First of its kind in Hong Kong - innovative reuse of treated effluent and enhanced energy efficiency for air-conditioning systems

Carry P S Cheung, David S W Pun, Raymond Y F Tong, K. Hui
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Abstract

In Hong Kong, air-conditioning (A/C) systems are major consumers of electricity. Although water-cooled air-conditioning systems (WACSs) are more energy efficient, the need for water towers, water treatment and other operation and maintenance (O&M) demands restrain their application in most buildings. This paper reviews a pilot application of treated effluent from sewage treatment works as a cooling medium for the Direct Expansion type of A/C system within the treatment Plant. The Drainage Services Department (DSD) installed a WACS with a self-assembled effluent-cooled condenser to study the energy efficiency, cooling performance and actual O&M requirements of the new system over a one-year pilot. It revealed that an energy saving of up to 27.6% per year could be achieved when compared with a conventional air-cooled air-conditioning system (AACS). This innovative effluent cooling A/C system achieves innovative reuse of treated effluent as well as reduction in carbon footprint as a result of higher energy efficiency for sustainable development.
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这是全港首个以创新方式再利用经处理的污水及提高空调系统的能源效益的项目
在香港,空调系统是耗电量的主要来源。虽然水冷空调系统(wacs)更节能,但对水塔、水处理和其他操作和维护(O&M)的需求限制了它们在大多数建筑物中的应用。本文综述了污水处理厂处理后的废水作为直接膨胀式空调系统冷却介质的中试应用。渠务署(渠务署)在为期一年的试验期内,安装了一个装有自组装式污水冷却冷凝器的污水净化系统,以研究新系统的能源效益、冷却性能和实际的操作及保养要求。报告显示,与传统的风冷空调系统相比,每年可节省高达27.6%的能源。这种创新的污水冷却空调系统实现了处理污水的创新再利用,并减少了碳足迹,从而提高了能源效率,促进了可持续发展。
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来源期刊
Transactions Hong Kong Institution of Engineers
Transactions Hong Kong Institution of Engineers Engineering-Engineering (all)
CiteScore
2.70
自引率
0.00%
发文量
22
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