Sime Open Hybrid MEM 25-006 Installation And Maintenance Manual
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Sime Open Hybrid MEM 25-006 Installation And Maintenance Manual

Sime Open Hybrid MEM 25-006 Installation And Maintenance Manual

Open hybrid mem erp series
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OPEN HYBRID MEM ErP
INSTALLATION AND MAINTENANCE MANUAL
EN
Dear Customer,
Thank you for purchasing an Open Hybrid MEM ErP system, a last generation appliance, with all the technical and performance
features to satisfy your needs for heating and the supply of domestic hot water, in maximum safety and with low running costs.
We recommend that your new appliance is started up within 30 days from the date of installation by qualified technicians,
so that you can benefit from both the legal warranty and the conventional warranty provided by Sime which is to be found
at the end of this manual.
Fonderie SIME S.p.A.
6322912 - 03/2016 - R3

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Summary of Contents for Sime Open Hybrid MEM 25-006

  • Page 1 We recommend that your new appliance is started up within 30 days from the date of installation by qualified technicians, so that you can benefit from both the legal warranty and the conventional warranty provided by Sime which is to be found at the end of this manual.

  • Page 2: Table Of Contents

    Technical data ........8 Open Hybrid MEM 25-006 S 8114409 1.3.1...
  • Page 3 – Do not use electrical devices or appliances such as tact the Dealer who sold the appliance. switches, electrical appliances etc if you can smell – The appliance must be used as intended by Sime fuel. If this should happen: who is not responsible for any damage caused to - open the doors and windows to air the room;...

  • Page 4: System Description

    Fig. 1 Additional appliances/devices to complete the basic/mini- mum structure: – Sime SHP M ErP heat pump to be selected on the basis of system requirements – MRM Remote Control to manage the entire system. In the basic configuration, OPEN HYBRID MEM ErP systems provide hot water at a maximum delivery temperature of 60°C...

  • Page 5: Operation

    1.1.2 Heating Operation – The heating request is made by means of the dry contact (for example, a safety limit microswitch, etc..). 1.1.1 Domestic hot water The 150 litre hot water storage tank in STAINLESS STEEL is – The medium-low temperature heating circuit can reach a made exclusively from renewable sources with the following maximum delivery temperature of 55°C with only the heat priorities:...

  • Page 6: Cooling

    1.1.3 Cooling 1.1.5 Anti-blocking function – Setting the summer mode (cooling) from the remote display – Function controlled by the MEM with the activation of all the or remote contact (option of installing a summer/winter se- active organs after a period of inactivity to prevent blocking lector for the user's convenience - not supplied).

  • Page 7: Structure

    System safety thermostat ( TS ) Check valve ( Vr ) Low temperature system pump ( PI ) Inertial puffer Automatic filling (EV) Electrical panel Condensation boiler Mem Remote control External sensor ( SE ) Sime SHP M ErP heat pump Fig. 2...

  • Page 8: Technical Data

    Technical data 1.3.1 Boiler Brava Slim HE ErP DESCRIPTION CERTIFICATIONS IT – ES – PT – GR – SI Country of intended installation G20 / G31 Fuel 1312CP5936 PIN number Category II2H3P B23P - B33P - B53P - C13 - C33 - C43 - C53 - C63 - C83 Appliance classification Class NO 5 (<...

  • Page 9: Heat Pump

    Brava Slim HE ErP DESCRIPTION Max operating pressure (PMS) Water content in boiler 4,65 4,75 4,95 Lower Heat Output (Hi) 9,45 kW/m (15°C, 1013 mbar) - G31 Hi. 12,87 kW/kg (15°C, 1013 mbar) G20 Hi. 1.3.2 Heat pump SHP M ErP DESCRIPTION ELECTRICAL SPECIFICATIONS Power supply...

  • Page 10: Main Water Circuits

    Main water circuits 1.4.1 Open Hybrid MEM ErP base DOMESTIC HOT WATER STORAGE HEATER MU E R Water mains TEMPERATURE Water mains SYSTEM HEAT PUMP PUFFER Fig. 3 1.4.2 Open Hybrid MEM ErP base - High Temperature kit DOMESTIC HOT WATER STORAGE HEATER MU E R Radiator...

  • Page 11: Open Hybrid Mem Erp Base - High Temperature Kit - Solar Kit

    1.4.3 Open Hybrid MEM ErP base - High Temperature Kit - Solar Kit SOLAR COLLECTOR DOMESTIC HOT WATER STORAGE HEATER MU E R Radiator Water mains Solar unit Water Mains HEAT PUMP PUFFER TEMPERATURE SYSTEM Fig. 5 Check valve Solar Collector Sensor (supplied with the Solar Kit) Diverter valve DHW Inlet O-ring sensor (in boiler) Relief valve...

