Chan, Y.H. and Lock, S.S.M. and Chin, B.L.F. and Wong, M.K. and Loy, A.C.M. and Foong, S.Y. and Yiin, C.L. and Lam, S.S. (2023) Progress in thermochemical co-processing of biomass and sludge for sustainable energy, value-added products and circular economy. Bioresource Technology, 380. ISSN 09608524
Full text not available from this repository.Abstract
To achieve the main goal of net zero carbon emission, the shift from conventional fossil-based energy/products to renewable and low carbon-based energy/products is necessary. Biomass has been perceived as a carbon�neutral source from which energy and value-added products can be derived, while sludge is a slurry waste that inherently contains high amount of minerals and organic matters. Hence, thermochemical co-processing of biomass wastes and sludge could create positive synergistic effects, resulting in enhanced performance of the process (higher conversion or yield) and improved qualities or characteristics of the products as compared to that of mono-processing. This review presents the current progress and development for various thermochemical techniques of biomass-sludge co-conversion to energy and high-value products, and the potential applications of these products from circular economy's point of view. Also, these technologies are discussed from economic and environmental standpoints, and the outlook towards technology maturation and successful commercialization is laid out. © 2023 Elsevier Ltd
Item Type: | Article |
---|---|
Impact Factor: | cited By 6 |
Uncontrolled Keywords: | Carbon; Environmental technology, Circular economy; Coprocessing; Energy; Energy products; Energy value; Sludge; Sustainable energy; Thermochemical Conversion; Thermochemicals; Value added products, Biomass, organic matter; carbon, alternative energy; biomass; commercialization; economic activity; sludge; thermochemistry; waste treatment, biomass; carbon emission; carbonization; Chinese medicine; gasification; process model; pyrolysis; Review; sewage; sludge; sustainable development; synergistic effect; temperature; biomass; physical phenomena; renewable energy; sewage, Biomass; Carbon; Physical Phenomena; Renewable Energy; Sewage |
Depositing User: | Mr Ahmad Suhairi Mohamed Lazim |
Date Deposited: | 04 Oct 2023 13:30 |
Last Modified: | 04 Oct 2023 13:30 |
URI: | http://scholars.utp.edu.my/id/eprint/37520 |