近海和岸上大型藻类种植和野生收获:波罗的海地区案例研究中基于lca的评估

IF 1.4 Q4 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY Environmental and Climate Technologies Pub Date : 2023-01-01 DOI:10.2478/rtuect-2023-0045
Riccardo Paoli, Bjarni Bjarnason, Tanel Ilmjärv, Francesco Romagnoli
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引用次数: 0

摘要

海藻是一种具有独特特性的生物。它们含有广泛的微量和宏量元素(即矿物质、碳水化合物、蛋白质、脂质、色素和维生素)。此外,它们的生长速度非常快,在自然界中数量和种类都很大。因此,它们代表了生物炼制概念的理想原料。从历史上看,用于生物精炼厂的大型藻类直接从海洋或海岸收获,即离岸技术。然而,最近的研究正在分析建立岸上养殖设施的可能性。本研究旨在进行一项生命周期评估(LCA)研究,分析和比较波罗的海地区两种海藻养殖和野生捕捞技术在现有商业前和商业项目条件下的环境影响。库存数据直接从两个大型藻类生产商,一个离岸和一个岸上收集,并与文献相结合,然后归一化到选定的功能单位,即1吨收获的新鲜大型藻类。使用SimaPro 9.4软件实现的结果确定了两种技术中哪一种对环境的影响最大,哪一种是最敏感的环境指标。此外,结果强调了两种栽培的关键参数(即燃料消耗和电力),有助于确定进一步优化策略的环境基准。本研究中包含的敏感性分析旨在探索和突出所选输入参数或假设变化的影响,以对模型输出的不确定性和环境影响方面的主要发现提供一致的评估。
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Off-Shore and On-Shore Macroalgae Cultivation and Wild Harvesting: an LCA-Based Evaluation from Baltic Sea Region Case Studies
Abstract Seaweeds are organisms with unique characteristics. They contain a broad spectrum of micro and macro elements (i.e., minerals, carbohydrates, proteins, lipids, pigments, and vitamins). Furthermore, they have a very high growth rate and are present in large quantities and species in nature. Therefore, they represent an ideal feedstock for a biorefinery concept. Historically, macroalgae used in biorefineries have been harvested directly from the sea or the shores, i.e., off-shore technique. However, recent studies are analysing the possibility of creating on-shore cultivation facilities. This research aims to perform a Life Cycle Assessment (LCA) study that analyses and compares the environmental impact of two seaweed cultivation and wild harvesting techniques in the Baltic Sea Region conditions based on existing pre-commercial and commercial projects. Inventory data are collected directly from two macroalgae producers, one off-shore and one on-shore, integrated with literature, and then normalized to the selected functional unit, i.e., 1 ton of harvested fresh macroalgae. The results, implemented with SimaPro 9.4 software, determine which of the two techniques has the highest environmental impact and which are the most sensitive environmental indicators. Furthermore, the results underline the critical parameters for the two cultivations (i.e., fuel consumption and electricity), contributing to identifying environmental benchmarks for further optimization strategies. The sensitivity analysis included in the study aims to explore and highlight the effect of the variation of selected input parameters or assumptions to provide a consistent assessment of the uncertainty of the model outputs and the main findings in terms of environmental impacts.
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来源期刊
Environmental and Climate Technologies
Environmental and Climate Technologies GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY-
CiteScore
3.10
自引率
28.60%
发文量
0
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.
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