AA Al-Qadri, U Ahmed - Computer Aided Chemical Engineering, 2022 - Elsevier
The need of hydrogen as a clean fuel has grabbed a lot of global attention. Therefore, various processes have been developed for hydrogen production. Conversion of plastic …
The pursuit of carbon neutrality confronts the twofold challenge of meeting energy demands and reducing pollution. This review article examines the potential of gasifying plastic waste …
Plastics have a considerable contribution on volumetric portion of the worldwide municipal solid waste. Gasification of plastic waste is an efficient thermo-chemical approach with a …
Plastic waste-to-energy conversion via gasification is a promising method for hydrogen production. In this study, the effects of waste plastic type, equivalence ratio, operating …
This review paper focuses on converting plastic wastes into clean hydrogen via gasification for better sustainability. In this regard, various aspects of hydrogen production from plastic …
M Yu, M Kim, J Byun, S Lee - Chemical Engineering Science, 2024 - Elsevier
Waste-to-energy is emerging as a promising technology that can reduce greenhouse gas emissions and solve waste disposal problems. This study focused on hydrogen production …
The global energy demand is expected to increase by 30% within the next two decades. Plastic thermochemical recycling is a potential alternative to meet this tremendous demand …
Hydrogen is an energy carrier that can be utilized in various applications, including power plants, the synthesis of high-value products, and clean transportation fuels without …
AA Al-Qadri, U Ahmed - Computer Aided Chemical Engineering, 2023 - Elsevier
Hydrogen and methanol are among the most vital fuels and chemicals nowadays. Hydrogen is considered as clean fuel because it produces zero carbon emissions. Comparably …