CRIS

Permanent URI for this communityhttps://cris.ute.edu.ec/handle/123456789/1

Browse

Settings

Language: search.filters.language.EnglishSubject: search.filters.subject.Waste to energy

Search Results

Now showing 1 - 2 of 2
  • Loading...
    Thumbnail Image
    Some of the metrics are blocked by your 
    consent settings
    Item type:Publication,
    Advancing sustainable bioethanol production from organic waste by integrating life cycle modeling
    (Elsevier BV, 2025-12)
    Khadija Sajid
    ;
    Muhammad Hassan Javed
    ;
    Ala'a H. Al-Muhtaseb
    ;
    Mohammad Rehan
    ;
    Mohammad Ilyas Khan
    This study aims to optimize the environmental and economic benefits of producing bioethanol from the organic fraction of municipal solid waste in Pakistan. The country generates approximately 71,000 kg of OFMSW annually, yet no facility currently exists for its conversion into bioethanol. Leveraging the availability of OFMSW, this study designs a bioethanol production plant and evaluates its environmental sustainability through an attributional life cycle assessment using the ReCiPe (H) model. Results indicate that 154 kg of bioethanol can be produced from every 1 ton of organic waste. Compared to current landfilling practices, bioethanol production from OFMSW demonstrates lower environmental burdens, including climate change potential (3.05E-05 kg CO₂ eq), photochemical ozone formation (132 kg NOx eq), human toxicity (13.6 kg 1,4-DB eq), eutrophication potential (10.9 kg P eq), ozone depletion potential (0.0111 kg CFC-11 eq), and acidification potential (−5.39E-03 kg SO₂ eq). Scenario modelling assessed the integration of photovoltaic solar cells for electricity supply, showing a reduction in fine particulate matter emissions from 67.8 kg to 0.766 kg PM₂.₅ eq compared to grid electricity. Hotspot analysis identified key impact categories contributing to environmental burdens. The economic assessment revealed an annual revenue potential of approximately USD 528,330 from bioethanol sales. Overall, producing bioethanol from OFMSW presents a viable alternative fuel pathway that is both environmentally and economically beneficial, reduces landfill dependency, and supports the principles of a circular economy. This strategy contributes directly to achieving key United Nations Sustainable Development Goals (SDGs), including responsible consumption and production, affordable clean energy, and climate action.
  • Loading...
    Thumbnail Image
    Some of the metrics are blocked by your 
    consent settings
    Item type:Publication,
    Waste-to-energy technologies: a sustainable pathway for resource recovery and materials management
    (Royal Society of Chemistry (RSC), 2025-07-03)
    Ashish Soni
    ;
    Sonu Kumar Gupta
    ;
    Natarajan Rajamohan
    ;
    Mohammad Yusuf
    The huge generation of municipal solid waste along with the reliance on natural resources to meet the ever-increasing demand of energy has stimulated the world towards the exploration of novel methods for the recovery of energy and resources by using the generated waste. Despite the numerous advantages of waste-to-energy (WtE) technologies, these techniques are not widely implemented. The review has summarized the various aspects of WtE techniques including advantages and limitations, techno-economic analysis, challenges and prospects, framework and implementation. The review has identified that the WtE techniques are more efficient than conventional waste management practices. The characteristics of municipal solid waste (MSW) vary with geographical conditions, living standards, socio-economic conditions, etc. Therefore, no particular WtE technique is equally feasible for the treatment of MSW. The strict environmental strategies, policies, and guidelines can assist in selecting the best WtE practice. The thermal treatment methods can effectively reduce the volume of generated waste by up to 90%. Techno-economic analysis has revealed that WtE techniques are economically feasible with suitable measures. The life-cycle assessments have found that WtE techniques can recover up to 27.40% of energy. The food and agriculture waste constitutes 50-56% of the generated waste stream in developing countries thereby highlighting the significance of anaerobic digestion. The implementation of WtE techniques can considerably reduce the emission of greenhouse gases and is beneficial to environmental health. The potential of WtE techniques for effective waste management and promotion of sustainability is underscored. The review contributes to the implementation of more effective measures for MSW management and promotes a circular economy.