Waste Management
Overview
Waste Management is a reputable interdisciplinary journal that focuses on the efficient and sustainable management of waste. It covers a wide range of topics including waste reduction, recycling, landfill management, waste-to-energy technologies, and policy development. With a strong emphasis on environmental protection and resource conservation, this journal provides valuable insights and innovative solutions for waste management professionals, researchers, and policymakers.
Details
Details
Abbr.
Waste Manag
Start
1989
End
Continuing
Frequency
Eighteen issues a year, 2019-
p-ISSN
0956-053X
e-ISSN
1879-2456
Country
United States
Language
English
Metrics
Metrics
h-index / Ranks: 540
220
SJR / Ranks: 1523
1734
CiteScore / Ranks: 613
15.10
Recent Articles
1.
Xu X, Wang C, Yi Q, Ye J, Kong X, Ashraf S, et al.
Waste Manag
. 2025 Mar;
200:114742.
PMID: 40088805
The surge in medical waste has highlighted the urgent need for cost-effective and advanced management solutions. In this paper, a novel medical waste management approach, "MedBin," is proposed for automated...
2.
Xu R, Wang Q, Zha F, Wu J, Sunil Shobha B, Singh D
Waste Manag
. 2025 Mar;
200:114746.
PMID: 40088804
Vapor-phase perfluoroalkyl and polyfluoroalkyl substances (PFASs), along with methane emissions from landfills has been key contributors of their atmospheric transport and global distribution. Given the persistence, bioaccumulation, and potential health...
3.
Galan J, Gonzalez M, Moral P, Garcia-Martin A, Martinez J
Waste Manag
. 2025 Mar;
199:25-35.
PMID: 40081303
This work lays the groundwork for creating an automated system for the inventory of urban waste elements. Our primary contribution is the development of, to the best of our knowledge,...
4.
Zhang Z, Yu Y, Rao Y, Wang Y, Yu C, Luo Z, et al.
Waste Manag
. 2025 Mar;
200:114745.
PMID: 40081265
Landfilling after chelation is the primary method for treating municipal solid waste incineration fly ash (MSWI FA), but the long-term environmental risks of its heavy metals (HMs) remain unclear. This...
5.
Chen J, Li Q, Zhang J, Zhou H, Peng S, Qiao S, et al.
Waste Manag
. 2025 Mar;
200:114738.
PMID: 40073665
The safe disposal and utilization of bulk solid waste (SW) are critical challenges. Manufactured soil, a soil-like material composed of SW, offers a novel solution for resource recycling. However, the...
6.
Yangthong H, Udomsin P, Jansinak S, Suethao S, Goh K, Smitthipong W
Waste Manag
. 2025 Mar;
200:114737.
PMID: 40058170
This study explores the use of fly ash (FA), a waste material, to partially replace zinc oxide (ZnO) as an activator in tire tread processing. Reducing ZnO addresses its environmental...
7.
Chari S, Paulillo A, Materazzi M
Waste Manag
. 2025 Mar;
199:13-24.
PMID: 40056821
The study investigates the potential of chemical recycling of plastic waste in the UK, specifically through a small-scale, decentralised pyrolysis process that incorporates in-situ upgrading. With rising plastic production and...
8.
Lysowski R, Ksepko E, Ra H
Waste Manag
. 2025 Mar;
199:1-12.
PMID: 40054412
Biomass derived from agricultural waste is a promising source of renewable energy. When used in low-emission combustion technologies such as chemical looping combustion (CLC), it has the potential to achieve...
9.
Babe A, Cuingnet R, Scuturici M, Miguet S
Waste Manag
. 2025 Mar;
198:187-197.
PMID: 40054101
Industrial waste classification systems based on computer vision require strong generalization abilities across location and time period in order to be deployed. This study investigates the potential of foundation models,...
10.
Anjana E, Aiswariya K, Prathish K, Sahoo S, Jayasankar K
Waste Manag
. 2025 Mar;
198:174-186.
PMID: 40054100
Printed Circuit Boards (PCBs), a primary component of electronic waste (E-waste), contain silica fabric as a major non-metallic material, which needs to be reutilized for high-performance applications. This study focuses...