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Energy interventions can improve the lives of crisis-affected populations and the efficiency and performance of humanitarian operations. However, there is little existing data around humanitarian energy interventions, and little coordination around how this data can or should be collected, used and shared.
Energy is a priority for refugees yet traditional approaches for its delivery are costly and ineffective, while energy access often falls away once aid is withdrawn. By adopting a market systems approach, aid can do more to ensure access to energy in fragile places is more effective and sustainable.
Humanitarian organizations are increasingly incorporating sustainable energy practices into programming. Policies that are clear and coherent need to be put in place so that the private sector can be progressively engaged and energy services can be scaled-up.
Delivering renewable energy solutions in humanitarian settings that meet the needs of refugees is highly challenging. Inclusive design — engaging refugee communities, humanitarian agencies and the private sector — is a promising approach that offers substantial improvements in delivering energy access for refugees.
Different energy sources have different spillovers on economic development and industrialization. Pathways of economic development based on renewable energy sources might require additional policies to support industrial development.
The world is becoming more complex for policymakers and researchers alike as climate change, new technology and digitalization drive unprecedented energy-system change. Understanding one another is paramount if we are to address the challenges they present.
UK policy on decentralized energy has shifted from community energy to local energy. This signals reduced support for grassroots, citizen-led action in favour of institutional partnerships and company-led investments, which puts at risk the urgent, long-term social and technological transformations required in a climate emergency.
Access to rich, high-quality datasets is widely considered to be vital for energy research and public policy. While smart metering has the potential to revolutionize access to energy consumption data, coordinated efforts are needed from government, funding bodies and researchers to overcome the barriers to data access.
A wealth of candidates are being investigated to improve the catalysts found in acidic and alkaline electrolysers. However, attention should be focused on developing stable water oxidation catalysts with improved intrinsic activity — not only increased geometric activity — alongside best practice for data collection.
New scientific findings cataloguing the need for a rapid renewable energy transition are most often met with calls for innovation. Our failure to address climate change and thereby avoid the socioeconomic crises it foretells will not be attributed to a lack of innovation, however, but rather to a lack of exnovation.
Energy return on investment (EROI) is a critical measure of the comparative utility of different energy carriers, including fossil fuels and renewables. However, it must not be used to compare carriers that cannot be put to similar end-use. In addition, combining carriers to arrive at estimates of ‘average’ or ‘minimum’ EROIs can be problematic.
Energy poverty in the European Union poses a distinct challenge across member states and requires tailored, targeted action. EU policymakers need to strengthen the response to energy poverty and engender action across member states, moving beyond the focus on vulnerable consumers in energy markets.