(Counter)mapping renewables: Space, justice, and politics of wind and solar power in Mexico

The ongoing expansion of renewable energies entails major spatial reconfigurations with social, environmental, and political dimensions. These emerging geographies are, however, in the process of taking shape, as their early configurations are still open to democratic intervention and contestation. While a recent line of research highlights the prominent role that maps are playing in directing such processes, the potential effects of countermapping on these evolving geographies have not yet been explored. In this article, we present a countermapping initiative promoting a dialogue between critical geography, political ecology, and environmental justice. Our work is the result of an alliance between Geocomunes—a collective of activist cartographers based in Mexico—and the EjAtlas—a global collaborative project tracking cases of grassroots mobilizations against environmental injustices. We take the case of Mexico's low-carbon development strategy to dissect the spatial expansion of wind and solar mega-projects at both national and regional scales. Our project consists of a series of databases and maps aimed to “fill” the spaces and relations otherwise “emptied” by the state's cartographic tools designed to promote investments in the sector. When presenting our results, we highlight how renewable energy projects in Mexico have so far juxtaposed with local territories, peoples, and resources, in ways that trigger instances of environmental injustice on the ground. We close this article by discussing the role of critical cartography and countermapping in building alternative political–economic projects for the energy transition.

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The Local at the Forefront of Energy Transition

10.1093/oxfordhb/9780190633851.013.35 ◽

2018 ◽

Author(s):

Cyria Emelianoff

Keyword(s):

Political Ecology ◽

Nuclear Energy ◽

Energy Transition ◽

The Political ◽

Low Carbon ◽

Renewable Electricity ◽

Paradoxical Effects ◽

Transition Paths ◽

Political Dimensions ◽

Citizen Initiatives

This chapter proposes a multi-scalar and territorial reading of the transition toward renewable electricity, recognizing the importance of local authorities and local policies, closely linked to subjacent citizen mobilizations. The comparative analysis of German and Swedish electrical transitions allows the author to highlight the political dimensions of these two transition paths. The contrasted relationship to nuclear energy, the decentralized culture of Germany, and the weight of political ecology prove crucial to understanding the rhythms and modalities of transition toward renewable energies. The multi-scalar governance of the energy transition, also contrasted, has paradoxical effects. Less developed and more confrontational in Germany, space is opened for alternatives and citizen initiatives, creating a potential for the questioning and evolution of this transition. By contrast, the strong multi-scalar integration of Swedish policies might disserve the low carbon transition, since it strengthens the neoliberal alignment of energy transition policies.

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Legitimating power: Solar energy rollout, sustainability metrics and transition politics

Environment and Planning E Nature and Space ◽

10.1177/25148486211024903 ◽

2021 ◽

pp. 251484862110249

Author(s):

Siddharth Sareen

Keyword(s):

Solar Energy ◽

Political Ecology ◽

Global Climate ◽

Renewable Energy Sources ◽

Energy Transition ◽

Analytical Framework ◽

Solar Irradiation ◽

Low Carbon ◽

Sustainability Metrics ◽

Energy Transitions

Increasing recognition of the irrefutable urgency to address the global climate challenge is driving mitigation efforts to decarbonise. Countries are setting targets, technological innovation is making renewable energy sources competitive and fossil fuel actors are leveraging their incumbent privilege and political reach to modulate energy transitions. As techno-economic competitiveness is rapidly reconfigured in favour of sources such as solar energy, governance puzzles dominate the research frontier. Who makes key decisions about decarbonisation based on what metrics, and how are consequent benefits and burdens allocated? This article takes its point of departure in ambitious sustainability metrics for solar rollout that Portugal embraced in the late 2010s. This southwestern European country leads on hydro and wind power, and recently emerged from austerity politics after the 2008–2015 recession. Despite Europe’s best solar irradiation, its big solar push only kicked off in late 2018. In explaining how this arose and unfolded until mid-2020 and why, the article investigates what key issues ambitious rapid decarbonisation plans must address to enhance social equity. It combines attention to accountability and legitimacy to offer an analytical framework geared at generating actionable knowledge to advance an accountable energy transition. Drawing on empirical study of the contingencies that determine the implementation of sustainability metrics, the article traces how discrete acts legitimate specific trajectories of territorialisation by solar photovoltaics through discursive, bureaucratic, technocratic and financial practices. Combining empirics and perspectives from political ecology and energy geographies, it probes the politics of just energy transitions to more low-carbon and equitable societal futures.

