Scaling up solar cooking studies: A modeling framework for planning sustainable transition of the bakery sector

IF 6.9 2区经济学 Q1 ENVIRONMENTAL STUDIES

Energy Research & Social Science Pub Date : 2024-11-09 DOI:10.1016/j.erss.2024.103815

Benjamin Pillot , Guillaume Guimbretière , Christophe Révillion , Corrie Mathiak , Romain Authier

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引用次数: 0

Abstract

The recent rise of energy prices in Europe has directly impacted retail trade such as artisan bakeries. While energy transition is now a tangible aim for the bakery sector, apprehending its near future requires reconciling scales of analysis: from the baking technology to the territory where bakers and bread consumers will interact, based on aspects such as bakery organization, bread type or population dietary behavior. The solar cooking literature typically synthesizes such a fork in the road: the device (solar cooker) has been deeply scrutinized and improved, but wider socio-technical approaches are now required to eventually trigger changes at the sector level. Based on those elements, we thus propose a modeling framework with spatiotemporal granularity that integrates the various scales of analysis for planning sustainable transition of the bakery sector. We then derive decision-aid indicators for assessing information such as bread accessibility & viability, bread turnover (baked bread that is actually consumed), economic return or environmental impact. Finally, we apply this set of tools to the specific example of direct solar baking and demonstrate the various potential applications – regional to continental-scale spatial mapping, geolocated time series, etc. – by producing benchmark results and scenarios across the western European territory.

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扩大太阳能烹饪研究：规划烘焙业可持续转型的建模框架

最近欧洲能源价格的上涨直接影响了手工面包店等零售业。虽然能源转型已成为烘焙业的一个具体目标，但要了解其近期前景，就必须协调各种分析尺度：从烘焙技术到烘焙师和面包消费者互动的领域，这些尺度基于烘焙组织、面包类型或人口饮食行为等方面。太阳能烹饪的文献通常综合了这样一个岔路口：设备（太阳能灶）已得到深入研究和改进，但现在需要更广泛的社会技术方法来最终引发行业层面的变革。基于这些要素，我们提出了一个具有时空粒度的建模框架，该框架整合了各种分析尺度，用于规划烘焙行业的可持续转型。然后，我们推导出辅助决策指标，用于评估面包的可及性、可行性、面包营业额（实际消费的烘焙面包）、经济回报或环境影响等信息。最后，我们将这套工具应用于太阳能直接烘焙的具体实例，并展示了各种潜在应用--区域到大陆范围的空间制图、地理定位时间序列等。- 通过在整个西欧地区生成基准结果和方案，展示了各种潜在的应用--区域到大陆范围的空间制图、地理定位时间序列等。

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 Research & Social Science ENVIRONMENTAL STUDIES-

CiteScore

14.00

自引率

16.40%

发文量

441

审稿时长

55 days

期刊介绍： Energy Research & Social Science (ERSS) is a peer-reviewed international journal that publishes original research and review articles examining the relationship between energy systems and society. ERSS covers a range of topics revolving around the intersection of energy technologies, fuels, and resources on one side and social processes and influences - including communities of energy users, people affected by energy production, social institutions, customs, traditions, behaviors, and policies - on the other. Put another way, ERSS investigates the social system surrounding energy technology and hardware. ERSS is relevant for energy practitioners, researchers interested in the social aspects of energy production or use, and policymakers. Energy Research & Social Science (ERSS) provides an interdisciplinary forum to discuss how social and technical issues related to energy production and consumption interact. Energy production, distribution, and consumption all have both technical and human components, and the latter involves the human causes and consequences of energy-related activities and processes as well as social structures that shape how people interact with energy systems. Energy analysis, therefore, needs to look beyond the dimensions of technology and economics to include these social and human elements.