  • Page 12: Sensors

    Sensors Circulation pump The sensors installed have the following characteristics: The flow-head performance curve for the pumps used in the Open – B1 - Domestic Hot Water Storage Tank High Sensor NTC Hybrid MEM ErP Systems are indicated in the following graphs: R25°C;...

  • Page 13: Mem Remote Control

    boilers use the pump equipped with LED Brava Slim HE 35 ErP Electrical panel warning lights which indicate: To facilitate the electrical connections,it is recommended that the panel is hooked to a clip on the domestic hot water stor- LED colour Status Trouble-shooting age tank.

  • Page 14: Wiring Diagram

    1.10 Wiring diagram ELECTRICAL PANEL LOW TEMPERATURE SYSTEM PUMP EARTH HEAT PUMP DIVERTER VALVE NODE AUTOMATIC FILLING VALVE DOMESTIC HOT WATER PUMP T 6.3A LV system protection (present in electrical panel) BOILER Control unit Domestic Hot Water High Sensor Mod-bus converter Domestic Hot Water Low Sensor Transformer Low Temperature system delivery sensor...
  • Page 15 Electrical wiring diagram BOILER TERMINAL BOARD EXTERNAL SENSOR - OPTIONAL KIT (cable not supplied 2x0.5mm²) OT (Cable from electrical panel supplied as standard) ELECTRICAL PANEL CONTROL UNIT RJ12 TELEPHONE CABLE supplied as standard L=6m extendable up to 50m MEM REMOTE CONTROL BOILER - POWER SUPPLY (boiler output cable supplied as standard) ELECTRICAL PANEL TERMINAL BOARD (Open Hybrid Mem)

  • Page 16: Installation

    4- SHP M 012 ErP heat pump 1260 1400 Handling Handling of the Sime OPEN HYBRID MEM ErP system is to be carried out with equipment which is suitable for the dimen- sions and weights of the parts using suitable accident preven- tion protection.
  • Page 17 BOILER INSTALLATION Position the boiler inside the built-in frame hanging it by plac- ing the slots on the two prearranged pins. Secure using the nuts and washers supplied. Fig. 13 – Mount the assembly consisting of: pipe (3) code 6277822, do- Fig.
  • Page 18 – Connect the pipe (5) code 6277824 to the connection (U-Do- – Connect the pipe (10) code 6277825 to the plate heat exchang- mestic hot water output) of the fitting template and to the boil- er (Sp) and to the diverter valve (VD) er connection (U-DHW output) WARNING –...
  • Page 19 Fit the puffer by placing the slot onto the prearranged pin, inside – Create the assembly consisting of the pipe (15) code 6277831, the frame and secure it using the washer and nut supplied the check valve (Vr) with the arrow facing downwards, the low temperature system pump (PI) and the pipe (16) code 6277835;...

  • Page 20: Heat Pump Installation

    – Connect the pipe (17) code 6277833 to the connection (M-de- 2.4.1 Heat pump installation livery) of the boiler and to the puffer All models of the SHP M ErP series have been designed and built to be installed externally and therefore the following pre- –...

  • Page 21: Smoke Outlet And Combustion Air Inlet

    Brava Slim HE ered an integral part of the boiler and are provided by Sime as an accessory kit, to be ordered separately from the appliance on the basis of the type permitted and the system requirements Also refer to the manual supplied with the boiler.

  • Page 22: Separate Ducts (Ø 60/100Mm)

    2.5.2 Separate ducts (Ø 60/100mm) 2.5.3 Separate ducts (Ø 60mm and Ø 80mm) Constructing outlets for separate ducts indicates the use of Constructing outlets for coaxial ducts indicates the use of the the "air-smoke split pipe system". This is to be ordered sep- "extension"...

  • Page 23: Mem Remote Control Installation

    WARNING Solar thermal storage tank connections – For all boiler versions, the total extension must not in any case exceed 25 m (inlet) + 25 m (outlet) for - From the plate heat exchanger ducts Ø 80 mm The total extension must not ex- - Magnesium anode ceed 6 m (inlet) + 6 m (outlet) for ducts Ø...

  • Page 24: Position Of The Sensors

    Position of the sensors The sensors B1 (Domestic Hot Water Storage Tank High and B2 are connected in the (Domestic Hot Water Storage Tank Low) factory and must only be put into the sockets prearranged on the domestic hot water storage tank. Gently tighten the socket safety screw without crushing the cable to prevent the sen- sors from detaching.