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Ecología política del sufrimiento por desechos radiactivos: estudio de caso en Temascalapa, México

Letras Verdes Revista Latinoamericana de Estudios Socioambientales ◽

10.17141/letrasverdes.30.2021.4792 ◽

2021 ◽

pp. 163-184

Author(s):

Oscar Adán Castillo Oropeza ◽

Edgar Delgado Hernández

Keyword(s):

Radioactive Waste ◽

Political Ecology ◽

Local Level ◽

Energy Transition ◽

Point Of View ◽

The Political ◽

Structured Interviews ◽

Waste Storage ◽

Political Economic ◽

Global And Local

En este artículo se analiza, desde la ecología política del sufrimiento por desechos radiactivos, el caso del Centro de Almacenamiento de Desechos Radiactivos (CADER) ubicado en el municipio de Temascalapa, estado de México, México. En un escenario de supuesta transición energética a escala global y local, las relaciones de poder político-económicas determinan la producción y disposición final de los desechos radiactivos en este lugar. Se analizan las experiencias de sufrimiento ambiental de los sujetos que habitan cerca del CADER, los cuales padecen la incertidumbre, la espera, el engaño y el abandono por parte del Estado, así como las acciones políticas que han realizado en defensa de su territorio y de la vida en general. El trabajo de campo en las comunidades contiguas al CADER tuvo una duración de cuatro meses. Se realizaron observaciones de campo, fotografías, entrevistas semiestructuradas a informantes clave, análisis de documentos y datos oficiales, notas de periódico y sistemas de información geográfica. Abstract This article analyzes, from the point of view of the political ecology of suffering from radioactive waste, the case of the Radioactive Waste Storage Center (CADER) located in the municipality of Temascalapa, State of Mexico, Mexico. In a scenario of supposed energy transition at a global and local level, the political-economic power relations determine the production and final disposal of radioactive waste in this place. The experiences of environmental suffering of the subjects who live near the CADER, who suffer from uncertainty, waiting, deception and abandonment by the State are analyzed, as well as the political actions they have taken to defend their territory and life in general. The fieldwork in the communities adjacent to CADER, with a duration of 4 months, included observations, photographs, semi-structured interviews with key informants, analysis of official documents and data, newspaper notes, and geographic information systems.

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Environmental Conflicts Related to Urban Expansion Involving Agrarian Communities in Central Mexico

Sustainability ◽

10.3390/su11236545 ◽

2019 ◽

Vol 11 (23) ◽

pp. 6545 ◽

Cited By ~ 1

Author(s):

Victoria Ruiz Rincón ◽

Joan Martínez-Alier ◽

Sara Mingorria

Keyword(s):

Rural Communities ◽

Political Ecology ◽

Urban Space ◽

Urban Expansion ◽

Central Mexico ◽

Environmental Conflicts ◽

Peasant Communities ◽

Agrarian Communities ◽

Social Environmental ◽

Political Economic

Rural territories and cultures have been increasingly sacrificed through depopulation, invasion by infrastructure, and the presence of industries which are incompatible with agriculture. Meanwhile, the expansion of urban space through demographic agglomeration and the concentration of activities in cities is leading to a progressively urbanised world. This article sheds light on the particularities of the relationship between urban expansion and the assault on agrarian modes of existence that survive at the diffuse urban frontiers in Central Mexico. A multiple case study was carried out; nine social-environmental conflicts where an agrarian community resisted the installation of urban infrastructure or city enterprises were analysed through the perspective of Political Ecology and environmental justice. Peasant communities question the political, economic, environmental, and cultural factors of the hegemonic social configuration as urban megaprojects menace their territory. In their struggles, they highlight that urban development undermines the very conditions necessary for the existence of the city, as its social metabolism depends in part on the resources these rural communities are defending.

