An agile life cycle assessment for the deployment of photovoltaic energy systems in the built environment

IF 4.6 3区 工程技术 Q2 ENERGY & FUELS
Tomás Gómez-Navarro, Christian Stascheit, Dácil Díaz-Bello, Carlos Vargas-Salgado
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Abstract

Background

In the context of urban energy transition, photovoltaic (PV) systems play an important role in electricity generation. However, PV technology has some environmental drawbacks that also need to be acknowledged and managed. Life cycle assessment (LCA) is widely used to assess the environmental impacts of systems, but LCA is very complex to perform. Therefore, this research work presents a proof of concept for a parameterized LCA tool for grid-tied photovoltaic systems in urban areas that allows non-experts in LCA to obtain LCA results reliably and quickly.

Results

The resulting methodology is an integration of three preexisting tools: PVGIS, Brightway and Ecoinvent, plus a Breakeven point analysis. The first step of the approach consists of identifying the main parameters of photovoltaic systems: geographical, technological, and temporal. Once the non-expert practitioner sets the influential parameters, the tool assesses the greenhouse gas emissions over the life cycle of the PV panels per unit of supplied electricity, allocates the emissions per component, and calculates the point at which the avoided emissions compensate for those produced by the power system. The algorithm strives to find the optimal PV system configuration to reduce the environmental impact, providing decision-making support for promoters and policymakers in the context of the urban energy transition. Two case studies are presented to illustrate the proposed method’s applicability and benefits.

Conclusions

The production of PV panels was confirmed as the main source of emissions in this kind of installation. The reasons are analyzed, allowing for improved design. Furthermore, the estimated break-even point where savings of conventional electricity offset emissions shows the influence of the parameters on the system’s environmental performance.

在建筑环境中部署光伏能源系统的敏捷生命周期评估
背景在城市能源转型的背景下,光伏(PV)系统在发电方面发挥着重要作用。然而,光伏技术也存在一些环境弊端,需要加以认识和管理。生命周期评估(LCA)被广泛用于评估系统对环境的影响,但 LCA 的执行非常复杂。因此,这项研究工作为城市地区并网光伏系统的参数化生命周期评估工具提供了概念验证,使非生命周期评估专家也能可靠、快速地获得生命周期评估结果:结果该方法整合了三个现有工具:PVGIS、Brightway 和 Ecoinvent,以及盈亏平衡点分析。该方法的第一步包括确定光伏系统的主要参数:地理参数、技术参数和时间参数。一旦非专业人员设定了有影响的参数,该工具就会评估光伏电池板在生命周期内每单位电力供应所产生的温室气体排放量,分配每个组件的排放量,并计算出避免的排放量与电力系统产生的排放量相抵的点。该算法努力寻找最佳光伏系统配置,以减少对环境的影响,为城市能源转型背景下的推动者和决策者提供决策支持。本文介绍了两个案例研究,以说明所提方法的适用性和益处。结论光伏电池板的生产已被确认为此类装置的主要排放源。对其原因进行了分析,以便改进设计。此外,估算出的盈亏平衡点显示了参数对系统环保性能的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Energy, Sustainability and Society
Energy, Sustainability and Society Energy-Energy Engineering and Power Technology
CiteScore
9.60
自引率
4.10%
发文量
45
审稿时长
13 weeks
期刊介绍: Energy, Sustainability and Society is a peer-reviewed open access journal published under the brand SpringerOpen. It covers topics ranging from scientific research to innovative approaches for technology implementation to analysis of economic, social and environmental impacts of sustainable energy systems.
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