Public health improvement by reducing air pollution: A strategy for the transition to renewable energy
Résumé
An important outcome for improving public health from the transition to renewable energy sources (wind, solar, and hydropower) is a significant reduction in emissions of important air pollutants. They are particulate matter (PM), nitrogen oxides (NOx), sulphur oxides (SOx) in contrast to fossil fuel resources. Experts estimate that the abandonment of fossil fuel combustion in the United States alone would avoid 53,000 deaths per year, which amounts to more than $600 billion in monetised health benefits. In Algeria, there is a significant discrepancy between the declared national goals for the transition to renewable energy sources and their actual implementation. The article purpose is to identify reasons for this discrepancy and to develop effective mechanisms for its gradual reduction. The article argues that the main reasons for these discrepancies are limited determination and lack of a coherent plan, as well as structural obstacles, such as significant financial support for fossil fuels, a strong group of interests of oil and gas companies, problems with financing, and the dominance of monopolies in renewable energy projects. The article proposes a course correction for Algeria to realise its enormous solar, wind, and other clean energy potential through targeted reforms that will attract sustainable investment. Algeria needs a well-planned and long-term approach to development and diversification that meets the goals of the global climate agenda. The article offers and explains the gradual removal of fuel subsidies, liberalisation of energy markets, expansion of training initiatives, and exploration of new financial mechanisms. In order to utilise renewable energy resources, it is crucial for Algeria to have unwavering political will to overcome resistance from traditional fossil fuel industries.
Mots clés
Q53
Q55
Q58
public health
mortality
air quality
air pollution
concentrated solar power
energy transition
photovoltaic power
renewable energy. JEL Classification: Q42
public health mortality air quality air pollution concentrated solar power energy transition photovoltaic power renewable energy. JEL Classification: Q42
Q48
Domaines
Sciences de l'Homme et SociétéOrigine | Fichiers éditeurs autorisés sur une archive ouverte |
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