煤粉与煤/生物质共烧的工业尺度辐射热通量测量比较

ASME Open Journal of Engineering Pub Date : 2023-01-01 DOI:10.1115/1.4056537

T. Draper, A. Gunnarsson, Andrew Fry, K. Andersson, T. Ring, E. Eddings

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摘要

本研究评估并比较了美国犹他州Hunter电厂471 - MWE机组3公用事业锅炉在煤和生物质共烧标准运行期间的辐射传热测量结果。使用的煤是来自犹他州的烟煤，与碳化木材(重量15%)混合进行共烧试验。火焰的辐射是用三种不同设计的辐射计测量的。数据是沿着锅炉壁在三个高度收集的。总的来说，测量的热通量和相应的时间变化随锅炉标高的增加而减小。虽然热通量数据重复的变化是显著的，但统计分析表明，所调查的海拔高度的热通量分布不受燃料变化的显著影响。

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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A Comparison of Industrial-Scale Radiometer Heat Flux Measurements Between Pulverized-Coal and Coal/Biomass Co-Firing Combustion

This work evaluates and compares radiative heat transfer measurements conducted at the 471−MWE Hunter Power Plant Unit 3 utility boiler in Utah, United States, during standard operation with coal and also co-firing with biomass. The coal used was a Utah-sourced bituminous coal, which was mixed with torrefied wood (15% by weight) for the co-firing test. Radiation from the flame was measured using radiometers of three different designs. Data were gathered at three elevations along the boiler wall. Overall, the measured heat fluxes and corresponding temporal variations decreased with increasing boiler elevation. While the variation in the replicates of the heat flux data is notable, a statistical analysis indicates that the heat flux profile at the elevations investigated is not significantly affected by the change in fuel.

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ASME Open Journal of Engineering

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