  • Page 25: Electrical Connections

    The main power cable and the boiler power cable must pass Electrical connections through the PG type restricting cable glands. The other cables must pass through the prearranged openings 2.9.1 Connection to the mains which are to be appropriately drilled and must be secured using The Open Hybrid Mem ErP appliance and the Heat Pump must be the free cable-lock at the bottom of the electrical panel.

  • Page 26: Filling Operations

    – Manually open the automatic filling valve, setting the screw 2.10 Filling operations (A) to the “OPEN” position (screwdriver size 45° approxi- mately preferably with rotation to the left and the right.) Filling the domestic hot water storage tank To fill the storage tank: –...

  • Page 27: 2.10.1 Automatic Degassing Function

    2.10.1 Automatic degassing function – select the operating mode WINTER To activate the Automatic Degassing Function – Press to select GENERATION PARAMETERS MENU GENERAL SETTINGS GENERATION  I/O CONFIGURATION – press the buttons (for approximately 5 seconds) HEATING at the same time until “PAR 01” (parameter number) and the COOLING value set (0-4) appears on the display DOMESTIC HOT WATER...

  • Page 28: Emptying Operations

    IMPORTANT 2.11 Emptying operations When these operations have been completed IT IS MANDATORY TO – CHECK THE TIGHTNESS of all the joints. Emptying the domestic hot water storage tank – COMPLETE THE INSULATION of the pipes and ALL the devices involved (for example, PI pump, Vr To empty the domestic hot water storage tank: valve, puffer bleed device, etc) using the insulation –...

  • Page 29: Commissioning

    From the Mem Remote Control "Stand-by" screen: – Press twice. The symbol will be highlighted (flashing) When the Sime Open Hybrid Mem ErP is commissioned, this must be carried out by a professionally qualified technician – Press twice. The symbol...

  • Page 30: Parameter Setting And Display

    Parameter setting and display – press and hold down the buttons < > at the same time for approximately 10 seconds until the flashing symbols appear on the display To go into the parameters menu from the Main screen on the Mem Remote Control: –...

  • Page 31: Complete List Of Parameters

    Complete list of parameters The parameters are divided into levels: – U = USER – I = INSTALLER ✎ Use a pencil to note down the value of each modified parameter in the "Set Value" column in relation to the default value. DESCRIPTION DEFAULT RANGE...
  • Page 32 ✎ Use a pencil to note down the value of each modified parameter in the "Set Value" column in relation to the default value. DESCRIPTION DEFAULT RANGE 3 – Input and Output Configuration S300 Analogue Input Value Display S301 Digital Input Status Display S302 Analogue Output Value Display S303...
  • Page 33 ✎ Use a pencil to note down the value of each modified parameter in the "Set Value" column in relation to the default value. DESCRIPTION DEFAULT RANGE 6 - Domestic Hot Water Comfort Setpoint Temperature for S600 6000 45.0 10.0 ÷ 60.0 °C Domestic Hot Water Reduced Setpoint Temperature for...

  • Page 34: Parameter Functions

    – COMFORT: Domestic hot water always at comfort setpoint Parameter functions level. – REDUCED: Domestic hot water always at reduced setpoint The configuration of the individual parameters described be- level. low allows operation of the Open Hybrid Mem ErP to adapt the needs of the system created.

  • Page 35: Generation System Settings

    3.5.2 Generation System Settings The filling procedure includes automatic opening cycles of the filling valve until nominal pressure is reached. PARAMETERS MENU System filling can be interrupted at any moment by pressing GENERAL SETTINGS GENERATION  the button I/O CONFIGURATION HEATING COOLING DOMESTIC HOT WATER...
  • Page 36 Priority Heat Pump Cooling-DHW Solar pump minimum operating time GENERATION S249 GENERATION S253 HEAT PUMP COOLING-DHW PRIORITY: SOLAR PUMP MINIMUM COOLING OPERATING TIME: Maximum Time: __ min PAR. DESCRIPTION RANGE PAR. DESCRIPTION RANGE · Cooling Solar pump minimum operating time 2485 2530 Priority Heat Pump Cooling-DHW...

  • Page 37: Input And Output Configuration

    3.5.3 Input and Output Configuration External Sensor Connection PARAMETERS MENU I/O CONFIG. S310 GENERAL SETTINGS GENERATION EXTERNAL SENSOR I/O CONFIGURATION  CONNECTION: HEATING COOLING FROM BOILER DOMESTIC HOT WATER ENERGY SETTINGS PAR. DESCRIPTION RANGE Press to access i/o configuration. · Not included 3100 External Sensor Connection ·...

