乌克兰能源作物产热的高效生物质价值链

Q3 Earth and Planetary Sciences

Energetika Pub Date : 2018-09-14 DOI:10.6001/ENERGETIKA.V64I2.3782

O. Tryboi

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引用次数: 2

摘要

本文的目的是利用特殊种植的能源作物的固体生物质确定最节能的价值链，以及影响其能源效率和环境可持续性的最重要参数。采用生命周期评估(LCA)方法确定能源作物产热价值链的能源效率。根据该方法，产品系统的范围包括种植能源作物的原料循环和热能转化与生产的子系统。选取累积能源需求和能源产出系数作为能效指标。并与使用天然气的类似产品体系进行了比较。不可再生能源产出系数用来定义能源产出大于不可再生能源投入的多少倍。对两种能源作物进行了评价:以芒草为典型的专种草质能源作物，以柳树为典型的专种木本能源作物。在乌克兰种植能源作物，用于随后以木片的形式生产生物燃料，并在生物燃料锅炉中燃烧，这在能源上是有效的，Miscanthus木片的最大运输距离为400公里，柳树木片的最大运输距离为180公里。

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Efficient biomass value chains for heat production from energy crops in Ukraine

The purpose of the paper is to identify the most energy efficient value chains using solid biomass of specially grown energy crops and the most significant parameters affecting their energy efficiency and environmental sustainability. The methodology of Life Cycle Assessment (LCA) was used to determine the energy efficiency of value chains of heat production from energy crops. According to the methodology, the scope of the product system includes the raw material cycle of growing energy crops and the subsystem of transformation with production of thermal energy. Cumulative energy demand and energy yield coefficient were chosen as energy efficiency indicators. The product system was compared with a similar one using natural gas. The non-renewable energy yield coefficient was used to define how many times the energy output was bigger than the input of non-renewable energy. Assessment was conducted for two energy crops: Miscanthus as a typical representative of specially grown grassy energy crops and willow as a typical representative of specially grown woody energy crops. The growing of energy crops in Ukraine for the subsequent production of biofuel in the form of chips and their combustion in biofuel boilers are energetically effective with a maximum transportation distance of 400 km for Miscanthus chips and 180 km for willow chips.

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来源期刊

Energetika Energy-Energy Engineering and Power Technology

CiteScore

2.10

自引率

0.00%

发文量

期刊介绍： The journal publishes original scientific, review and problem papers in the following fields: power engineering economics, modelling of energy systems, their management and optimization, target systems, environmental impacts of power engineering objects, nuclear energetics, its safety, radioactive waste disposal, renewable power sources, power engineering metrology, thermal physics, aerohydrodynamics, plasma technologies, combustion processes, hydrogen energetics, material studies and technologies, hydrology, hydroenergetics. All papers are reviewed. Information is presented on the defended theses, various conferences, reviews, etc.