This special issue of Energy focuses on the cutting-edge research on waste-to-energy (WtE) in the circular economy, greenhouse gas reduction, and sustainable waste management systems that generate energy. This editorial paper provides a brief overview of the key methodologies, discoveries, and future horizons
ESCI. 20238,Waste Disposal & Sustainable Energy(《 (
The crisis of fossil fuel and their negative impact on the environment has caused concern among the scientific communities leading them to look around for renewable sources of energy. This review has emphasized the efficient utilization of organic municipal solid waste as well as agriculture waste in an anaerobic digester for the production of
Sub-Saharan Africa is witnessing a proliferation of photovoltaic (PV) waste due to the increasing number of solar PV power plants. PV waste (panels, batteries, electrical cables, mounting structures, and inverters) consists of elements such as mercury, cadmium, chromium, lead, copper, aluminum, fluorinated compounds, and plastics that
Abstract. The production of biohydrogen from biological processes is cleaner and more sustainable than that of fossil fuel-based hydrogen. The drive for cleaner and sustainable energy sources is an important facet of the bioeconomy. Based on these findings, this paper aimed to examine the significance and impact of biohydrogen on the
We emphasize the significance of Waste-to-Energy (W2E) and Waste-to-Fuel (W2F) technologies, e Since the 1990s, the Maldives have been disposing of its waste in a lagoon known as Thilafushi
Waste Disposal & Sustainable Energy (WDSE) is an international multi-disciplinary journal focusing on low-carbon waste disposal/treatment and sustainable energy utilization.
Electrical and electronic waste (e-waste) has become a global crisis. Managing this ever-growing problem has become very critical and yet challenging, especially in the South Asian region; otherwise, it may undermine the sustainability of development and growth of numerous industries. Hence, to explore the current context of e-waste
Energy recovery from solid wastes in China and a Green-BRI mechanism for advancing sustainable waste management of the global South. A. C. (Thanos) Bourtsalas. Article 05 February 2023 Pages: 309 - 321. Part of 1 collection: Thermal processing of post-recycling urban wastes (WTE)
A waste hierarchy was established (from desirable to least desirable): prevention, reuse, recycling, recovery from other purposes—such as energy—and disposal []. As visualized in Fig. 1, in the first year of implementation, the plastic packaging waste generation declined, while it continued the earlier set trendline after 2010.
The waste-to-energy (WTE) technologies are now recovering energy and materials from over 300 million tonnes of municipal solid wastes worldwide. Extensive studies have investigated substituting natural construction materials with WTE residues to relieve the environmental cost of natural resource depletion. This study examined the
Waste Disposal & Sustainable Energy - WDSE Featured Journal Covers Introducing our selection of captivating cover articles that are sure to pique your interest. Please read and share the cutting-edge technology and insights brought to you by our talented authors.
Waste Disposal & Sustainable Energy Article Crucial role of iron plaque on thallium uptake by rice plant Article Open access Published: 30 January 2023 Volume 5, pages 89–96, (2023) Cite this article Download PDF You have full access to this
Online first articles listing for Waste Disposal & Sustainable Energy Improved slagging characteristics of low-value solid waste fuel asphalt rock by mineral additives of CaCO 3, MgO, and Kaolin under fluidized bed
Food waste (FW) constitutes a significant portion of municipal solid waste (MSW) and represents an underutilized resource with substantial potential for energy generation. The effective management and recycling of FW are crucial for mitigating environmental issues and minimizing associated health risks. This comprehensive review
2019122,Waste Disposal & Sustainable Energy (《》, WDSE)
Waste Disposal & Sustainable Energy - Microbial fuel cells (MFCs) are innovative devices that combine microbial processes with electrochemical reactions to convert organic matter in wastewater Biocatalyst Saccharomyces cerevisiae, common to Baker''s yeast, was used in a MFC in which glucose was the carbon source.
Waste Disposal & Sustainable Energy (WDSE) is an international multi-disciplinary journal focusing on low-carbon waste disposal/treatment and sustainable energy utilization, which publishes high-quality original research papers, review papers, perspectives, and short
This paper provides a general review of the research status of mercury emissions in China. Global surveys rank Asia as the region with the largest share of global mercury emissions, accounting for almost half. China contributes about one-third of the world''s mercury emissions, which is 600–800 t per year. And thus, it plays a vital role in
estimate the energy potential of waste through two different waste disposal methods, landfills and incineration, by the years 2030 and 2060, using the Greater Bay Area of
From an energy recovery aspect, with waste-to-energy plants in 2019, the estimated electricity production is 7,140 GWh based on waste disposal data, accounting for 1.33% of electricity use in the GBA.
2019122, Waste Disposal & Sustainable Energy (《》,WDSE)。 WDSE,,Springer·Nature
Updates and news from Waste Disposal & Sustainable Energy Introducing our selection of captivating cover articles that are sure to pique your interest. Please Click to explore.
Waste to energy (WTE) technology converts waste into electricity instead of burning fossils, reducing GHG emissions. The US Energy Policy Act endorses
Five common single plastics and nine different household, commercial and industrial waste plastics were processed using a three-stage (i) pyrolysis, (ii) catalytic steam reforming and (iii) water gas shift reaction system to produce hydrogen. Pyrolysis of plastics produces a range of different hydrocarbon species which are subsequently
Correction to: Agronomic effectiveness of recovered phosphate fertilizer produced from incinerated sewage sludge ash. Le Fang. Liping Li. Chi Sun Poon. Correction 19 September 2022 Pages: 257 - 258. Volume 4, issue 3 articles listing for Waste Disposal & Sustainable Energy.
Publishing options. Waste Disposal & Sustainable Energy is a hybrid open access journal. Once the article is accepted for publication, authors will have the option to choose how their article is published: Traditional publishing model – published articles are made available to institutions and individuals who subscribe to Waste Disposal
Waste Disposal & Sustainable Energy (《》,WDSE),,Springer
4 · Waste Disposal & Sustainable Energy (WDSE) is an international multi-disciplinary journal focusing on low-carbon waste disposal/treatment and sustainable
Issue 2 June 2020. Issue 1 March 2020. Volume 1 May - December 2019. Issue 4 December 2019. Issue 3 November 2019. Issue 2 August 2019. Issue 1 May 2019.