Dimplex SI 50ZS User's Manual
Contents
1. 429U9 Jjo jnuS ba f HO 63 uoisuedx43 e ueno Q Aem eeu HOJNUS Dd yoouDn DI EC Declaration of Conformity EC Declaration of Conformity The undersigned Glen Dimplex Deutschland GmbH Division Dimplex Am Goldenen Feld 18 D 95326 Kulmbach Allemagne hereby confirm that the design and construction of the product s listed below in the version s placed on the market by us conform to the relevant requirements of the applicable EC directives This declaration becomes invalidated if amy modifications are made to the product s without our prior authorisation Designation of the product s Brine to water heat pumps EC Directives EC Low Voltage Directive for indoor installation containing R407C 73 23 EEC EC EMC Directive 89 33 6 EEC Pressure Equipment Directive 97 23 EEC Type s Harmonized EN Standards SI 50 ZS EN 255 1997 SI 75 ZS EN 378 1994 SI ZS DIN 8901 208 DIN EN 6033 5 1 VDE 0700 Part 1 2001 08 DIN EN 6033 5 2 40 VDE 0700 Part 40 2001 05 DIN EN 55014 2 VDE 0875 Part 14 2 2002 08 Requirements of category II DIN EN 55014 1 VDE 0875 Part 14 1 2003 09 DIN EN 61000 3 2 VDE 0838 Part 2 2001 12 DIN EN 61000 3 3 VDE 0838 Part 3 2002 05 Order No National Standards Directives Kulmbach 24 11 2005 D A VBG20 Wo ang Weinhold General Manager EN 60335 1 94 AI2. 35 140 90 __ 120 2 compressor mode 100 35 80 50 60 1 compressor mode 40 Conditions Heating water flow rate 8 5 m h 20 Brine flow rate 24 m h ai 10 5 0 5 10 15 20 25 30 Brine inlet temperature in C Power consumption incl power input to pum Pressure loss in Pa ption incl put to pump Dann Pa 50 Z9 Evaporator 20 15 50 10000 LLL 35 10 E 5000 5 0 y d L I i l d _ LL yyy 0 5 10 15 20 25 10 5 0 5 10 15 20 25 30 Brine inlet temperature in C Brine flow rate in m h Coefficient of performance incl power input to pump Pressure loss in Pa 10 20000 6 De 10000 4 2 5000 0 0 10 15 20 25 30 Brine inlet temperature in C 10 5 0 5 0 5 10 15 20 Heating water flow rate in m h 12 4 1 Control ZHOS OWA OEZ Walshs suen zB Y 2 B ceo IF Y E NN TI Lu EBEN m Lv Lv DOO OFW LX a OWA 062 v lt lt Eer 554 E 81914 93 EIN LIN aN aH ZWALA oS L DVA DVA O 598 icm qe EEN sa tene le 0 lt lt lt lt lt lt
3. of a frost and corrosion protection agent on a monoethylene glycol or propylene glycol basis The clockwise phase sequence must be ensured when connecting the load lines Commissioning of the heat pump must be performed in accordance with the installation and operating manual of the heat pump controller All electrical circuits must be dis connected from the power supply prior to opening the unit 1 2 Legal Provisions and Guidelines This heat pump conforms to all relevant DIN VDE regulations and EU directives For details refer to the EC Declaration of Conformity in the appendix The electrical connection of the heat pump must be performed according to and conforming with all relevant VDE EN and IEC standards Beyond that the connection requirements of the local utility companies have to be observed The heat pump is to be connected to the heat source and heat distribution systems in accord ance with all applicable provisions Any work on the heat pump may only be performed by an authorised and qualified customer service 1 3 Energy Efficient Use of the Heat Pump By operating this heat pump you contribute to the protection of our environment A prerequisite for an efficient operation is the proper design and sizing of the heating system and the heat source system In particular it is important to keep water flow temperatures as low as possible All energy consumers connected should therefore be suitable for low fl
4. 99Jnos 1eoH G 9Gc 269 2145 1681 Equipment Data EQUIPMENT DATA for brine to water heat pumps for heating purposes 17 E E B wem BEE wmromwwEpeA I E 3 1 Operating temperature limits Heating water supply Brine heat source Antifreeze agent Minimum brine concentration 13 C freezing temperature Heating capacity coeff of perform at B 5 W55 1 at BO W50 1 at BO W35 1 95 seueewa E 7 _ Heating water flow rate at internal pressure difference m h Pa Brine flow rate at internal pressure difference heat source m h Pa oc comer e OO 4 1 Equipment dimensions without connections 4 HxWxL mm 4 2 Equipment connections for heating system inches 4 3 Equipment connections for heat source inches 2 1 2 i ext G 2 1 2 ilext Weight of transport unit s incl packaging a 7 I em eee Nominal current W35 5 Al b IES o DOI IA EE ER These data characterize the size and performance capability of the system For economic and energetic reasons additional factors such as balance point and control need to be taken into consideration Abbreviations have the following meaning e g B10 W55 heat source temperature 10 C and heating water supply temperature 55 C The heating circulating pump and the controller of the he
