Detailed Product Description

     Water Source Heat Pump utilizes surface water or shallow seated groundwater ( underground water, rivers and lakes) or artificially regenerated water source ( like industrial waste water, geothermal zone water, urban sewage etc.) to create a high efficient and energy-conserving green system for cooling and heating.

    Working Principle of Water Source Heat Pump
    Water Source Heat Pump creates a cooling and heating system by extracting energy from natural water. In winter, water temperature is higher than that of air, therefore, the evaporating temperature in heat pump cycle is raised to create higher energy efficiency ratio than that of air-cooled heat pump system whose efficiency is greatly hampered by defrosting. While in summer, water temperature is lower than that of air, therefore, condensing temperature in cooling situation is lowered to create a better performance than that of air-cooled type and cooling tower. In general, the efficiency of the chiller is greatly improved. 
          
  Features of Water Source Heat Pump Air conditioning
(1). No burning, smoke, pollutant or polluting gas discharged
      Free from heat and noise pollution in cooling tower and air-cooled heat pump chiller.
(2). No waste or contamination of water resource
(3). Renewable energy sources application technology promoted by the state.
(4). Outstanding energy-saving effect
 
In general, well-designed water source heat pump central conditioning system saves up to 40% of energy than traditional system. 
   
  Types of Waster Source Heat Pump Technology System
  Depending on different hot and cold source, the water source heat pump system technology can be divided into groundwater system, buried pipe system and surface water system.

  Our Technological Advantages
  (1). The main unit is customized according to our specifications to ensure it fits into the surface water regime as well as our control requirements and the functions designed for the building. 
 (2). The integrated system is designed to run under adverse temperature reliably and steadily.
 (3). Specialized water treatment to ensure the quality of the surface water meet the operating requirement of the main unit.
 (4). Design and control strengthens the systems capacity against freezing under extreme temperature.
 (5). The system applies independently designed late-model all heat recovery or system heat recovery methods to ensure cheap supply of domestic hot water while cooling in summertime, and abundant hot water supply in winter.
(6). The design gives full consideration to the consumption reducing measures in all heat recovery mode.
(7). The system gives full consideration to the load reducing measures during rainy seasons and flood season.

    The first-stage of construction of the new campus, adjacent to the Yongjiang River, covers 300 acres. Making full use of the rich water resources in the river, our own-developed system is designed to provide hot water for 10, 000 students and central air-conditioning for buildings of 90,000 square meters (including office buildings, teaching buildings, cafeteria, and dormitory etc). the project is under construction.