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Valuing System Flexibility Through adding Pumped Hydro Energy Storage in the New England Electricity System

10.5194/egusphere-egu2020-1779 ◽

2020 ◽

Author(s):

Destenie Nock ◽

Erin Baker

Keyword(s):

Energy Storage ◽

Power Systems ◽

Power System ◽

New England ◽

Ghg Emissions ◽

Energy Transition ◽

Low Carbon ◽

Trade Offs ◽

Social Environmental ◽

System Sustainability

<p>As energy transition pushes the world towards low-carbon or high renewable economies, the share of renewables supplying electricity continues to increase. Due to their intermittent nature, as the share of renewables increases so does the demand for flexibility in power systems. Pumped hydro energy storage (PHES) is one method of enhancing power system flexibility due to its ability to regulate power output from renewables, acting as a supplier and consumer, and enhance overall system sustainability through enhancing the capacity factor of renewables and being a low emission technology. In this paper we estimate the trade-offs of PHES additions to a regions power system using an electricity dispatch model tied with multi-criteria decision analysis considering the three pillars of sustainability (i.e. social, environmental, and economical). We rank various low carbon generation portfolios, which contain a mix of PHES, wind, solar, natural gas, nuclear, and oil, under nine illustrative preference scenarios. In this work we find that using PHES to support renewables increases sustainability in the New England Power System. We find that the optimal strategy to enhance flexibility and sustainability of power systems may be to simply add storage to the system due to its ability to reduce GHG emissions and support renewables.</p>

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Trade-Offs in German Wind Energy Expansion: Building Bridges Between Different Interests, Values and Priorities.

10.21203/rs.3.rs-1173628/v1 ◽

2021 ◽

Author(s):

Sybille Reitz ◽

Lauren Goshen ◽

Dörte Ohlhorst

Keyword(s):

Wind Energy ◽

Distributive Justice ◽

Local Level ◽

Community Support ◽

Energy Transition ◽

Successful Implementation ◽

Low Carbon ◽

Trade Offs ◽

Energy Projects ◽

Local Opposition

Abstract Background: In order to achieve climate targets, a transition to low-carbon energy production is necessary. However, conflicts between different interests, values and priorities, particularly at the community level, can constrain this transition. This paper aims to analyze lines of conflict and opportunities for building bridges between conflicting interests in the expansion of wind energy in Germany at the local level, in order to achieve successful implementation of wind energy projects.Results: Our analysis of four cases of local-level wind energy projects in Germany shows that limited local options for action reinforce the need for local actors to maximize the benefits of energy transition projects. In addition to the conflict over scarce space, the lines of conflict at the local level run primarily along the dimensions of costs and benefits, winners and losers. Real or perceived procedural and distributive injustices have the potential to fuel resistance to wind energy projects in the selected cases. Wind energy projects were successfully implemented in the four selected cases despite the presence of local opposition.Conclusions: The results show that, by integrating procedural and distributive justice and offering tailored solutions, community support for expansion of renewable energy projects can be enhanced. Further, the paper advances the concept of societal sponsorship, which is the willingness of members of a community to bear, or tolerate, decisions despite conflicting opinions. This concept is presented as an alternative to the concept of acceptance, which implies a positive, supportive attitude, and that protest should be avoided or overcome instead of recognized as a contribution to the debate. Societal sponsorship can be enhanced when procedural and distributive justice are adequately addressed.