5. F18 F19 B2 Pressostat low pressure brine B3 Thermostat hot water as an alternative to hot water sensor B4 Thermostat swimming pool water E9 Electr immersion heater hot water E10 Suppl heating system boiler or electr heating element F2 Load fuse for N1 relay outputs across J12 and J13 4 0 A slow acting Load fuse for 1 relay outputs across J15 to J18 4 0 A slow acting F4 Pressostat high pressure FS Pressostat low pressure H5 Lamp remote fault indicator 1 18 Terminal connector at 1 K1 Contactor compressor 1 K3 Contactor compressor 2 K11 Electron relay for remote fault indicator relay module K12 Electron relay for swimming pool water circulating pump relay module K20 Contactor suppl heating system boiler or electr heating element K21 Contactor electr immersion heater for hot water K22 Utility company disable contactor K23 SPR auxiliary contactor M1 Compressor 1 M3 Compressor 2 M11 Primary pump M13 Heating circulating pump M15 Heating circulating pump for heating circuit 2 M16 Suppl circulating pump M18 Hot water circulating pump M19 Swimming pool circulating pump M21 Mixer principal circuit M22 Mixer heating circuit 2 N1 Heat pump controller N7 Starting current limiter compr 1 N8 Starting current limiter compr 2 N10 Remote control station N11 Relay module R1 External sensor R2 Return sensor R3 Hot water sensor as an alternative to hot
6. heat energy to the heating water Based on the thermostat setting the heating water is thus heated to up to 55 C 3 SCOPE OF DELIVERY 3 1 Baseline Unit The baseline unit consists of a heat pump ready for connection for indoor installation complete with sheet metal cabinet control box and integrated controller The refrigeration cycle contains the refrigerant R404A Refrigerant R404A is CFC free non ozone depleting and non combustible All components required for the operation of the heat pump are located in the control box A sensor for the external wall temperature including mounting hardware as well as a strainer are supplied with the heat pump The voltage supply for the load and control current must be provided by the customer The control wire of the brine pump to be provided by the customer is to be connected to the control box When so doing a motor protecting device is to be installed if required The collector loops including the brine manifold must be provided by the customer 599 gt kel E 1 NW e E 1 Control 2 Evaporator 4 Compressor 5 Transport securing devices 3 Condenser 6 Filter drier 4 1 Connecting Flanges The use of flat sealing connecting flanges allows the unit as an option to be connected by means of flanges For the transport by means of a hand truck or boiler trolley position the latter under the front end of the unit below the transport security dev
7. of heat pump usage so that the least favourable operating state with respect to the water flow rate is achieved Normally these heating circuits are those of the rooms located on the south and west sides of buildings At least one heating circuit must remain open e g bathroom The overflow valve is to be opened to such an extent that based on the current heat source temperature the maximum temperature difference between heating supply and return flow temperature is obtained as indicated in the table below The temperature difference should be measured as closely to the heat pump as possible In mono energetic systems the electric heating element is to be deactivated Heat source temperature max difference between heating supply and return temperature Any malfunctions occurring during operation are displayed on the heat pump controller and can be corrected as described in the operating manual of the heat pump controller 9 1 Care The heat pump is maintenance free To prevent malfunctions due to sediments in the heat exchangers care must be taken that no im purities can enter the heat source system and the heating installation In the event that operating malfunctions due to contamination occur nevertheless the system should be cleaned as described below 9 2 Cleaning of Heating Side The ingress of oxygen into the heating water circuit may result in the formation of oxidation products rust It is therefore
