Despite efforts and advocacy in favour of transitioning to cleaner cooking fuels, traditional, highly polluting fuels remain dominant in many developing countries. This has prompted the need for further research and evidence to support policies to increase clean energy adoption and accelerate the energy transition agenda in these countries. This study investigates the role of social origin, proxied by parental education, in the choice of cooking fuel in Ghana. Parental education is treated exogenously; hence, linear probability estimation is employed to examine the relationship between parental education and energy choice. The study finds that parental education significantly positively affects clean cooking fuel adoption, with more potent effects found in fathers’ education than in mothers’ education. Heterogeneity analyses show the impact of dampening among lower-income groups and rural residents. With a noticeable shift in educational attainment trends in recent times, as more persons attain higher education, the findings suggest that policies that infuse the socialisation of children with clean energy and sustainability issues will accelerate the clean energy transition.
Month: March 2026
Abate or Exit? The Impact of Mercury Regulation on Coal Generator Retirements
Between 2001 and 2019, coal-fired electricity generation fell by more than half due to generator retirements and reduced usage of remaining generators. Concurrently, technological advancements made previously unrecoverable shale gas reserves economically viable, thus causing downward pressure on natural gas prices. This made them competitive to coal-fired generators that were aging and becoming less efficient. Moreover, states and the federal government began regulating mercury emissions from the electric power sector, since such pollution harms human health. Little is known about how environmental regulation affects firm exit decisions, or in this case, coal generator retirements. Employing a staggered adoption difference-in- differences identification strategy in a two-way fixed effects model as well as a stacked model, I find that state-level mercury regulation that occurred before compliance of the federal-level Mercury and Air Toxics Standards had an insignificant impact on coal-fired generator retirement. Instead, generator-level abatement
investments, power plant efficiency, and state-level natural gas capacity growth help to account for the impressive departure of coal-fired generators from the grid.
Low-Carbon Governmental Policies and Cost of Debt: Evidence from China
This paper uses the staggered difference-in-differences design to investigate the effects of the low-carbon city pilot (LCCP) policy on the cost and underlying mechanisms of debt financing for enterprises. Our findings show that the LCCP significantly decreases the debt cost of enterprises through enhancements in Environmental, Social, and Governance (ESG) performance and the reduction of information asymmetry. Additional analysis indicates that the LCCP’s ability to reduce the cost of debt is particularly pronounced for firms with higher agency costs and those located in China’s eastern regions. This study offers evidence for assessing the effectiveness of low-carbon policies and suggests recommendations to policymakers seeking to enhance the design and implementation of LCCP, thereby contributing to the green development of enterprises and regions.
Analyzing the Mechanism of Decentralized Energy Governance Strategy to Reduce Carbon Emissions: Evidence from China
The transition to new energy sources is critical for addressing global carbon emissions. However, there is limited study on how decentralized energy governance (DEG) strategies can effectively promote this transition and mitigate carbon emissions. This study investigates the impact and mechanism of China’s New Energy Demonstration City (NEDC) policy, a prominent DEG strategy, on reducing carbon emissions. Using city-level data from 283 Chinese cities spanning 2006 to 2021, we employ the difference-in-differences method to analyze the policy’s effects. The results suggest that the DEG strategy significantly reduces carbon emissions, primarily through renewable energy innovation and energy transitions. Heterogeneity analysis further highlights that the policy’s effectiveness is more pronounced in non-resource- based cities, R&D-intensive cities, and those with strong environmental regulations. These findings underline the importance of expanding DEG strategies and investing in resources to foster innovation and accelerate energy transitions, providing valuable policy recommendations for achieving carbon neutrality.
Regulation and Standards for a Resilient European Energy System
Increasing climate-related hazards demand a more resilient system that can withstand, adapt, and quickly recover from such shocks. Simultaneously, the drive towards a cleaner energy system, a rapid rise in renewables, and increased sector integration have led to a less stable system that is more volatile than before and more vulnerable to shocks. This development calls for more and better energy-network system services. EU energy legislation addresses specific sides of resilience. Grid planning involves specific resilience assessment requirements for regulators as part of the network development plans. However, resilience must be better integrated and defined as a mandatory assessment requirement. Some national regulatory authorities have already incorporated resilience in their frameworks, but we argue that a targeted regulatory and legislative approach at the EU level is also needed. The benefits of resilience investments must be measured and monetised to be adequately incentivised and included in CBA analyses. In particular, due to the increased coupling between the gas and electricity sectors, new resilience metrics that reflect the growing interdependence and feedback between the two sectors are needed. We examine several approaches to measuring resilience and suggest an approach to monetisation.