Estudio del régimen de combustión sin llama ante la variación de la carga térmica

Ingenieria y Ciencia Pub Date : 2017-04-25 DOI:10.17230/INGCIENCIA.13.25.8

Juan Diego Lopera Echavarría, Andrés Adolfo Amell Arrieta

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引用次数: 6

Abstract

The present study evaluated numerically and experimentally in a 20 kW furnace (using natural gas as fuel and with an equivalent ratio of 1.2) the stability of the flameless combustion regime due to the fluctuation of the thermal load through the use of different air flow (43 scfm, 63 scfm y 83 scfm) and an Air-Helium mixture (Air 82.02 scfm and Helium 7.06 scfm); the last one it was used to evaluate the behavior of the system in the face of an increase in the load fluid specific heat capacity. The study was divided in two parts, numerical simulation and experimental phase. From the numerical simulation was calculated the temperature profile, CO profile, the recycle ratio Kv and the mass of flue gases recirculated. In the experimental phase the temperature profiles obtained showed a decrease in the temperature of the combustion chamber as the load air flow increased however, this decrease did not affect the thermal uniformity inside of the furnace. Furthermore the useful efficiency showed an increase when went over from a load air of 43 scfm to 63 scfm, followed by a decrease of it with the other load flows.

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无焰燃烧条件下热负荷变化的研究

本研究在一个20 kW的炉中(以天然气为燃料，当量比为1.2)，通过使用不同的空气流量(43 scfm, 63 scfm和83 scfm)和空气-氦气混合物(空气82.02 scfm和氦气7.06 scfm)，评估了由于热负荷波动引起的无焰燃烧状态的稳定性;最后一个是用来评估系统的行为，面对增加的负载流体比热容。研究分为数值模拟和实验两部分。通过数值模拟计算了温度分布、CO分布、再循环比Kv和再循环烟气质量。在实验阶段，得到的温度分布表明，随着负载风流量的增加，燃烧室温度有所下降，但这种下降并不影响炉内的热均匀性。从43 scfm的负荷气流过渡到63 scfm的负荷气流，有效效率有所提高，但随着负荷气流的增加，有效效率有所降低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Ingenieria y Ciencia

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审稿时长

5 weeks