We
provide a broad range of solutions to meet your requirement and
save your money. Check the following to see if there is any solution
you are looking for. |
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| Energy Saving for Fresh Water-cooled Chillers | ||||
Chiller is the biggest electricity bill contributor in commercial buildings, hospitals or many complexes. In a typical design, It consumes 70%-90% of a chiller plant when it is a fresh water-cooled system (other energy contributors in the plant being the chilled water pumps, condensing water pumps and cooling tower fans). Chiller plant in turn contributes 40%-60% of total electricity consumption. Therefore any improvement in energy efficiency of chillers can significantly cut your energy cost. Click here to find out a cost effective, convenient, reliable, environmental friendly and comprehensive solution.
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| Bacteria Killing (especially Legionella) in Cooling Tower Systems | ||||
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Fresh water-cooled systems becoming popular nowadays due to its high energy efficiency. However the open condensing water circuit introduces some problems incliding bacterial growth. It could be a design problem (method of water treatment, dead leg in pipe work or the use of cooling tower basin with dead area etc...) or maintenance problem (no fault alarm on shortage of chemicals, no attention or cleaning to the cooling towers and strainers etc...). Click here for a complete solution for the problem. |
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| Energy Saving for Seawater-cooled Chillers | ||||
Once through seawater-cooled chiller has the highest efficiency amid water-cooled systems because of the relatively stable and low seawater temperature. However the treatment of seawater imposes difficulty to users. If it is not treated properly, biofilm developed on the condenser tubes resists heat transfer from refrigerant to seawater. If too concentrated chemicals are used, the seawater environment can be destroyed. In fact the discharge of chemicals such as chlorine is regulated by local government to preserve the environment. To maintain a seawater-cooled chiller in its highest efficiency without affecting by the biofilm problem, click here.
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| Energy Saving for Steam Boilers | ||||
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Steam boiler is one of the high energy consumer in hotels, hospitals, food & beverage productions and other industrial processes no matter it is a gas fuel, diesel fuel or electrical boiler. Boiler feed water is treated to prevent mineral scale and corrosion or otherwise high energy cost and maintenance cost is resulted. To prevent energy loss due to the formation of mineral scale in a steam boiler, click here to find out your solution. |
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| Energy Saving for Hot Water Boilers | ||||
Hot water boiler is one of the high energy consumer in hotels, hospitals, food & beverage productions and other industrial processes no matter it is a gas fuel, diesel fuel or electrical boiler. Boiler feed water is treated to prevent mineral scale and corrosion or otherwise high energy cost and maintenance cost is resulted. To prevent energy loss due to the formation of mineral scale in a hot water boiler, click here to find out your solution. |
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| Cost Saving for Swimming Pools | ||||
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Swimming pool water is normally treated by chlorine at 1-3ppm or more advanced 650mV-750mV ORP. Many of the pools also use ozone to kill bacteria in order to reduce the consumption and side effects of chlorination. However the adoption of ozone consists of components including ozonator, reaction tank and carbon filter which not only increases the initial investment but also the running cost of the system such as energy charge and maintenance cost. To reduce the use of chlorine while keeping a good quality of pool water, click here to see what we can do. |
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