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9. 0 a a 9 U JY U 7 910 A Io N lt O 3 5 5 eL 8 6 LL er oo vr Zr or 09 LP sr vr er er LP 12 4 3 Terminal Diagram s r VANS 9Lr ZLC ELP clr 6 CD LV C M 7 24 zlolz 02 0 2 10 2 10 2 096 12 6 02220 lo 12 z z Jo 8 78 58 e 88 8 e 8 8 889 peor Q N N i NI AE ER NZIN NVW d ZIN VIA i i i i i i qx N peN N nee N N LX N N Sae g Praet o 39 1 ME 214 L MR NNI UNES Iu A NP EI yl EL El el pl e p rr LX S e LX pra me N 9 XXXXX 1 dd LZ GF ua an eem Y 9 4 gt ZHOS OWA OEZ ZHOS OVAOOF 12 4 4 Legend A1 Wire jumper across J5 ID3 gt X2 must be inserted if no utility company disable contactor is used A2 Wire jumper must be removed if 2nd disable input is used AT Wire jumper in SI 50 70 in place of
10. A2 AII to 16 2001 60335 2 40 1997 A1 2000 EN 55014 2 1997 AI 2001 EN 55014 1 2000 AI 2001 A2 2002 EN 61000 3 2 2000 EN 61000 3 3 1995 Corr 1997 A1 2001 CH SVTI Andreas Tilch Spartenleiter Division Manager Haustechnik Notes Notes Notes Glen Dimplex Deutschland GmbH Subject to technical modifications Division Dimplex Fax 49 92 21 709 589 Am Goldenen Feld 18 www dimplex de D 95326 Kulmbach
11. Dimplex Brine to Water Heat Pump for Indoor Installation SI 5075 5175275 SI 10045 CONTENTS Zo a NON N N 10 1 11 11 1 11 2 12 READ IMMEDIATELY 3 Important Information Legal Provisions and Guidelines Energy Efficient Use of the Heat Pump PURPOSE OF HEAT PUMP 4 Application Principle of Operation SCOPE OF DELIVERY Baseline Unit ACCESSORIES 5 Connecting Flanges TRANSPORT 5 INSTALLATION 6 General Information Sound Emissions MOUNTING 6 7 General Information Connection on Heating Side Connection on Heat Source Side Electrical Connection COMMISSIONING 8 General Information Preparatory Steps Commissioning Procedure CARE CLEANING 9 Care Cleaning of Heating Side Cleaning of Heat Source Side MALFUNCTIONS TROUBLE SHOOTING 10 Correction of Minor Malfunctions by Owner DECOMMISSIONING 10 Summer Shutdown End of Life Decommissioning Disposal APPENDIX 11 1 1 Important Information Any work on the heat pump may only be performed by an authorised and qualified customer service The transport securing devices must be removed after the transport The heat pump must not be tilted more than max 45 in either direction Flush the heating system prior to connecting the heat pump The supplied strainer is to be fitted in the heat source inlet of the heat pump to protect the evaporator against contamination The brine solution must consist of at least 25
12. The heating system must be flushed prior to connecting the heat pump Before completing the heat pump connections on the heating water side the heating installation must be flushed in order to remove any impurities that may be present as well as residues of sealing material and the like Any accumulation of deposits in the condenser may result in a total failure of the heat pump Once the installation on the heating side has been completed the heating system must be filled de aerated and pressure tested The sensor supplied loose in the control box must be fitted as shown in the block diagram Heating water minimum flow rate The heating water minimum flow rate through the heat pump must be assured in all operating states of the heating system This can be accomplished for example by installing a differential pressure free manifold or an overflow valve The procedure for setting an overflow valve is described in the Chapter Commissioning Frost protection for installations prone to frost Provided the controller and heating circulating pumps are ready for operation the frost protection feature of the controller is active If the heat pump is taken out of service or in the event of a power failure the system has to be drained In heat pump installations where a power failure cannot be readily detected holiday house the heating circuit must contain a suitable antifreeze product 7 3 Connection on Heat Source Side The f
13. ar in the case of mixed installations and plastic pipes mineral deposits rust sludge lime may form impairing the pro per functioning of the heating installation A reason for this is the water hardness and oxygen dissolved in the filling water as well as additio nal oxygen from the air which may penetrate via valves fittings and plastic pipes oxygen diffu sion Asa preventive measure it is re commended that a physical water conditio ner such as ELYSATOR be used 9 3 Cleaning of Heat Source Side The supplied strainer is to be install ed in the heat source inlet of the heat pump in order to protect the evaporator against conta mination The filter screen of the strainer should be cleaned one day after commissioning thereafter every week If no more contamination can be noticed any more the strainer filter can be removed in order to reduce pressure losses 10 1 Correction of Minor Malfunctions by Owner This heat pump is a quality product and designed for trouble and maintenance free operation In the event that a malfunction occurs nevertheless you will be able to correct the problem yourself in most of the cases Simply consult the Malfunctions and Troubleshooting table contained in the installation and operating manual of the heat pump controller If you cannot correct the malfunction yourself please contact the after sales service agent in charge see Warranty Certificate All work on the heat pump may o
