半碳化技术改善木质生物质颗粒的热能特性

Journal of High Temperature Society Pub Date : 1900-01-01 DOI:10.7791/JHTS.33.38

Kenji Ishimura, T. Ida, M. Fuchihata, T. Honjo, H. Sano

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引用次数: 4

摘要

生物质颗粒公用事业在北欧很受欢迎，如颗粒炉和锅炉等。但是，在社会环境和地理条件下，我们在木材生物质利用方面存在很多问题。特别是，生物质从山区向用户侧运输海岸移动的增加。因此，我们必须在移动的基础上改善生物质的热能特性。该技术是改善生物质热能特性的新型碳化技术。该技术通过热压方式控制加热温度和压力。生物质的基本性质表现为热分解和最终分析。在这些结果中，我们建议发生半碳化现象，以改善热能。半碳化现象开始于大约540K的锯末和580K的纤维素。总热值在高温下突然增加。木屑可能表明发生在较低的40K，以比较纤维素。

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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Improvement for Thermal Energy Characteristics of Wood Biomass Pelletized Using a Half Carbonized Technology

Biomass pellet utilities are popular in North European as a pellet stove and boiler et al. But, we have a lot of problem on wood biomass utilities in social situations and geography conditions. Especially, to move of biomass from mountain area to user side transportation coast rises. Therefore, we have to improve for thermal energy characteristics in biomass based on moving. This technology is new carbonized technology for improvement of biomass thermal energy characteristics. This technology controls heated temperature and pressed force by hot-press method. Fundamental properties of biomass show thermal decomposition and ultimate analysis. In these results, we suggest to occur a half carbonized phenomena for improvement of thermal energy. Half carbonized phenomena begin approximately 540K in sawdust and 580K in cellulose. And, total calorifi c value suddenly increases in these heated temperatures. Sawdust could suggest occurring lower 40K to compare cellulose.

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Journal of High Temperature Society

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