All in One Heat Pump (150L)
-Only heating
-Quick and easy installation
-Operating ambient temperature: -10 ℃ to 43 ℃
-Suitable for single toilet, 2-4 people family
All in One Heat Pump (150L)
The core advantages of All-in-One Heat Pump are particularly prominent in the entire heat pump industry. With high-efficiency energy-saving capabilities, the heat pump transfers environmental heat instead of direct heating, achieving an efficiency ratio (COP) of 3-5, saving 40%-70% energy compared to traditional electric heating. Some models use environmentally friendly R290 refrigerant, reaching an A+ energy efficiency rating with a comprehensive energy-saving rate exceeding 75%.
All-in-One Heat Pump can be installed as a multifunctional integrated system, combining compressor, water tank, and control system into one unit, saving installation space for scenarios like villas and hotels. Integration is generally determined by the required installation area. It supports dual-mode cooling/heating, with some models featuring WiFi smart control for remote temperature adjustment.
All-in-One Heat Pump proves highly reliable in both environmental protection and safety, with no combustion process to avoid carbon monoxide leakage risks, meeting international certification standards like CE and ISO9001. It uses compressors from Panasonic and GMCC brands, offering long lifespan and operating noise as low as 45 dB. The working temperature range is typically-7℃°C to 45℃°C, requiring auxiliary heating in low-temperature environments.
Air-source heat pumps require good ventilation to avoid obstructing air intake. Water heater applications cover diverse scenarios: residential/commercial villas, hotels, hospitals, and other facilities requiring stable hot water supply. For applications such as swimming pool heating and industrial hot water supply, customized models (e.g., large-capacity 300L tanks) should be selected There are significant differences between air-source heat pumps and All-in-One Heat Pumps.
Air-source heat pumps extract thermal energy from ambient air, primarily functioning for heating while also providing cooling. Designed with heating priority as the primary operational standard, they can achieve outlet temperatures exceeding 55℃°C, making them suitable for radiator-based heating systems.