14. at pump must be on standby at all times See EC Declaration of Conformity Please keep in mind that additional space is required for pipe connections operation and maintenance 2 compressor operation 1 compressor operation Subject to technical modifications Issued 02 11 2005 12 3 1 Characteristic Curves SI 50ZS B Heating capacity in KW 70 60 50 40 30 20 10 14 12 10 A Water outlet temperature in C 30 35 50 2 compressor mode 515 50 1 compressor mode Conditions Heating water flow rate 4 5 E Brine flow rate 12 8 m h 10 5 0 5 10 15 20 25 Brine inlet temperature in C Power consumption incl power input to pump Pressure loss in Pa 35000 7 30000 35 25000 20000 posee pes 520 15000 1 35 10000 5000 4 F ME kde Hi MH NA pe des 1I I I EN ome Fe REN pens emt La 0 10 5 0 5 10 15 20 25 30 0 2 12 e N 0 0 Brine inlet temperature in C Coefficient of performance incl power input to pump 10 5 0 5 10 15 20 2 Brine inlet temperature in C Brine flow rate in m h Pressure loss in Pa 10000 6000 4000 2000 30 0 2 4 6 8 10 Heating water flow rate in m h 12 3 2 Characteristic Cu
15. iagram 21 Legend 22 Hydraulic Block Diagram 23 EC Declaration of Conformity 24 Warranty Certificate 25 d Drawing SI 50ZS imensione 12 1 1 D saul 9119913 yes Jeyem jeulajul 2 681 jeeH A ddns Jayem jejino g L 92Jnos JeaH peaJu eulajul 2 1 2 srel d Drawing SI 75ZS imensione 12 1 2 D soul 91119913 yeeH peeJu eulajul 2 Jenno A ddns euJ8 xo 2 C 1a ul jeaH 99 N0S eoH peau eulajul 2 1 2 1 Yes 92Jnos pealu PUIOJUI 2 1 Brel 1681 ing SI 100ZS d Draw imensione 12 2 3 D 0 71 saul 91119913 yeay uJnjo4 peau 2 Ajddns Jayem jepno peau 2
16. ice For transport on a level surface the unit can be lifted from the rear or from the front by means of a lift truck or forklift In this case the transport securing device is not imperative The heat pump must not be tilted more than max 45 in either direction After the transport the transport securing device is to be removed on either side at the bottom of the unit Remove install transport securing device The transport securing device is to be removed after the transport 6 1 General Information As a rule the unit must be installed indoors on a level smooth and horizontal surface The entire base frame should make full contact with the surface in order to ensure adequate sound insulation Failing this additional sound insulation measures may become necessary The heat pump should be installed to allow easy maintenance service access This is ensured if a clearance of approx 1 m in front of the heat pump is maintained 0 5m 6 2 Sound Emissions The heat pump offers silent operation due to efficient sound insulation Any sound transmission to the foundation or the heating system can be largely prevented by internal sound decoupling measures 7 1 General Information The following connections need to be estab lished on the heat pump supply return flow of the brine system supply return flow of the heating system power supply 7 2 Connection on Heating Side
17. important in particular with respect to the piping of underfloor heating systems that the installation is executed in a diffusion proof manner Also residues of lubricating and sealing agents may contaminate the heating water In the case of severe contamination leading to a reduction in the performance of the condenser in the heat pump the system must be cleaned by a heating technician Based on current knowledge we recommend cleaning with a 5 phosphoric acid solution or in the case that cleaning needs to be performed more frequently with a 596 formic acid solution In either case the cleaning fluid should be at room temperature It is recommended that the heat exchanger be cleaned in the direction opposite to the normal flow direction To prevent acidic cleaning agents from entering the circuit of the heating installation we recommend that the flushing device be fitted directly to the supply and return lines of the condenser of the heat pump Thereafter the system must be thoroughly flushed using appropriate neutralising agents in order to prevent any damage caused by cleaning agent residues that may still be present in the system All acids must be used with great care all relevant regulations of the employers liability insurance associations must be adhered to If in doubt contact the manufacturer of the chemicals Caution Heating Technicians Depending on the filling water quality and quantity in particul