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Russian low carbon development strategy

Voprosy Ekonomiki ◽

10.32609/0042-8736-2020-7-51-74 ◽

2020 ◽

pp. 51-74

Author(s):

I. A. Bashmakov

Keyword(s):

Economic Growth ◽

Development Strategy ◽

Low Carbon ◽

Security Risk ◽

Ghg Emission ◽

Emission Mitigation ◽

Russian Economy ◽

The Russian Federation ◽

Scenario Projections

The article presents the key results of scenario projections that underpinned the Strategy for long-term low carbon economic development of the Russian Federation to 2050, including analysis of potential Russia’s GHG emission mitigation commitments to 2050 and assessment of relevant costs, benefits, and implications for Russia’s GDP. Low carbon transformation of the Russian economy is presented as a potential driver for economic growth that offers trillions-of-dollars-worth market niches for low carbon products by mid-21st century. Transition to low carbon economic growth is irreversible. Lagging behind in this technological race entails a security risk and technological backwardness hazards.

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Determinants and barriers of PV self-consumption in Spain from the perception of the installers for the promotion of distributed energy systems

ECONOMICS AND POLICY OF ENERGY AND THE ENVIRONMENT ◽

10.3280/efe2020-001007 ◽

2020 ◽

pp. 153-169

Author(s):

José Ángel Gimeno ◽

Eva Llera Sastresa ◽

Sabina Scarpellini

Keyword(s):

European Union ◽

Energy Transition ◽

Legal Framework ◽

Low Carbon ◽

The European Union ◽

Distributed Energy ◽

Sustainable Solutions ◽

Highly Sensitive ◽

Transition Scenario

Currently, self-consumption and distributed energy facilities are considered as viable and sustainable solutions in the energy transition scenario within the European Union. In a low carbon society, the exploitation of renewables for self-consumption is closely tied to the energy market at the territorial level, in search of a compromise between competitiveness and the sustainable exploitation of resources. Investments in these facilities are highly sensitive to the existence of favourable conditions at the territorial level, and the energy policies adopted in the European Union have contributed positively to the distributed renewables development and the reduction of their costs in the last decade. However, the number of the installed facilities is uneven in the European Countries and those factors that are more determinant for the investments in self-consumption are still under investigation. In this scenario, this paper presents the main results obtained through the analysis of the determinants in self-consumption investments from a case study in Spain, where the penetration of this type of facilities is being less relevant than in other countries. As a novelty of this study, the main influential drivers and barriers in self-consumption are classified and analysed from the installers' perspective. On the basis of the information obtained from the installers involved in the installation of these facilities, incentives and barriers are analysed within the existing legal framework and the potential specific lines of the promotion for the effective deployment of self-consumption in an energy transition scenario.

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Design of a Smart Nanogrid for Increasing Energy Efficiency of Buildings

Energies ◽

10.3390/en14123683 ◽

2021 ◽

Vol 14 (12) ◽

pp. 3683

Author(s):

Yerasimos Yerasimou ◽

Marios Kynigos ◽

Venizelos Efthymiou ◽

George E. Georghiou

Keyword(s):

Storage System ◽

Energy Transition ◽

Energy Storage System ◽

Low Carbon ◽

Pv System ◽

Interconnected System ◽

Low Carbon Economy ◽

Energy Needs ◽

Energy Domain ◽

Battery Energy

Distributed generation (DG) systems are growing in number, diversifying in driving technologies and providing substantial energy quantities in covering the energy needs of the interconnected system in an optimal way. This evolution of technologies is a response to the needs of the energy transition to a low carbon economy. A nanogrid is dependent on local resources through appropriate DG, confined within the boundaries of an energy domain not exceeding 100 kW of power. It can be a single building that is equipped with a local electricity generation to fulfil the building’s load consumption requirements, it is electrically interconnected with the external power system and it can optionally be equipped with a storage system. It is, however, mandatory that a nanogrid is equipped with a controller for optimisation of the production/consumption curves. This study presents design consideretions for nanogrids and the design of a nanogrid system consisting of a 40 kWp photovoltaic (PV) system and a 50 kWh battery energy storage system (BESS) managed via a central converter able to perform demand-side management (DSM). The implementation of the nanogrid aims at reducing the CO2 footprint of the confined domain and increase its self-sufficiency.

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