REDUCTION OF NATURAL GAS CONSUMPTION AND REDUCTION OF EMISSIONS WITH COMBUSTION PRODUCTS IN MUNICIPAL HEAT SUPPLY

O. Sigal, N. Pavlyuk, S. Pashyhin
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引用次数: 2

Abstract

The technical solutions are proposed to reduce the consumption of natural gas, as well as to reduce emissions with combustion products in the municipal heat supply systems: - New constructions of water-tube and water-fire-tube boilers with improved technical, economic and environmental characteristics have been developed. Replacing of old boilers with these boilers within Ukraine will provide an economic effect of about 100 thousand tons of fuel equivalent per year. NOx reduction will be up to 35%; - The new temperature mode for heating networks 115/70 oС has been developed, which provides the amount of heat that is adequate to the needs of consumers, and is appropriate for use in cities of the country from an economic point of view. However, the implementation of such reduced temperature mode requires a corresponding change in the general requirements when issuing "Technical Specifications" for connection to district heating systems, necessitates changes in the temperature mode values in other documents, for example the general plan of the city, as well as the possible need to change the calculated heat loads in concluded contracts for heat supply to consumers.  Nevertheless, the correction of temperature modes of cities should be considered as one of the possible measures to improve the energy efficiency of heat supply systems; - The expediency of partial replacement of natural gas in the municipal heat supply systems of large cities of Ukraine with municipal solid waste (MSW) has been proved. The ways of improving the efficiency of mixed MSW combustion in conditions of country, including the extraction of "wet" biowaste from the total mass of mixed MSW with using a separate collection. are determined; - To achieve compliance with the new more stringent European environmental standards, the highly efficient devices for cleaning combustion products from particulate matter and sulfur oxides have been developed. The efficiency of dust removal in centrifugal filters is 90...98%, in cyclone dust collectors - 90...93%. Desulfurization efficiency is up to 50%.
市政供热减少天然气消耗,减少燃烧产物排放
提出了减少城市供热系统天然气消耗和减少燃烧产物排放的技术解决方案:-开发了技术、经济和环境性能得到改善的新型水管和水火管锅炉。在乌克兰境内用这些锅炉替换旧锅炉将提供每年约10万吨燃料当量的经济效益。氮氧化物减排高达35%;-为115/70 oС供热网开发了新的温度模式,它提供的热量足以满足消费者的需要,并且从经济角度来看适合在该国的城市使用。然而,实施这种降低温度模式需要在发布区域供热系统连接的“技术规范”时对一般要求进行相应的更改,需要更改其他文件中的温度模式值,例如城市总体规划,以及可能需要更改已签订的消费者供热合同中的计算热负荷。然而,城市温度模式的修正应被视为提高供热系统能源效率的可能措施之一;-已证明用城市固体废物(MSW)部分替代乌克兰大城市城市供热系统中的天然气的便利性。在农村条件下提高混合城市生活垃圾燃烧效率的方法,包括从混合城市生活垃圾的总质量中提取“湿”生物垃圾,并使用单独收集。确定;-为符合新的更严格的欧洲环境标准,我们开发了清洁燃烧产物中颗粒物质和硫氧化物的高效设备。离心过滤器的除尘效率为90%。98%,在旋风除尘器- 90…93%。脱硫效率达50%以上。
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