18. nly be performed by an authorised an qualified after sales service Disconnect all electrical circuits from the power supply before opening the enclosure 11 1 Summer Shutdown A heating only system can be shut down in summer no domestic water heating This can be effected by means of the mode selector switch of the heat pump controller Please follow the instructions contained in the controller s in stallation and operating manual To avoid possible frost damage shutting down the system without draining the heating circuit is only permissible if outside temperatures are greater than 0 C 11 2 End of Life Decommissioning Disposal Before removing the heat pump disconnect the unit from the power source and close all valves Environment relevant requirements regarding the recovery recycling and disposal of service fuels and components in accordance with all relevant standards must be adhered to Particular attention must hereby be paid to the proper disposal of refrigerants and refrigeration oils 12 1 12 1 1 12 1 2 12 1 3 12 2 12 3 12 3 1 12 3 2 12 3 3 12 4 12 4 1 124 2 12 4 3 12 4 4 12 5 12 6 12 7 Dimensioned Drawings Dimensioned Drawing SI 50ZS 12 Dimensioned Drawing SI 75ZS 13 Dimensioned Drawing SI 100ZS 14 Equipment Data 15 Diagrams Characteristic Curves Sl 50ZS 16 Characteristic Curves Sl 75ZS 17 Characteristic Curves SI 100ZS 18 Wiring Diagrams Control 19 Load 20 Terminal D
19. ollowing procedure must be observed when making the connection Connect the brine line to the flow and return pipe of the heat pump The supplied strainer must be fitted in the heat source inlet of the heat pump in order to protect the evaporator against the ingress of impurities In addition a powerful vent must be installed at the highest point of the heat source system The hydraulic plumbing diagram must be observed here The brine liquid must be produced prior to charging the system The brine concentration must be at least 25 Freeze protection down to 14 C can thus be ensured Only antifreeze products on the basis of mono ethylene glycol or propylene glycol may be used The heat source system must be vented de aerated and checked for leaks The brine solution must contain at least 25 of an antifreeze and corrosion protection agent on a monoethylene glycol or propylene glycol basis 7 4 Electrical Connection The following electrical connections must be established on the heat pump Connection of the control wire to terminals X1 L N PE in the control box of the heat pump Connection of the load wire to terminals X5 L1 L2 L3 PE in the control box of the heat pump The control of the brine pump is effected via the controller N1 J12 NO3 N PE max 200 W or a pump contactor connected to these terminals without PE If a motor protective switch is used the auxiliary contact NC contact need
20. oning it should be carried out by a customer service authorised by the manu facturer Only then can an extended warranty period of 3 years in total be granted cf Warranty service 8 2 Preparatory Steps Prior to commissioning the following items need to be checked connections of the heat pump must have been made as described in Chapter 7 The heat source system and the heating circuit must have been filled and checked The strainer must have been fitted in the sole inlet of the heat pump Inthe brine and heating circuits all valves that might impair the proper flow must be open The settings of the heat pump controller must be adapted to the heating installation in accordance with the instructions contained in the controller s operating manual 8 3 Commissioning Procedure The start up of the heat pump is effected via the heat pump controller Commissioning is to be effected in accordance with the installation and operating manual of the heat pump controller Where an overflow valve is fitted to assure the minimum heating water flow rate the valve must be set in accordance with the requirements of the heating installation An incorrect setting may result in various error symptoms and an increased elec tric power consumption To correctly set the overflow valve the following procedure is recommended Close all of the heating circuits which may also be closed during operation depending on the type
