The technologies will cover systems that process biomass, municipal solid waste, nonrecycled plastics, sludge, and wet solid waste. It will also include case studies of the Enerkem Waste to Fuels and Chemicals process, Golden Renewable Energy''s plastics-to-oil pyrolysis process, and Sustainable Waste Power Systems'' wet waste gasification
Among numerous thermochemical conversion techniques, gasification of municipal solid waste with different biomass blends has unveiled as an auspicious technology to develop
2021421 · Iakovu et al. provided a critical synthesis of waste biomass-to-energy supply chain focusing, as well as Kerroum and Hassan, on the production of biogas from
2020121 · The use of gasification to produce power from different energy sources, such as biomass, and municipal solid waste (MSW), has increased worldwide. Syngas production costs can reach $5–7/MMBtu [ [1], [2], [3] ], which makes syngas favorably competitive with natural gas in many regions worldwide.
202225 · During high temperature slagging gasification of municipal solid waste (MSW), coal coke is typically used as an auxiliary fuel to maintain the high temperature in the gasifier and convert ashes into slag. Biomass charcoal had a higher HHV (31.8 ± 0.1 MJ/kg) than coal coke (28.3 ± 0.1 MJ/kg). Based on the ultimate analysis, it is
202121 · This paper critically reviews the current status of utilization of municipal solid waste and biomass blends for energy and resources recovery together with identifying
2020101 · This paper investigated the interactive effects between biomass and plastic, derived from municipal solid wastes, during co-torrefaction of their mixtures. Mango branches (MBr), waste newspaper (Np), low-density polyethylene (LDPE) and their blends were torrefied at 300 °C at a constant heating rate of 10 °C/min for 30 min using a bench
2021217 · Municipal solid waste has received significant attention in advanced waste treatment engineering. A recent trend emphasizing its significance is the utilization of
201611 · Biogas production from diverse biomass resources, including agroresidues, energy crops, food wastes, animal manure, organic fraction of municipal solid waste, and industrial wastes, emerges as a top-notch practice mainly due to the technology robustness, diverse applications of produced biogas, applicability in remote locations and developing
2021217 · Municipal solid waste has received significant attention in advanced waste treatment engineering. A recent trend emphasizing its significance is the utilization of waste as an energy source with high efficiency and low cost. This report describes a waste-to-energy fuel cell that uses biomass, resin, plastic, and food waste directly as fuels at a
202381 · Though, municipal solid waste, animal manures, sewage and poultry manures can also be transformed for energy production, residues from agricultural sectors such as husk, stalk, stem, shells, etc., and from forest such as leaves, timbers, dry leaves, branches, etc. are widely utilized for conversion and production of biofuels and bioenergy
200991 · Co-pyrolysis of cotton stalk, a representative agricultural biomass in China, mixed with municipal solid waste (MSW) with high ash content and low calorific value was carried out using a thermogravimetric analyzer (TGA) coupled with a Fourier transform infrared (FTIR) spectrometer in Ar atmosphere.
2019722 · For municipal solid waste (MSW), CHP offers the highest net energy gain while anaerobic digestion returns more climate benefits than other pathways.
202141 · The co-gasification of refuse derived fuel (RDF) and biomass is a promising technology for environmentally friendly municipal solid waste (MSW) utilization. Herein,
202431 · Co-gasification of biomass and municipal solid waste (MSW) exhibits synergistic effects by improving the quality of syngas while reducing environmental
2022815 · Catalytic co-pyrolysis of municipal solid waste (MSW) and biomass pine sawdust (PSD) under sludge fly ash (SFA) could be a breakthrough towards the energy challenges and waste management. This paper aims to develop a unique cobalt-alkali-SFA (Co-A-SFA) catalyst, in order to investigate its influence under optimal operating
20191015 · Abstract. The composition, heating value, and reactivity of different municipal and industrial solid waste materials were studied and compared with biomass and coal samples. Reactivity characterization was performed in a vertical tube reactor by dropping a pelletized sample on a porous grid and monitoring the conversion of the
2021217 · As one of the first systematic studies, biomass gasification integrated internal reforming solid oxide fuel cell (SOFC) plant is
2022112 · The conversion of municipal solid waste (MSW) to value added products is globally gaining significant prominence. The major portion of MSW is organic consisting