01 Monowell 8 kW Air Source Monoblock Heat Pump
OUR AIR-SOURCE MONOBLOCK HEAT PUMP PRODUCTS
Monowell Series
Monoblock
16 kW Heat Pump
8 kW MONOWELL AIR-SOURCE MONOBLOCK HEAT PUMP
MODEL: AMM1-RPTH-8RN
8 kW nominal heating power (*A7°C/W 35°C) and cooling power (*A35°C/W 18°C)
A+++ Energy Efficiency Class (*A7°C/W 35°C)
It can be easily installed without the need for gas piping with its single-body design
Hot water usage with an external boiler attachment
It can provide outlet water temperatures of up to 65°C
It can be remotely controlled via the internet and an indoor thermostat
It has the lowest energy consumption in its class due to its frictionless operation principle
It offers electric/heat efficiency with COP values of up to 5
Suitable for placement on balconies and in front of windows with its ergonomic design
It does not disturb the environment with its uniquely low noise level in its class
It is environmentally friendly and sensitive to nature, using R410 refrigerant
It is suitable for home electricity with its single-phase (220-230V/50Hz/1Ph) electrical connection feature
Our products offer greater efficiency than the current top technology, inverter systems with the "Refrigerant Pressure Boosting Technology (RPTH)" we have developed
Easy Manufacturing and Technical Information Kit Layouts
OUR OTHER HEAT PUMPS AND PRODUCTS
MONOBLOCK HEAT PUMPS
02 Documents
Respressor Heat Pumps and Cooling Systems
As an innovative company in the heat pump and cooling devices sector, Respressor offers cutting-edge solutions in energy efficiency and sustainability. With our extensive R&D experience and engineering expertise, we develop and manufacture high-quality products that combine comfort and performance
The Principles and Techniques That Define Us
The innovative solutions we offer in heat pump technology are shaped by the core principles and techniques we rigorously adhere to. We aim for the highest standards in energy efficiency, sustainability, and user-friendly design. In our R&D process, we utilize advanced engineering and material science applications to deliver performance and reliability that exceed industry standards. Additionally, we adopt eco-friendly manufacturing techniques to minimize environmental impact, making a significant difference in the industry with our innovative design approach. These strategies enhance both our technological superiority and the value we provide to our customers
We're Together for Nature and Future!
Let's reduce our carbon footprint together to leave a livable world for ourselves and future generations
Monowell AMM1-RPTH-12RN
Heat Pump 12 kW
Monowell AMM1-RPTH-16RN
Heat Pump 16 kW
Monowell AMM3-RPTH-16RN
Heat Pump 16 kW
Monowell AMM3-RPTH-20RN
Heat Pump 20 kW
Splitwell ASS1-RPTH-12RN
Heat Pump 12 kW
Splitwell ASS1-RPTH-16RN
Heat Pump 16 kW
Splitwell ASS3-RPTH-16RN
Heat Pump 16 kW
Splitwell ASS3-RPTH-20RN
Heat Pump 20 kW
Heat pumps are systems that extract heat energy from one source and transfer it to another in a usable form. These systems are widely used in both heating and cooling applications. Typically, they use heat extracted from external sources such as air, water, or ground for heating and cooling purposes, and transport this heat energy to your living spaces using modern heat cycles. Heat pumps stand out as the optimal and environmentally friendly heating and cooling solution for both today and the future, known for their energy efficiency.
Heat pumps operate with a thermodynamic cycle. Their main components are:
-
Evaporator (Heat Exchanger): This is the point where the heat pump absorbs heat from the external environment (air, water, or ground). A refrigerant fluid (typically an HFC gas) evaporates as it absorbs heat in this area.
-
Compressor: It compresses the vapor taken from the evaporator, increasing its pressure and temperature. This process raises the temperature of the vapor before it is directed to the heater.
-
Heater (Convector): The compressed vapor is used to heat the indoor space or produce hot water. The heat contained in the vapor is converted into usable thermal energy at this stage.
-
Expansion Valve: It reduces the pressure and temperature of the compressed vapor. This process allows the refrigerant fluid to return to the evaporator, enabling it to absorb heat from the external source once again in the indoor cycle
-
The efficiency of heat pumps is measured by a value called COP (Coefficient of Performance). COP is the ratio of the heating or cooling capacity provided by the heat pump to the electrical energy it consumes. Generally, the higher the COP value of a heat pump, the more efficient it is considered to be. For example, if a heat pump has a COP of 4, it means that for each unit of electrical energy used, it provides four units of heating or cooling capacity.
The main advantages of heat pumps are:
-
Energy Efficiency: They reduce electricity consumption by using heat energy extracted from the external environment with high efficiency.
-
Environmental Friendliness: They decrease the carbon footprint and reduce environmental impact by minimizing the use of fossil fuels.
-
Flexible Application: They adapt to different climates and usage conditions, making them suitable for various locations.
-
Heat pump technology is continually being developed and innovated. With advancements such as more efficient compressors, smart control systems, and more environmentally friendly refrigerants, the efficiency and performance of heat pumps are being enhanced.
Heat pumps stand out as a significant heating and cooling solution due to their energy efficiency, environmental friendliness, and wide range of applications. With technological progress, the widespread adoption and broader use of these systems have become commonplace.