The Development of a GIS-Based Framework to Locate Biomass and Municipal Solid Waste Collection Points for an Optimal Waste Conversion Facility

IF 1.4 4区 农林科学 Q3 AGRICULTURAL ENGINEERING
Prashant Patel, M. Vaezi, R. Sebastian, Amit Kumar
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引用次数: 3

Abstract

HighlightsAn integrated GIS-based tool was developed for optimally locating bioenergy facilities.Waste and lignocellulosic biomass potential and distribution were assessed for Alberta.A case study for Alberta’s Industrial Heartland identified facility locations for two scenarios.Ten optimal locations were identified across Alberta for bioconversion of waste and biomass feeds.Abstract. Quantifying the availability of feedstock and determining an optimal location are key to ensuring the sustainability of a waste to value-added (W2VA) facility. This study aims to identify lignocellulosic biomass (agricultural and forest residues) and municipal solid waste (MSW) potential, find geographical point-source locations for the distributed biomass, and identify optimal locations for W2VA facilities across the province of Alberta, Canada, using an integrated geographic information system (GIS) based approach. MSW potential is estimated using population and average annual waste generation per capita, while agriculture and forest residue are estimated using production data and harvesting residue factor. A GIS-based framework is developed to locate biomass collection points by latitude and longitude for distributed biomass and to estimate their associated biomass potential. An integrated framework is subsequently developed to optimally locate W2VA facilities that have minimal environmental, economic, and social impacts. An array of geographical constraints is then considered in a suitability analysis and network analysis framework. An estimate of the annual availability of feedstock using the most recent data shows MSW, agricultural residue, and forest residue potentials of 4,330,000 wet megagrams (Mg), 4,060,000 dry Mg, and 2,070,000 dry Mg, respectively, in Alberta. Optimal W2VA facility locations are identified for Alberta’s Industrial Heartland (AIH) considering waste heat from the areas as an additional energy source. Ten other locations where facilities can be operated sustainably are identified across the province. This study can be used as a framework by municipalities and communities in any jurisdiction in the world to geographically locate biomass source and collection points, along with their annual capacity, and the corresponding optimal site for a W2VA facility. Keywords: Biomass, Biorefinery, GIS, suitability analysis, Integrated methodology, Municipal solid waste, Sustainability, Waste management, Waste-to-energy.
开发一个基于gis的框架来定位生物质和城市固体废物收集点,以实现最佳废物转化设施
HighlightsAn是一种基于gis的集成工具,用于优化定位生物能源设施。对阿尔伯塔省的废物和木质纤维素生物质潜力和分布进行了评估。对艾伯塔省工业中心的案例研究确定了两种情况下的设施位置。在阿尔伯塔省确定了废物和生物质饲料生物转化的十个最佳地点。量化原料的可用性和确定最佳位置是确保废物增值(W2VA)设施可持续性的关键。本研究旨在利用基于综合地理信息系统(GIS)的方法,确定木质纤维素生物质(农业和森林残留物)和城市固体废物(MSW)的潜力,找到分布生物质的地理点源位置,并确定加拿大阿尔伯塔省W2VA设施的最佳位置。城市固体废物潜力是利用人口和人均年平均废物产生量来估计的,而农业和森林残渣是利用生产数据和收获残渣系数来估计的。开发了一个基于gis的框架,按纬度和经度定位分布生物质的生物质收集点,并估计其相关的生物质潜力。随后制定了一个综合框架,以最佳地定位对环境、经济和社会影响最小的W2VA设施。然后在适用性分析和网络分析框架中考虑一系列地理限制。使用最新数据对原料年可用性的估计显示,在阿尔伯塔省,城市生活垃圾、农业残留物和森林残留物的潜力分别为4,330,000湿毫克、4,060,000干毫克和2,070,000干毫克。考虑到该地区的废热作为额外的能源来源,为阿尔伯塔省的工业中心(AIH)确定了最佳的W2VA设施位置。在全省范围内确定了其他10个设施可以可持续运营的地点。这项研究可以作为世界上任何司法管辖区的市政当局和社区的一个框架,用于在地理上定位生物质来源和收集点,以及它们的年容量,以及相应的W2VA设施的最佳地点。关键词:生物质,生物炼制,GIS,适宜性分析,综合方法,城市固体废物,可持续性,废物管理,废物转化为能源
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来源期刊
Transactions of the ASABE
Transactions of the ASABE AGRICULTURAL ENGINEERING-
CiteScore
2.30
自引率
0.00%
发文量
0
审稿时长
6 months
期刊介绍: This peer-reviewed journal publishes research that advances the engineering of agricultural, food, and biological systems. Submissions must include original data, analysis or design, or synthesis of existing information; research information for the improvement of education, design, construction, or manufacturing practice; or significant and convincing evidence that confirms and strengthens the findings of others or that revises ideas or challenges accepted theory.
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