| Title | Municipal Solid Waste Management: A Review of Waste to Energy (WtE) Approaches |
|---|---|
| ID_Doc | 8959 |
| Authors | Ram, C; Kumar, A; Rani, P |
| Title | Municipal Solid Waste Management: A Review of Waste to Energy (WtE) Approaches |
| Year | 2021 |
| Published | Bioresources, 16.0, 2 |
| Abstract | Global municipal solid waste (MSW) generation will increase to 2.2 billion tons per year by 2025 as per the World Bank projection. Improper waste management often leads to environmental degradation (i.e. water, air and soil pollution), transmission of diseases, and the release of greenhouse gases emissions, which contributes to climate change. To combat these problems, several countries are following the waste to energy (WtE) approach, which significantly reduces the volume of waste and generates renewable energy. Thus, the present study focuses on the municipal solid waste generation, composition, and waste to energy conversion technologies. Thermal conversion processes including incineration, pyrolysis, and gasification for heat, bio-oil, and syngas generation are already well established and are being employed in several countries. Currently, researchers are trying to improve the efficiency of biochemical methods such as anaerobic digestion, microbial fermentation, and microbial fuel cells for biogas, biohydrogen, and bioelectricity generation from MSW. This review explains the recent focus on microbial fermentation and microbial fuel cells for biofuels and bioelectricity production. Development of these technologies can lead to suitable ecofriendly approaches for the future. WtE technologies are important components of circular economy that will assist to achieve the demand of clean energy in future. |
| https://bioresources.cnr.ncsu.edu/wp-content/uploads/2021/02/BioRes_16_2_Review_4275_Ram_Kumar_Rani_Municipal_Solid_Waste_Manag_Waste_to_Energy_18513.pdf |
Similar Articles
| ID | Score | Article |
|---|---|---|
19776
|
Varjani, S; Shahbeig, H; Popat, K; Patel, Z; Vyas, S; Shah, AV; Barceló, D; Ngo, HH; Sonne, C; Lam, SS; Aghbashlo, M; Tabatabaei, M Sustainable management of municipal solid waste through waste-to-energy technologies(2022) | |
| 13688
|
Kumar, K; Ding, L; Zhao, HY; Cheng, MH Waste-to-Energy Pipeline through Consolidated Fermentation-Microbial Fuel Cell (MFC) System(2023)Processes, 11, 8 | |
| 20941
|
Tsui, TH; Wong, JWC A critical review: emerging bioeconomy and waste-to-energy technologies for sustainable municipal solid waste management(2019)Waste Disposal & Sustainable Energy, 1, 3 | |
| 13468
|
Xiao, N; Kong, LX; Wei, MM; Hu, XF; Li, O Innovations in food waste management: from resource recovery to sustainable solutions(2024) | |
| 16191
|
Garg, A; Basu, S; Shetti, NP; Bhattu, M; Alodhayb, AN; Pandiaraj, S Biowaste to bioenergy nexus: Fostering sustainability and circular economy(2024) | |
| 13290
|
Li, LY; Li, J; Li, YC; Luo, J; Wang, Y; Wang, XA Perspective of Waste to Energy and Fuel with Negative Emission Potential: Smart Environmental and Techno-economic Analysis(2023)Energy & Fuels, 37, 19 | |
| 28007
|
Economou, F; Voukkali, I; Papamichael, I; Phinikettou, V; Loizia, P; Naddeo, V; Sospiro, P; Liscio, MC; Zoumides, C; Tirca, DM; Zorpas, AA Turning Food Loss and Food Waste into Watts: A Review of Food Waste as an Energy Source(2024)Energies, 17.0, 13 | |
| 21598
|
Li, Y; Meenatchisundaram, K; Rajendran, K; Gohil, N; Kumar, V; Singh, V; Solanki, MK; Harirchi, S; Zhang, ZQ; Sindhu, R; Taherzadeh, MJ; Awasthi, MK Sustainable Conversion of Biowaste to Energy to Tackle the Emerging Pollutants: A Review(2023)Current Pollution Reports, 9.0, 4 | |
| 4319
|
Hoang, AT; Varbanov, PS; Nizetic, S; Sirohi, R; Pandey, A; Luque, R; Ng, KH; Pham, V Perspective review on Municipal Solid Waste-to-energy route: Characteristics, management strategy, and role in circular economy(2022) | |
| 13245
|
Seruga, P; Krzywonos, M; Seruga, A; Niedzwiecki, L; Pawlak-Kruczek, H; Urbanowska, A Anaerobic Digestion Performance: Separate Collected vs. Mechanical Segregated Organic Fractions of Municipal Solid Waste as Feedstock(2020)Energies, 13, 15 |