生物质废物的水热碳化作为碳捕获的工具

IF 1.4 Q4 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY

Environmental and Climate Technologies Pub Date : 2022-01-01 DOI:10.2478/rtuect-2022-0032

L. Ansone-Bērtiņa, L. Arbidans, V. Ozols, M. Kļaviņš, V. Obuka, V. Bisters

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引用次数: 0

摘要

摘要以生物资源替代化石资源是更环保的能源生产的有前景的方向之一，但生物质的生产和加工产生了大量的废物，利用和回收的可能性有限。在这方面，热液碳化(HTC)提供了一种可持续的、具有成本效益的解决方案，通过资源回收和气候中和过程处理和创造生物质新产品。本研究探讨了生物质类型和HTC条件对人工腐殖质物质和碳氢化合物的产率和性质的影响，以达到碳捕获的目的。对HTC产品产率的主要影响确实是处理的持续时间和温度，以及使用的催化剂(反应的pH值)和改变碳化条件，可以设计所获得产品的理想组成。在HTC过程中，生物质组成发生显著变化，导致大多数不稳定成分被去除。虽然烃类对二氧化碳的吸附能力相对较低，但经活化后可获得高效的吸附剂(活性炭)，有望成为碳捕集的目标。

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Hydrothermal Carbonisation of Biomass Wastes as a Tool for Carbon Capture

Abstract Replacing fossil resources with bioresources is one of the promising directions for more environmentally friendly energy production, but the production and processing of biomass generates a large amount of waste with limited use and recycling possibilities. In this respect Hydrothermal Carbonisation (HTC) offers a sustainable and cost-effective solution for disposal and creation of new products from biomass through resource recovery and through climate-neutral process. In this study the impact of biomass type and HTC conditions on the yield and properties of artificial humic substances and hydrochar to achieve carbon capture aim has investigated. A major impact on the yield of HTC products do have the duration and temperature of the treatment, as well as catalyst used (pH of the reaction) and changing the carbonisation conditions it is possible to design the desirable composition of obtained products. During HTC process significant changes of the biomass composition happens resulting in the removal of most labile components. Although the carbon dioxide sorption capacity of hydrochar is relatively low, after activation efficient sorbent (activated carbon) can be obtained, prospective for carbon capture aims.

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来源期刊

Environmental and Climate Technologies GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY-

CiteScore

3.10

自引率

28.60%

发文量

审稿时长

16 weeks

期刊介绍： Environmental and Climate Technologies provides a forum for information on innovation, research and development in the areas of environmental science, energy resources and processes, innovative technologies and energy efficiency. Authors are encouraged to submit manuscripts which cover the range from bioeconomy, sustainable technology development, life cycle analysis, eco-design, climate change mitigation, innovative solutions for pollution reduction to resilience, the energy efficiency of buildings, secure and sustainable energy supplies. The Journal ensures international publicity for original research and innovative work. A variety of themes are covered through a multi-disciplinary approach, one which integrates all aspects of environmental science: -Sustainability of technology development- Bioeconomy- Cleaner production, end of pipe production- Zero emission technologies- Eco-design- Life cycle analysis- Eco-efficiency- Environmental impact assessment- Environmental management systems- Resilience- Energy and carbon markets- Greenhouse gas emission reduction and climate technologies- Methodologies for the evaluation of sustainability- Renewable energy resources- Solar, wind, geothermal, hydro energy, biomass sources: algae, wood, straw, biogas, energetic plants and organic waste- Waste management- Quality of outdoor and indoor environment- Environmental monitoring and evaluation- Heat and power generation, including district heating and/or cooling- Energy efficiency.