110 MW总循环流化床型CFPP生物质共烧的燃烧耗材成本分析

2023 IEEE 3rd International Conference in Power Engineering Applications (ICPEA) Pub Date : 2023-03-06 DOI:10.1109/ICPEA56918.2023.10093210

A. M. Reza, F. Chariri, Ade Okta Yurwendra, Andal Adhi Prakoso, Maulana Rifaldi

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引用次数: 2

摘要

增加可再生能源在印尼能源结构中的份额是满足其能源需求和减少碳足迹的关键优先事项。生物质共烧已经成为实现这一目标的一个有希望的解决方案，但与煤炭相比，生物质的成本仍然是一个挑战。本研究考察了棕榈仁壳(PKS)与普通煤和高硫煤在CFB锅炉中共烧的可行性，以及其对二氧化硫排放、脱硫用石灰石消耗和运行成本的影响。对几个循环流化床锅炉进行了试验，采用不同的PKS和煤的燃料比，从0到30%不等。结果表明，PKS与煤在循环流化床锅炉中共烧是可行的，可以降低SO2的排放和脱硫耗材的运行成本。使用PKS作为生物质共燃燃料可以抵消从煤炭转向生物质的额外成本，并使其成为提高可再生能源在印度尼西亚能源结构中所占份额的经济有效的解决方案。该研究为CFB锅炉中生物质共烧的潜力及其在减少排放和运营成本方面的有效性提供了见解。研究结果对政策制定者、能源规划者和能源公司来说是有价值的，这些公司正在寻求增加可再生能源在其能源结构中的份额，同时减少碳足迹。

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Combustion Consumables Cost Analysis in 110 MW gross CFB type CFPP Biomass Co-firing Application

Increasing the share of renewable energy in Indonesia's energy mix is a key priority to meet its energy needs and reduce its carbon footprint. Biomass co-firing has emerged as a promising solution to achieve this goal, but the cost of biomass compared to coal remains a challenge. This study examines the feasibility of co-firing palm kernel shells (PKS) with normal and high-sulfur coal in a CFB boiler, and its impact on SO2 emissions, limestone consumption for desulfurization, and operational costs. Several CFB boiler were tested using different fuel ratios of PKS and coal, ranging from 0 to 30%. The results show that co-firing PKS with coal in a CFB boiler is feasible and can reduce SO2 emissions and the operational costs of desulfurization consumables. Using PKS as a biomass co-firing fuel can offset the additional cost of switching from coal to biomass and make it a cost-effective solution for increasing the share of renewable energy in Indonesia's energy mix. The research provides insights into the potential of biomass co-firing in CFB boilers and its effectiveness in reducing emissions and operational costs. The findings can be valuable for policymakers, energy planners, and energy companies seeking to increase the share of renewable energy in their energy mix while reducing their carbon footprint.

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来源期刊

2023 IEEE 3rd International Conference in Power Engineering Applications (ICPEA)

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