热泵用于热催化反应器供能的可行性

Georgy Ratushnyak, Katerina Anokhina, V. Datsyuk
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引用次数: 0

摘要

用于气体净化的现代热催化反应器必须具有高收率和过程连续性。对于催化清洗,不同的方法与催化剂和功能固化载体协同使用。为了提高热催化反应器的能源效率,采用替代能源,特别是热泵是很有利的。考虑到热泵的优点,特别是编辑简单、经济、自动化、通用性、紧凑、安静、环保、可靠、寿命长等优点,热催化反应器为用热泵将有害物质无害化提供了可能,因为替代能源的引入,使催化剂加热过程成为现实。通过对不同能源的比较,可以确定地源热泵具有相当的功率效率。热泵的应用大大减少了传统能源对热催化反应器中混合物组分加热的费用,提高了清洁过程的能源效率。根据反应器的大小、所需的催化温度、反应器中组分的数量和清泥量的大小,选择热泵的功率是有利的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
FEASIBILITY OF USING HEAT PUMPS IN ENERGYSUPPLY OF THERMOCATALYTIC REACTORS
Modern thermocatalytic rreactors for cleaning of gases must have high yield and to provide continuity of process. For the catalytic cleaning the different on a method co-operating is used with a catalyst and functional setting vehicles. For the increase of energy efficiency of thermocatalytic reactors it is expedient to apply alternative energy sources, in particular, heat-pumps. Taking into account advantages of heat-pumps, in particular, simplicity of editing, economy, automation, universality, compactness, quite, ecofriendlyness, reliability, longevity, a thermocatalytic reactor offers for rendering of harmful extrass harmless with a heat-pump in that due to introduction of alternative energy source, the process of heating of catalyst comes true. It will allow to promote power efficiency of process of heatsupply of thermocatalytic reactors Comparison of different energy sources is executed, it is set as a result, that a geothermal heat-pump has considerable power efficiency. Application of heat-pump substantially reduces the charges of traditional energy sources on heating of components of mixture in a , thermocatalytic reactor and allows to promote energy efficiency of cleaning process. Depending on the sizes of reactor, necessary temperature of catalysis, amount of components in him and volume of muddy mixture that clears up, it is expedient to elect power of heat-pump.
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