利用小型农场废弃空果束同时生产生物炭和电力的技术可行性

D. Setiawan, J. R. Pangala, Abdul Baits Dehana Padma Swastika, A. Tambunan
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引用次数: 1

摘要

通过热解炉生产生物炭,同时利用余热发电,可以提高整个系统的性能,对能源和环境问题都有重要的解决方案。如果作为独立设施实施并应用于偏远地区,这一点尤其重要。本研究的目的是评估热解炉同时生产生物炭和ORC发电的技术可行性和策略。本研究结合了之前获得的各种数据,包括同时生产生物炭和热能利用的热解炉设计和性能测试,以及发电的ORC实验。然后利用这些数据分析利用热解炉产生的余热同时生产生物炭和发电的技术可行性。对热解炉与ORC的集成进行了模拟研究。结果表明,使用热解炉生产的生物炭具有非常支持用作土壤增强剂的特性。热解炉在生产生物炭过程中产生的余热可用于为ORC系统提供燃料以发电。结果表明,在炉膛风速为0.034 ~ 0.035 kg/s时,ORC的最佳产炭量和热效率最佳。因此,使用ORC系统的生物炭生产和发电的结合被认为在技术上是可行的,可以满足可持续性要求。
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Technical Feasibility to Utilize Wasted Empty Fruit Bunch from Small Scale Farms for Simultaneous Production of Biochar and Electricity
Biochar production by pyrolysis stove and utilization of the excess heat to generate electricity, simultaneously, could improve the performance of the whole system, and give a significant solution to both energy and environmental problems. This is especially if implemented as a stand-alone facility and applied in a remote area. The purpose of this study is to evaluate technical feasibility and strategy in using pyrolysis stoves to produce biochar and generate electricity by ORC, simultaneously. This study combines various data obtained previously, which consists of pyrolysis stove design and performance test for simultaneous biochar production and thermal energy use, and ORC experiments for electricity generation. Those data then was used to analyze the technical feasibility of the simultaneous production of biochar and electricity generation using the excess heat from the pyrolysis stove. The integration of the pyrolysis stove with the ORC was conducted in a simulative study. The results showed that biochar produced using the pyrolysis stove has characteristics that are very supportive for use as a soil enhancer. Excess heat from the pyrolysis stove during the production of biochar can be used to fuel the ORC system to generate electricity. The optimum biochar yield and thermal efficiency of the ORC were found to be optimum at the stove's airflow rate of 0.034-0.035 kg/s. Accordingly, a combination of biochar production and electricity generation using the ORC system is considered to be technologically feasible to meet the sustainability requirement.
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