Building waterpower ash storage site on goaf is the first example at home.
采空区上建水力贮灰场在国内首例。
It is realized by referring to a system formed by an ash bucket, ash storage pump, ash transporting pipe, and the air make-up pipe for compressed air.
该方法借助于灰斗、灰仓泵、输灰管、压缩气补气管组成的系统实现。
Recent years, our country greatly adopts dry ash storage field in the thermal power plant, but there are few interrelated standards about operation and management.
近年来,火力发电厂贮灰场大量采用干贮灰场,但我国关于干贮灰场运行管理的规程规范却很少。
The paper introduces design of ground structure of dam body and gallery. It has a certain guiding meaning for design and study of structure of building waterpower ash storage site on goaf.
介绍了此灰场坝体、廊道等灰场的地基结构设计,对采空区上建立水力贮灰场的结构设计研究具有一定的指导意义。
The methods can supply reasonable design standards for ash field storage to control water-pollution problems as a result of ash water discharge.
该方法可以为电厂灰场库容设计提供合理的标准,从而控制由于灰水排放所造成的潜水层污染问题。
Large amount of fly ash would be formed in coal-fired power plant and the fly ash need large scale storage with dust.
燃煤电厂生产过程中产生大量的灰渣,灰渣存放需占用大片土地,并产生严重的扬尘问题。
Large amount of fly ash would be formed in coal-fired power plant and the fly ash need large scale storage with dust.
燃煤电厂生产过程中产生大量的灰渣,灰渣存放需占用大片土地,并产生严重的扬尘问题。
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