工业共生为农业温室供热的空间优化

IF 4.9 3区 环境科学与生态学 Q2 ENGINEERING, ENVIRONMENTAL
Farzaneh Rezaei, Vanessa Burg, Stephan Pfister, Stefanie Hellweg, Ramin Roshandel
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引用次数: 0

摘要

尽管温室有许多好处,但要满足其供热需求却具有挑战性,因为温室属于农业部门中能源最密集的生产系统。产业共生可以通过利用其他产业的余热来满足温室的供热需求,从而带来有效的解决方案。本研究提出了一个优化框架,通过该框架可以确定最佳的共生关系。为此,将空间分析纳入优化模型,同时考虑地理、技术和经济参数,以确定开发新农业温室的最佳地点。目标函数是最大限度地降低供热成本,即从供方到需方输送载热液体的管道投资成本和电力成本。该模型应用于瑞士的案例研究,目前现有的城市固体废物焚化炉、水泥生产厂和沼气厂被视为潜在的废热源。结果表明,从理论上讲,瑞士的番茄、黄瓜和莴苣进口量可以被新的余热供应温室的蔬菜生产量所取代(零进口情景)。考虑到管道投资成本的规模经济性,选择大型温室的成本可降低 37%。优化结果表明,满足国内莴苣、西红柿和黄瓜总需求所需的 10%温室可建在直接靠近余热源的合适地块上,且余热供应成本较低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spatial optimization of industrial symbiosis for heat supply of agricultural greenhouses
Despite the many benefits of greenhouses, it is challenging to meet their heating demand, as greenhouses belong to the most energy‐intensive production systems in the agriculture sector. Industrial symbiosis can bring an effective solution by utilizing waste heat from other industries to meet the greenhouse heat demand. This study proposes an optimization framework by which optimum symbiotic relationships can be identified. For this aim, the spatial analysis is integrated into an optimization model, in which geographical, technical, and economic parameters are considered simultaneously to identify the optimal location for developing new agricultural greenhouses. The objective function is to minimize the heating costs, that is, the investment cost of piping and electricity cost for pumping heat‐carrying fluid from supplier to demand. The model is applied to the case study of Switzerland, and currently existing municipal solid waste incinerators, cement production plants, and biogas plants are considered potential waste heat sources. Results show that the import of tomato, cucumber, and lettuce to Switzerland can theoretically be replaced by vegetable production in new waste‐heat supplied greenhouses (zero import scenarios). Accounting for the economy of scale for pipeline investment costs leads to selecting large‐scale greenhouses with a cost reduction of 37%. The optimization results suggest that 10% of the greenhouses needed to satisfy the total domestic demand for lettuce, tomato, and cucumber could be placed on a suitable land plot in the direct vicinity of a waste heat source, with low costs of waste heat supply.
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来源期刊
Journal of Industrial Ecology
Journal of Industrial Ecology 环境科学-环境科学
CiteScore
11.60
自引率
8.50%
发文量
117
审稿时长
12-24 weeks
期刊介绍: The Journal of Industrial Ecology addresses a series of related topics: material and energy flows studies (''industrial metabolism'') technological change dematerialization and decarbonization life cycle planning, design and assessment design for the environment extended producer responsibility (''product stewardship'') eco-industrial parks (''industrial symbiosis'') product-oriented environmental policy eco-efficiency Journal of Industrial Ecology is open to and encourages submissions that are interdisciplinary in approach. In addition to more formal academic papers, the journal seeks to provide a forum for continuing exchange of information and opinions through contributions from scholars, environmental managers, policymakers, advocates and others involved in environmental science, management and policy.
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