The paper mainly introduces the technical characteristics of the high temperature air combustion(HTAC) technology.
介绍了高温空气燃烧技术的特点及在韶钢加热炉上的具体应用。
The paper mainly introduces the technical characteristics of the high temperature air combustion (HTAC) technology.
系统研究了高温空气燃烧技术改造均热炉的各种方案。
This paper describes some questions of needing settle meat about appliance HTAC to ladle furnace, And it exceed some beneficial research of settle those questions.
本文论述了蓄热式高温空气燃烧技术在环形炉上应用急待解决的几个问题,并就解决这些问题提出了一些有益的探索。
The regenerative HTAC is a new generation technology for high efficient energy- saving and environment protection, in which the regenerative honeycomb is the key one.
蓄热式高温空气燃烧技术(HTAC)是新一代高效节能、环保技术,而其中的蓄热式蜂窝体是该项技术的关键。
This paper simulates the thermal process of a new style magnesium reduction furnace that has been developed with the technology of High Temperature Air Combustion (HTAC).
本文模拟计算了新设计开发的蓄热式金属镁还原炉的热过程。
In the end, the possibilities of application of the HTAC technique to oil - and gas-fired boilers and coal or combustible solid-waste gasification systems were presented.
最后,指出了在燃油、燃气锅炉及煤(或可燃固体废弃物)气化系统中采用HTAC技术的可能性。
High temperature air combustion (HTAC) is a new combustion technology, which can save fuel, enhance the heat efficiency, decrease emission of NOX and reduce the size of equipment.
高温空气燃烧技术是一项新型的高效低污染燃烧技术,具有节约燃料、提高热应用率、降低NOX排放和减少设备尺寸的特点。
For HTAC (Hight Temperature Air combustion) technology, pressure control and pressure fluctuation during combustion switchover are very important to the furnace reliability and stability.
蓄热式燃烧技术中,炉压控制和换向时造成的炉压波动是一个非常重要的问题。
For HTAC (Hight Temperature Air combustion) technology, pressure control and pressure fluctuation during combustion switchover are very important to the furnace reliability and stability.
蓄热式燃烧技术中,炉压控制和换向时造成的炉压波动是一个非常重要的问题。
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