Garbage Power Technology of HE Passes NEA Assessment
Recently, the coal-fired coupled garbage power technology of HE has passed the assessment organized by the National Energy Administration (NEA) of China.
The Assessment Board considered the power generation technology of garbage incineration coupling with large coal-fired units independently developed by HE has a clear roadmap and a reasonable and feasible scheme. The technology becomes the first of its kind approved by NEA, marking HE’s leading position in the industry in terms of coal-fired coupled garbage power technology.
According to the Chief Engineer of NEA Mr. Han Shui, the novel “coal-fired coupled garbage power technology” independently developed by HE solves the technical problem of the traditional garbage incinerators, which meets the requirements of the times, and provides a new solution to direct straw burning and municipal refuse disposal, which has established an industry benchmark. The technology should be affirmed and promoted. Next, HE will further deepen the research on capacity match between coal-fired units and garbage incinerators, so as to complete the demonstration project as early as possible and make contributions to the promotion of the energy revolution.
HE’s waste recycling power technology employs the double-chain coupling, fully combines the characteristics of both the garbage incinerators and the large coal-fired units on the precondition of minimum transformation of existing coal-fired units as a whole and based on advantages of the efficient thermal cycle system of large coal-fired units. It has achieved efficient use of the heat produced by burning garbage and reduced equipment input in the flue gas cleaning system of garbage incinerators. The technology can raise the efficiency of power generation through garbage incineration to 31.6%, effectively solve the problems of the units in the traditional garbage incineration power plants, such as high exhaust gas temperature, fly ash contamination and high cost on treatment of Dioxin and other pollutants, increase the garbage recycling efficiency and lower the unit garbage treatment investment and the expenses on operation and maintenance, showing significant energy conservation and environmental protection advantages.