  • Page 38: Heating

    3.5.4 Heating Setpoint for Low Temperature Circuit Nominal Ambient Temperature PARAMETERS MENU GENERAL SETTINGS HEATING S404 GENERATION I/O CONFIGURATION LOW TEMP. CIRCUIT HEATING  COOLING Nom Ambient Set 20.0ºc DOMESTIC HOT WATER Climatic Curve ENERGY SETTINGS Offset 0.0ºc Rotation at 20ºc : 0.0ºc Press to access heating.
  • Page 39 Curve rotation and transfer for mild temperatures Low temperature circuit: Setting the setpoint min-max limits and enabling-disabling the 50°C safety thermostat. It is possible to shift the set curve by adding or subtracting the value set at parameter 4044 and rotating the curve around an ideal axis at the point 20°C below the external temperature With safety thermostat ENABLED it is not possible to set the using parameter 4045.

  • Page 40: Cooling

    High Temperature Circuit Fixed Setpoint 3.5.5 Cooling PARAMETERS MENU HEATING S415 GENERAL SETTINGS GENERATION HIGH TEMPERATURE I/O CONFIGURATION CIRCUIT FIXED HEATING SETPOINT: COOLING  DOMESTIC HOT WATER 60.0ºc ENERGY SETTINGS PAR. DESCRIPTION RANGE Press to access cooling. 4150 High Temperature Circuit Fixed Setpoint ·...

  • Page 41: Dhw

    3.5.6 DHW Anti-legionella Function PARAMETERS MENU DOMESTIC HOT WATER S611 GENERAL SETTINGS ANTI-LEGIONELLA GENERATION FUNCTION I/O CONFIGURATION Activation : NOT ACTIVE HEATING : MONDAY COOLING Start Time : 00:00 DOMESTIC HOT WATER  End Time : 03:00 ENERGY SETTINGS Setpoint : 55.0ºc PAR.

  • Page 42: Energy Settings

    3.5.7 Energy Settings Setting boiler costs: Gas type, Lower heat output (only with manufacturer's password), Gas Cost Setting heat pump costs: Cost of electricity. PARAMETERS MENU GENERAL SETTINGS GENERATION I/O CONFIGURATION Photovoltaic function HEATING COOLING DOMESTIC HOT WATER ENERGY SETTINGS S710 ENERGY SETTINGS ...

  • Page 43: Communication

    3.5.8 Communication Boiler information display PARAMETERS MENU COMMUNICATION S813 GENERATION I/O CONFIGURATION BOILER INFORMATION HEATING Heat Setpoint 43.4ºc Heat. Deliv. T. : 45.9ºc COOLING DHW Setpoint 45.0ºc DOMESTIC HOT WATER DHW Deliv. T 27.0ºc ENERGY SETTINGS DHW Flow Rate 4.6l/m COMMUNICATION ...

  • Page 44: Maintenance

    Overtemperature due to excessive thermal energy system in critical conditions. Contact the energy supplied by solar thermal system Alarm for Storage tank temperature SIME manufacturer if necessary A020 too high Incorrect reading of the B1 storage tank Check that the values measured are in line and...
  • Page 45 Alarm Description Possible causes Solutions Code Fill the system from the remote control or using the Air bleeding from system screw on the solenoid valve Check and repair any plumbing leaks; then fill the Plumbing leaks system A023 Alarm for Low System Pressure Overpressure relive valve intervention in Check the heating expansion vessel and the relief boiler or heat pump...

  • Page 46: Any Pump Faults And Possible Solutions

    Any pump faults and possible solutions LED colour Pump status Fault Possible solution Network voltage too high or too low; - Check network voltage (160V > Vn > 280V) Motor overload; rotor friction or blockage - Check the characteristics of the system due to the presence of debris water;...

