模拟沼气与甲烷燃烧特性的比较

IF 0.5 4区 工程技术 Q4 ENERGY & FUELS Ct&f-Ciencia Tecnologia Y Futuro Pub Date : 2009-12-01 DOI:10.29047/01225383.459
C. Díaz-González, A. Arrieta, J. Suárez
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引用次数: 20

摘要

在过去几年中,利用新的可再生能源一直受到特别关注,力求减少我们对化石燃料的依赖以及使用化石燃料所产生的相应环境影响。本文通过GASURE团队开发的计算算法确定了体积由60%甲烷和40%二氧化碳组成的模拟气体的燃烧特性,并将其与纯甲烷特性进行了比较。此外,还论证了这些特性对预混火焰特性现象的影响。这些性质是由理论估计确定的。实验确定了层流爆燃的特征现象(层流爆燃速度、火焰结构、辐射模式)。结果表明,二氧化碳对沼气预混火焰的燃烧性能和层流爆燃速度、火焰结构、气体-甲烷交换性等特征参数有较大影响。火焰结构和燃烧特性的不同导致了所研究气体的辐射模式的不同。
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COMPARISON OF COMBUSTION PROPERTIES OF SIMULATED BIOGAS AND METHANE
The utilization of new renewable energy sources has been of special interest during the past years, seeking to decrease our dependence on fossil fuels and the corresponding environmental impact derived from their use.  The combustion properties of a simulated gas composed of 60% methane and 40% carbon dioxide in volume are determined in this paper by means of calculation algorithms developed by the GASURE team, comparing them to pure methane properties. Furthermore, the effect of these properties on premixed flame characteristic phenomena is demonstrated. These properties were determined by theoretical estimations. The characteristic phenomena (laminar deflagration velocity, flame structure, radiation pattern) are determined experimentally. Results show a high effect of carbon dioxide in the combustion properties and characteristic parameters of a biogas premixed flame such as laminar deflagration velocity, flame structure and gas-methane exchangeability problems. The difference regarding flame structure and combustion properties lead to a difference in radiation pattern of the gases studied.
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来源期刊
Ct&f-Ciencia Tecnologia Y Futuro
Ct&f-Ciencia Tecnologia Y Futuro Energy-General Energy
CiteScore
1.50
自引率
0.00%
发文量
7
审稿时长
>12 weeks
期刊介绍: The objective of CT&F is to publish the achievements of scientific research and technological developments of Ecopetrol S.A. and the research of other institutions in the field of oil, gas and alternative energy sources. CT&F welcomes original, novel and high-impact contributions from all the fields in the oil and gas industry like: Acquisition and Exploration technologies, Basins characterization and modeling, Petroleum geology, Reservoir modeling, Enhanced Oil Recovery Technologies, Unconventional resources, Petroleum refining, Petrochemistry, Upgrading technologies, Technologies for fuels quality, Process modeling, and optimization, Supply chain optimization, Biofuels, Renewable energies.
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