Al-Waked, R.; Ouda,; Raza, S. Potential value of waste-to-energy facility in Riyadh City—Saudi Arabia. Contribution of Working Teams I, II and III to the Fifth Evaluation Report of the Intergovernmental Panel on Climate Change. Mitigation Advantages and Co-Benefits of Policies, Practices and Actions for Enhancing Mitigation Ambition: Implementation of Circular Economies with a Concentrate on Wasteto-Energy Applied sciences and on Industrial Waste Reuse and Prevention Options.Munster, M.; Lund, H. Comparing waste-to-vitality technologies by making use of vitality system analysis. Xin-Gang, Z.; Gui-Wu, J.; Ang, L.; Yun, L. Expertise, cost, a performance of waste-to-vitality incineration trade in China. Yap, H.Y.; Nixon, J.D. A multi-standards analysis of choices for energy recovery from municipal solid waste in India and the UK. Waste Manag.
Gómez, A.; Zubizarreta, J.; Rodrigues, M.; Dopazo, C.; Fueyo, N. Potential and price of electrical energy generation from human and animal waste in Spain. Mohareb, E.A.; MacLean, H.L.; Kennedy, C.A. Greenhouse fuel emissions from waste management—Assessment of quantification strategies. Minster of Works: 195 Thousand Tonnes of Meals Waste Yearly.
Bahrain’s Preliminary Communications to the United Nations Framework Convention on Local weather Change; PMEW: Manama, Bahrain, 2005. Gumisiriza, R.; Hawumba, J.F.; Okure, M.; Hensel, Biomass waste-to-power valorisation applied sciences: A evaluation case for banana processing in Uganda. Dong, J.; Tang, Y.; Nzihou, A.; Chi, Y.; Weiss-Hortala, E.; Ni, M.; Zhou, Z. Comparison of waste-to-power technologies of gasification and incineration utilizing life cycle evaluation: Case studies in Finland, France and China.