Pompe à chaleur géothermique commerciale à haute température 145~210KW
- High-temperature industrial hot water
- Outlet water 90°C temp.
- Protocole Modbus est intégré pour être contrôlé par n'importe quel autre contrôleur modbus externe. Prise en charge de la commande centralisée.
- Source de chaleur : eau souterraine, eau de lac et même eau de mer.
- Norme européenne inverseur de pompe à chaleur
Nous avons obtenu les certificats : TUV ISO9001, ISO45001 (santé et sécurité), ISO14001 (environnement), TUV EN14825( A+++), TUV CE , TUV CB, 38 brevets de techniques de produits, 66 certificats de récompense du gouvernement.
Working principle
The energy of the ground source heat pump system comes from the underground energy. It is considered to be currently the most environmentally friendly and most efficient heating and cooling system
- Most energy saving heat pump to utilize the Geothermal, underground water, lake water even sea water heat source.
- Work well in any super cold weather. No capacity loss in even minus -45°C air temp.
- Elegant and Compact size
Wifi & Modbus
Additional 2nd Switch function interface enable to control the heat pump through any other thermostat or switch for convenient control.
Weekly on/off timers (different for each day) help to choose the lowest electricity price working time to save bill.
Wifi cloud remote control function to check heat pump status and control your heat pump on mobile phone.
Modbus protocol and RS485 port for your new controller and PC control
Routine Legionella function (Killing bacteria) .
Kolant Geothermal water source heatpump Benefits
High energy efficient
*High energy efficient:
La température du sol étant relativement stable, l'efficacité du transfert de chaleur des systèmes de pompes à chaleur géothermiques est très élevée. La consommation d'énergie est inférieure de 40~60% à celle des climatiseurs centraux et des chaudières à gaz.
* Respect de l'environnement et propreté.
Système de pompe à chaleur géothermique, pas de chaudière, pas de produits de combustion. Très propre et à faible émission de carbone.
* Confortable et peu bruyant.
Il s'agit d'un système à eau, la température est stable et confortable. Très peu bruyant car il fonctionne sans ventilateur.
* Multifunction.
Heating, cooling and hot water in one solution, heat recovery function is also available. One unit can satisty most of the demands.
Used widely
It can be widely used with all type of water sources. Lake, underground water,sea, and even wasted water
Close loop
The energy of the ground source heat pump system comes from the underground energy. It is considered to be currently the most environmentally friendly and most efficient heating and cooling system
Kolant Geothermal water source heatpump strength
Space saving
No need of cooling tower, boiler room and other outdoor equipments. Indoor fan coil system are also much slim than traditional VRF system.
*Flexiable and reliable operation. It can work for heating or hot water only, or A/C + DHW. Working condition is stable, no capacity decreasion even in the coldest winter.
Simple control
*Long lasting life time. working condition is very stable and mild, the lifetime of water source heat pump is much longer than A/C and boiler.
*Simple control and low maintance cost. The unit is automaticlly controled by the program,easy to operate. Working condition steable no over high or over low pressure problem.
Applications
It can produce hot water at high temperatures and has a wide range of applications, such as in high-temperature heating, high-temperature drying, high-temperature industrial manufacturing processes, and scenarios of waste heat or exhaust heat recovery, etc.
Données techniques
| Modèle | SYRB-1500EH/SN3 | SYRB-2100EH/SN3 | |
| Heat Pump Operation 1 (Hot Water) | Puissance calorifique nominale (kW) | 145 | 210 |
| Rated Heating Input Power (kW) | 40 | 52 | |
| COP (Coefficient of Performance) | 3.63 | 4 | |
| Heat Pump Operation 2 (Hot Water) | Puissance calorifique nominale (kW) | 115 | 170 |
| Rated Heating Input Power (kW) | 36 | 50 | |
| COP (Coefficient of Performance) | 3.19 | 3.4 | |
| Heat Pump Operation 3 (Hot Water) | Puissance calorifique nominale (kW) | 163 | 220 |
| Rated Heating Input Power (kW) | 35 | 45 | |
| COP (Coefficient of Performance) | 4.65 | 4.89 | |
| Heat Pump Operation 4 (Hot Water) | Puissance calorifique nominale (kW) | 123 | 180 |
| Rated Heating Input Power (kW) | 32 | 43 | |
| COP (Coefficient of Performance) | 3.84 | 4.19 | |
| Heat Pump Operation 5 (Hot Water) | Puissance calorifique nominale (kW) | 135 | — |
| Rated Heating Input Power (kW) | 43 | — | |
| COP (Coefficient of Performance) | 3.14 | — | |
| Réfrigérant | Type | R515B | R134a |
| System Number | 2 | 2 | |
| Control Method | Microcomputer | Microcomputer | |
| Compresseur | Modèle | Screw Type | Screw Type |
| Quantity (Units x HP) | 2 (2X25HP) | 2 (2X25HP) | |
| Évaporateur | Form | Plate Type | Plate Type |
| Débit d'eau (m³/h) | 20 | 30 | |
| Pressure Drop (kPa) | 50 | 60 | |
| Water Inlet Diameter | DN65 | DN65 | |
| Connection Method | External Thread | External Thread | |
| Condenseur | Form | High Efficiency Tube | High Efficiency Tube |
| Débit d'eau (m³/h) | 25 | 36 | |
| Pressure Drop (kPa) | 50 | 60 | |
| Water Inlet Diameter | DN80 | DN80 | |
| Connection Method | Flange | Flange | |
| Product Dimensions (L x W x H mm) | 1600x1200x1200 | 1600x1200x1200 | |
| Safety Protection | High/Low Pressure/Anti-freeze/Overheat Protection | ||
| Machine Noise (dB(A)) | 65 | 66 | |
Installation cases
