Water Source Heating-Cooling Heat Pumps:
Water Source Heat Pump Technical Specifications:
– Cooling capacities : 10 kw to 40.000 kw.
– Heating capacity : 10 kw to 50.000 kw.
– Summer welding circuit operating temperatures: 15 ºC up to 45 ºC.
– Summer greenhouse circuit operating temperatures: 5 ºC – 20 ºC can produce cold water in the range.
– Winter welding circuit operating temperatures: 10 ºC to 50 ºC range.
– Winter greenhouse circuit operating temperatures: They can produce hot water from +30 ºC to 150 ºC.
Special industrial type heat pumps that produce steam from -165 ºC to 200 °C are available.
– Operating efficiencies are between 300% – 610% for summer, depending on the welding temperature.
– Winter seasonal operating efficiencies are between 320% and 516% depending on the source temperature.
– Refrigerants are widely used in the system.
– The compressors used in the system are Scroll or screw type compressors.
– The system can be 2-pipe, 4-pipe, 6-pipe type.
– Areas of use: It is used for air conditioning in all kinds of buildings, especially for domestic use.
-Electricity Supply 380V- 50 Hz – 3 Phase
-Since Air – Water Source Heat Pumps are capable of heating-cooling, they can also cool the greenhouse in the summer period. Therefore, it is a system with wider usage possibilities.

Air Source Heat Pump System Utilization
Air Source Heat Pump Technical Specifications
– Cooling capacities: 10 kw to 1,500 kw.
– Heating capacity: 10 kw to 1,750 kw.
– Summer outdoor operating temperatures: Can operate up to +50 ºC.
– Summer water circuit operating temperatures: It can produce water in the range of 5-20 ºC.
– Winter operating temperatures: It can operate in the range of -35 ºC, +20 ºC outside air.
– Winter water circuit operating temperatures: +30 ºC to 180 ºC hot water.
– Working efficiency for summer: %220-%.
– Winter seasonal operating efficiencies: 210% to 410%.
– Refrigerants are widely used in the system.
– The compressors used in the system are Scroll or screw type compressors.
– The system can be 2-pipe, 4-pipe, 6-pipe type.
– Areas of use: It is used for air conditioning in all kinds of buildings, especially for domestic use.
– Electricity supply 380V- 50 Hz – 3 Phase

Air-Water Source Heat Pumps:
Heat pumps are a multi-purpose, easy-to-use, low-maintenance system that has been widely used for 30 years in our country’s conditions, which creates a wide range of usage opportunities for the operator, although the initial investment cost is high. Especially the recent world energy crisis has increased the use of these systems much more. Operating costs are low. (It is a system with zero operating cost with solar energy). If there is a water supply in the area where the greenhouse is to be built, using water-source heat pumps further reduces operating costs.
-Water source heat pump seasonal efficiency SCOP: 3 – 6.0 kw/kw
-The seasonal efficiencies of air source heat pumps are between SCOP: 2.2 – 4.3 kw/kw.

Ground Source Heat Pumps:
It is an environmentally friendly heating system used to meet the heating, cooling and hot water needs of greenhouses, buildings and other structures. These systems take advantage of the constant temperature difference in the soil. The soil has a constant temperature throughout the year, so ground source heat pumps can save energy without harming the environment. Ground source heat pumps are of two main types: closed and open loop systems. Closed loop systems use a fluid that circulates in the ground through a closed pipeline. Open loop systems use natural water sources such as groundwater or surface water. Closed-loop systems absorb heat from the soil through pipes under the ground. The liquid in these pipes is circulated by the heat pump and the heat pump uses energy to increase its heat. During the heating season, this heat is used for heating greenhouses, buildings and other structures. During the cooling season, this process is reversed and the hot air is returned to the pipes in the ground. Open loop systems suck water from natural water sources such as groundwater or surface water and use it for heating or cooling. In these systems, water is sucked in by the heat pump and heated or cooled. The heat pump uses this heat for heating or cooling the home or building. Ground source heat pumps are becoming increasingly popular due to their energy saving, environmental friendliness and low operating costs. However, installation costs can be high and it is important that systems are designed and installed correctly.

Heating capacity: Heating capacities of ground source heat pumps can vary depending on the model and size. This capacity depends on the size of the area that can be heated per unit time. COP (Coefficient of Performance): COP is a parameter that measures the efficiency of the heat pump. Ground source heat pumps provide energy efficiency with high COP values and consume less energy than other heating systems.