  • Page 47: Application Diagrams

    APPLICATION DIAGRAMS APPLICATION DIAGRAM 1a: radiating panel heating only NOTE: – Radiating panel heating only – All the safety limit microswitches are connected in parallel to the LOW TEMPERATURE CIRCUIT REQUEST input (NO dry contact) – The head request is always supplied by the TA (ambient thermostats).
  • Page 48 APPLICATION DIAGRAM 2a: radiating panel heating only - Fan convectors cooling/dehumidifying only NOTE: – Radiating panel heating only – All the safety limit microswitches are connected in parallel to the LOW TEMPERATURE CIRCUIT REQUEST input (NO dry contact) – Fan convectors cooling/dehumidifying only –...
  • Page 49 APPLICATION DIAGRAM 2b: radiating panel heating only - Fan convectors cooling/dehumidifying only NOTE: – Radiating panel heating only – All the safety limit microswitches are connected in parallel to the LOW TEMPERATURE CIRCUIT REQUEST input (NO dry contact) – Fan convectors cooling/dehumidifying only –...
  • Page 50 APPLICATION DIAGRAM 3a: fan convectors heating + cooling/dehumidifying NOTE: – Fan convectors heating + cooling/dehumidifying – All the safety limit microswitches are connected in parallel to the LOW TEMPERATURE CIRCUIT REQUEST input (NO dry contact) – The setting PAR2480=HEATING is recommended...
  • Page 51 APPLICATION DIAGRAM 4a: radiating panel heating + cooling - independent dehumidifiers (only electrical) NOTE: – Radiating panel heating + cooling. – All the safety limit microswitches are connected in parallel to the LOW TEMPERATURE CIRCUIT REQUEST input (NO dry contact) –...
  • Page 52 APPLICATION DIAGRAM 4b: radiating panel heating + cooling - hydronic dehumidifiers (hydronic + electrical) NOTE: – Radiating panel heating + cooling. – All the safety limit microswitches are connected in parallel to the LOW TEMPERATURE CIRCUIT REQUEST input (NO dry contact) –...
  • Page 53 APPLICATION DIAGRAM 4c: radiating panel heating + cooling - Fan convectors only cooling/dehumidifying NOTE: – Radiating panel heating + cooling. – All the safety limit microswitches are connected in parallel to the LOW TEMPERATURE CIRCUIT REQUEST input (NO dry contact) –...
  • Page 54 APPLICATION DIAGRAM: high temperature circuit kit Request for HIGH TEMPERATAURE CIRCUIT NO contact - Cable 2x0.5mm² TOWEL RADIATOR (high temperature) and/or fan convectors NOTE: – High temperature circuit only heating applicable in all previous diagrams. – The request is made by the TA (ambient thermostat) at the HIGH TEMPERATURE CIRCUIT REQUEST input (NO dry contact).

  • Page 55: Product Data Sheet

    PRODUCT DATA SHEET 25-006 25-009 25-012 30-006 30-009 Open Hybrid MEM ErP 8114400 8114401 8114402 8114403 8114404 C.H. seasonal energy efficiency of heat pump [“I”] (%) Contribution of temperature control (%) Contribution of additional boiler (%) Contribution of solar energy (%) A+++ Energy efficiency class of combined central heating Seasonal energy efficiency of combined central heating (%)
  • Page 56 30-012 35-006 35-009 35-012 Open Hybrid MEM ErP 8114405 8114406 8114407 8114408 C.H. seasonal energy efficiency of heat pump [“I”] (%) Contribution of temperature control (%) Contribution of additional boiler (%) Contribution of solar energy (%) Energy efficiency class of combined central heating Seasonal energy efficiency of combined central heating (%) Weighting factor of preferential heating equipment heat output 0,11...
  • Page 57 25-006 S 25-009 S 25-012 S 30-006 S 30-009 S Open Hybrid MEM ErP 8114409 8114410 8114411 8114412 8114413 C.H. seasonal energy efficiency of heat pump [“I”] (%) Contribution of temperature control (%) Contribution of additional boiler (%) Contribution of solar energy (%) A+++ Energy efficiency class of combined central heating Seasonal energy efficiency of combined central heating (%)
  • Page 58 30-012 S 35-006 S 35-009 S 35-012 S Open Hybrid MEM ErP 8114414 8114415 8114416 8114417 C.H. seasonal energy efficiency of heat pump [“I”] (%) Contribution of temperature control (%) Contribution of additional boiler (%) Contribution of solar energy (%) Energy efficiency class of combined central heating Seasonal energy efficiency of combined central heating (%) Weighting factor of preferential heating equipment heat output...
  • Page 60 Fonderie Sime S.p.A - Via Garbo, 27 - 37045 Legnago (Vr) Tel. +39 0442 631111 - Fax +39 0442 631292 - www.sime.it Fonderie SIME SpA reserves the right to make changes at any time without prior notice in order to improve its products without compromising the essential characteristics.

This manual is also suitable for:

Open hybrid mem 25-009Open hybrid mem 25-012Open hybrid mem 30-012Open hybrid mem 30-009Open hybrid mem 35-006Open hybrid mem 30-006 ... Show all

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