21. ow temperatures A 1 K higher heating water temperature corresponds to an increase in power consumption of approx 2 5 96 Underfloor heating systems with flow temperatures between 30 C and 40 C are optimally suited for energy efficient operation 2 PURPOSE OF HEAT PUMP SCOPE OF DELIVERY PURPOSE OF THE HEAT PUMP 2 1 Application The brine to water heat pump is designed for use in existing or newly built heating systems Brine is used as the heat carrier in the heat source system Ground coils ground collectors or similar systems can be used as the heat source 2 2 Principle of Operation The heat generated by the sun wind and rain is stored in the ground This heat stored in the ground is collected at low temperature by the brine circulating in the ground collector ground coil or similar device A circulating pump then conveys the warmed brine to the evaporator of the heat pump There the heat is given off to the refrigerant in the refrigeration cycle When so doing the brine cools so that it can again take up heat energy in the brine circuit The refrigerant however is drawn in by the electrically driven compressor is compressed and pumped to a higher temperature level The electrical power needed to run the compressor is not lost in this process but most of the generated heat is trans ferred to the refrigerant as well Subsequently the refrigerant is passed through the condenser where it transfers its
22. rves SI 75ZS 120 100 80 60 40 20 Heating capacity in KW Water outlet temperature in C 35 50 F 2 compressor mode 35 F 50 1 compressor mode Conditions Heating water flow rate 6 5 m3 h Brine flow rate 20 5 m h 10 5 0 10 15 20 25 30 Brine inlet temperature in Power consumption incl power input to pum Pressure loss in Pa ption incl p put to pump 30000 Pa L 50 Fe 35 20000 15000 50 10000 35 5000 0 SENS MES EE 0 5 10 15 20 25 10 5 0 5 10 15 20 25 ONE C Brine inlet temperature in C Coefficient of performance incl power input to pump 35 50 10 0 9 10 19 20 Brine inlet temperature in C 29 14000 12000 10000 8000 6000 4000 2000 Brine flow rate in m h Pressure loss in Pa Condenser 0 2 4 6 8 10 Heating water flow rate in m h 12 14 16 12 3 3 Characteristic Curves SI 100ZS Heating capacity in KW Water outlet temperature in C 160
23. s to be connected to N1 J5 ID5 and X2 instead of the wire jumper which must be removed All electrical components required for the operation of the heat pump are located in the control box For more detailed instructions concerning the connection and functioning of the heat pump controller e g the supplied external wall sensor please refer to the enclosed operating manual of the controller An all pole disconnecting device with a contact gap of at least 3 mm e g utility company disable contac tor or power contactor as well as a 3 pole circuit breaker with simultaneous tripping of all external conductors must be provided The required cross sectional area of the conductors is to be selected according to the power consumption of the heat pump the technical connection requirements of the relevant utility company and all applicable regula tions Power consumption data of the heat pump is provided in the product literature and on the nameplate The terminals are designed for a max conductor cross section of 35 mm The clockwise phase sequence must be observed when connecting the load lines the heat pump will deliver no output and will be very noisy when the phase sequence is incorrect gt The power cable must be run through the guide tubes inserted into the side of the control box and secured by means of the strain relief 8 1 General Information To ensure proper commissi
24. water thermostat R5 Sensor for heating circuit 2 R6 Freeze protection sensor R7 Coding resistor 8k R9 Flow sensor T1 Safety isolating transformer 230 24 VAC 28VA X1 Terminal strip mains control L N PE 230VAC 50Hz fuses N and PE terminal block X2 Terminal strip 24 VAC terminal block X3 Terminal strip GND terminal block for sensors R1 2 and 3 at J2 and R5 and 6 at J6 X5 Terminal strip power supply 3L PE 400VAC 50 Hz Abbreviations EVS Utility company disable input SPR Supplementary disable input MA Mixer OPEN MZ Mixer CLOSED Components to be supplied by the customer available as accessories Hydraulic Block Diagram Example JOH uonnqujsip 9119917 Josuas c Buneay 40sueg JOSU9S J9 EM JOH Josues JOSUAS Jem Z Buneay XIW nolo Hunesy XIW ueno JOH yddns Bunesy Bunesy BuReSH Aleid joy uoisJeuJuu 99Jnos eoH Xue JOH yug Jaung jesy 1 HL a MM esou Bunoeuuoo e qixo Josues eunjejeduie 9 Jeuinsuoo JESH Q quiesse Ajejes de
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