Sound level: Heat pumps produce noise when they operate. Ground source heat pumps can operate more quietly than other heat pumps.

Size: Ground source heat pumps can be produced in different sizes depending on the size of the area that can be heated per unit time.

Sensitivity to air temperature: Heat pumps are sensitive to the outside air temperature. Ground source heat pumps are less affected by fluctuations in air temperature and can perform more stably.

Ease of maintenance and repair: Ground source heat pumps are preferable due to their low maintenance needs and long lifetime. They can also be easily repaired when they need to be repaired.

Installation costs: Installation costs for ground source heat pumps can be higher than for other heat pumps. However, in the long run, they can cover these costs as they save energy in the long run.

Electric Boilers:

Electric boilers are a heating system powered by electrical energy. It is usually used for heating small and medium-sized structures such as houses, apartments, offices and other commercial buildings. Electric boilers are more environmentally friendly and easier to install than gas or other fossil fuel boilers. Electric boilers have a simple design and heat water using a heating element. This heating element is a resistor that heats the water and heats the water inside the boiler. Electric boilers require a continuous supply of electricity to heat the water.

Electric boilers offer some advantages over other heating systems. Electric boilers, for example, do not need a fuel supply and are therefore easier to install and use. In addition, electric boilers are quieter and require less maintenance than other heating systems. However, since electric boilers operate using electrical energy, they can cause high electricity bills. Furthermore, the heating capacity of electric boilers is limited and may not be sufficient for heating large buildings. Professional electric boilers used in larger areas have higher capacity and are more durable. These boilers are designed for industrial or commercial use and are often used in large buildings, factories, hospitals, hotels or other large facilities. Such boilers can be of various types, capable of producing low-pressure steam or hot water. For example, there are different types such as water tube boilers, fire tube boilers, electric steam generators or combination boilers. Professional electric boilers vary in technical specifications, capacities, powers and sizes and can be customized according to the project. Moreover, some models have features that ensure lower energy consumption, higher efficiency and lower emissions. However, due to the high cost of such boilers and their larger space requirements, they may not be suitable for smaller buildings. However, in large-scale installations, electric boilers are often preferred for their energy efficiency and ease of maintenance.

Food Drying Set
Fruit and vegetable dryer heat pump set is one of the room (cabinet) type drying systems and the drying process is done with heat pump technology. A fruit and vegetable dryer heat pump is a device that transfers heat from a colder space (ambient temperature) to a warmer space (drying cabinet) using mechanical energy, as in a refrigerator. The PLC Control System on it allows you to dry the desired product at the desired degree and humidity. Food dryer heat pumps provide efficient drying by raising the drying cabinet they are in up to 65°C.

How does it work?
The products to be dried are placed in hygienic drying crates suitable for food drying placed inside the drying cabinet. With the desiccant heat pump, the ambient temperature inside the cabinet is max. 65°C or the desired lower temperature. Thanks to the fans inside our drying cabinet, the heat from the device is evenly circulated into the drying cabinet and drying takes place. The water in the food products placed in the crates begins to evaporate as the environment warms up. The vaporized water is transported by fans to the heat pump, where it becomes liquid.

How to Moisturize the Product?
Thanks to the humidity control system in the heat pump, it is discharged as water without losing the heat inside the drying cabinet. In this way, the product drying process is carried out at the desired moisture values. There are 2 dehumidification circuits in our system. 1.system dehumidifies as a closed system. Humidity
condenses (turns into water) and expels it. The 2nd system removes moisture as a heat recovery system. If the humidity inside is too high and closed-circuit dehumidification is not sufficient, dehumidification is provided by heat recovery. Keeping the product at the desired humidity is directly proportional to the recipe you enter into the plc control system.

Why Heat Pump Drying
Among the fruit drying methods, apart from the traditional methods, there is also the heat pump fruit drying method, which is both hygienic and cheap. Food dryer heat pump is realized by drying food in hygienic drying crates in a closed environment away from dust, dirt and dirt.
– It is 40% to 80% more economical than fossil fuels.
– It reduces the humidity without expelling the hot air inside and there is no heat loss.
– There is no change in the taste and smell of dried foods.
– Drying is done in a hygienic environment.
– It does not pose any danger such as explosion, combustion or poisoning.
– Installation is simple and quick.

What can be dried?
– Fruits,
– Vegetables,
– Seafood,
– Meat and Chicken Products,
– Flowers and Leaves etc.

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