM 2 1 2 1AWG 500 2 1 2 1 250 MCM 250 MCM 250 MCM 250 MCM 1 1AWG 1 1 1 1AWG 1 155 2 4 AWG 2 2 0 2 2 0 600 or 600 or 4 AWG 600 or 600 500 MCM 500 MCM 500 MCM 2 1AWG 2 1 500 2 1 2 1 250 250 250 250 1 1
122. t 9 Manufacturing Location U Water Chiller Business Unit Pueblo CO USA Digits 10 11 Design Sequence XX Factory Input Digit 12 Unit Basic Configuration Standard efficiency performance High efficiency performance Extra efficiency performance How og Digit 13 Agency Listing No agency listing C UL listing Seismic rated IBC and OSHPD C UL listed and seismic rated Digit 14 Pressure Vessel Code ASME pressure vessel code Canadian code Australian code Chinese code Digit 15 Evaporator Application Standard 40 60 F leaving temp Low Less than 40 F leaving temp G RLC PRC039B EN Digit 16 Evaporator Configuration 2 pass 0 75 insulation 3 pass 0 75 insulation 2 pass 1 25 insulation 3 pass 1 25 insulation Digit 17 Condenser Application Standard ambient 25 115 F High ambient 25 125 F Low ambient 0 115 F Wide ambient 0 125 F 18 Condenser Fin Material Standard aluminum slit fins J TIZ 2 Copper fins 4 CompleteCoat epoxy coated fins Digit 19 Condenser Fan Motor Configuration T STD fans withTEAO motors W Low noise fans Digit 20 Compressor Motor Starter Type X Across the line Y Wye delta closed transition Digit 21 Incoming Power Line Connection 1 Single point power connection 2 Dual point power connection Digit 22 Power Line Connection Type Terminal block c
123. temperature 53 Options Low Ambient Option The low ambient option provides special control logic oil coolers and variable frequency drives on the condenser fan circuits to permit low temperature startup and operation down to O F 18 C High Ambient Option The high ambient option consists of special control logic and oil coolers to permit high ambient up to 125 F 51 C operation This option offers the best performance when coupled with the high efficiency performance option Electrical Options Control Options Other Options 54 Circuit Breaker A HACR rated molded case capacity circuit breaker UL approved is available The circuit breaker can also be used to disconnect the chiller from main power with a through the door handle and comes pre wired from the factory with terminal block power connections The external operator handle is lockable Non Fused Power Disconnect Switch The non fused molded case disconnect switch UL approved is used to disconnect the chiller from main power and comes pre wired from the factory with terminal block power connections The external operator handle is lockable Single Dual Incoming Power Line Connection Single or dual points of termination are available for incoming power line connections Units with 3 4 compressors must order circuit breakers with the single point connection option Some restrictions may apply Wye Delta Compressor Start Type This option provides a r
124. than 6 F 3 3 C may result in inadequate refrigerant superheat Sufficient superheat is always a primary concern in any refrigerant system and is especially important in a package chiller where the evaporator is closely coupled to the compressor When temperature drops are less than 6 F 3 3 C an evaporator runaround loop may be required Leaving Water Temperature Out of Range Many process cooling jobs require temperature ranges that cannot be met with the minimum and maximum published values for the Model RTAC evaporator A simple piping change can alleviate this problem For example A laboratory load requires 120 gpm 7 6 1 6 of water entering the process at 85 F 29 4 C and returning at 95 F 35 C The accuracy required is better than the cooling tower can give The selected chiller has adequate capacity but a maximum leaving chilled water temperature of 60 F 15 6 C In Figure A2 both the chiller and process flow rates are equal This is not necessary For example if the chiller had a higher flow rate there would simply be more water bypassing and mixing with warm water 9 Application Considerations Figure 2 Temperature out of range system layout 9 85 deg 85 deg F 120 gpm 60 deg F 120 gpm 95 deg F 85 gpm 70 deg F 120 gpm 95 deg F 95 deg F CV pump 35 gpm 120 gpm Variable Flow in the Evaporator An attractive chilled water system
125. ystem are also provided Refrigeration Circuits Each unit has two refrigerant circuits with one or two rotary screw compressors per circuit Each refrigerant circuit includes a compressor suction and discharge service valve liquid line shutoff valve removable core filter liquid line sight glass with moisture indicator charging port and an electronic expansion valve Fully modulating compressors and electronic expansion valves provide variable capacity modulation over the entire operating range Unit Controls unit controls are housed in an outdoor rated weather tight enclosure with removable plates to allow for customer connection of power wiring and remote interlocks All controls including sensors are factory mounted and tested prior to shipment Microcomputer controls provide all control functions including startup and shut down leaving chilled water temperature control evaporator flow proving compressor and electronic expansion valve modulation fan sequencing anti recycle logic automatic lead lag compressor starting and load limiting The unit control module utilizing Adaptive Control microprocessor automatically takes action to avoid unit shutdown due to abnormal operating conditions associated with low refrigerant pressure high condensing pressure and motor current overload Should the abnormal operating condition continue until a protective limit is violated the unit will be shut down Unit protective functions RLC PR
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