A bibliographic study of biochar and hydrochar: differences and similarities DOI Creative Commons

Paolo Cognigni,

Cristina Leonelli, Mario Berrettoni

et al.

Journal of Analytical and Applied Pyrolysis, Journal Year: 2025, Volume and Issue: 187, P. 106985 - 106985

Published: Feb. 1, 2025

Language: Английский

Multifaceted roles of microalgae in the application of wastewater biotreatment: A review DOI
Wai Siong Chai, Viggy Wee Gee Tan, Heli Siti Halimatul Munawaroh

et al.

Environmental Pollution, Journal Year: 2020, Volume and Issue: 269, P. 116236 - 116236

Published: Dec. 7, 2020

Language: Английский

Citations

343
Review on biomass feedstocks, pyrolysis mechanism and physicochemical properties of biochar: State-of-the-art framework to speed up vision of circular bioeconomy DOI
Gajanan Ghodake, Surendra K. Shinde, Avinash A. Kadam

et al.

Journal of Cleaner Production, Journal Year: 2021, Volume and Issue: 297, P. 126645 - 126645

Published: March 9, 2021

Language: Английский

Citations

312
Energy Issues in Sustainable Urban Wastewater Management: Use, Demand Reduction and Recovery in the Urban Water Cycle DOI Open Access
Andrea G. Capodaglio, Gustaf Olsson

Sustainability, Journal Year: 2019, Volume and Issue: 12(1), P. 266 - 266

Published: Dec. 29, 2019

Urban water systems and, in particular, wastewater treatment facilities are among the major energy consumers at municipal level worldwide. Estimates indicate that on average these alone may require about 1% to 3% of total electric output a country, representing significant fraction bills. Specific power consumption state-of-the-art should range between 20 and 45 kWh per population-equivalent served, year, even though older plants have higher demands. This figure does not include conveyance (pumping) residues post-processing. On other hand, its byproducts contain different forms: chemical, thermal potential. Until very recently, only form recovery from most consisted anaerobic post-digestion process residuals (waste sludge), by which chemical methane is obtained as biogas, amounts generally sufficient cover half plant requirements. Implementation new technologies allow more efficient strategies savings sewage treatment. Besides valorization exploitation contents, closure cycle content could additional increased greenhouse emissions abatement.

Language: Английский

Citations

268
Biochar for soil applications-sustainability aspects, challenges and future prospects DOI
Mohammadreza Kamali, Nick Sweygers, S.M. Al–Salem

et al.

Chemical Engineering Journal, Journal Year: 2021, Volume and Issue: 428, P. 131189 - 131189

Published: July 10, 2021

Language: Английский

Citations

221
Biofuel production from microalgae: challenges and chances DOI
Anh Tuan Hoang, Ranjna Sirohi, Ashok Pandey

et al.

Phytochemistry Reviews, Journal Year: 2022, Volume and Issue: 22(4), P. 1089 - 1126

Published: May 2, 2022

Language: Английский

Citations

173
Sewage sludge-derived biochar for the adsorptive removal of wastewater pollutants: A critical review DOI

Rangabhashiyam Selvasembian,

Pollyanna Vanessa dos Santos Lins,

Leonardo M.T.M. Oliveira

et al.

Environmental Pollution, Journal Year: 2021, Volume and Issue: 293, P. 118581 - 118581

Published: Nov. 30, 2021

Language: Английский

Citations

159
Role of microalgae in achieving sustainable development goals and circular economy DOI
A.G. Olabi, Nabila Shehata, Enas Taha Sayed

et al.

The Science of The Total Environment, Journal Year: 2022, Volume and Issue: 854, P. 158689 - 158689

Published: Sept. 13, 2022

Language: Английский

Citations

149
Towards sustainable agriculture with carbon sequestration, and greenhouse gas mitigation using algal biochar DOI
Sharma Mona, Sandeep K. Malyan,

Neha Saini

et al.

Chemosphere, Journal Year: 2021, Volume and Issue: 275, P. 129856 - 129856

Published: Feb. 10, 2021

Language: Английский

Citations

146
Thermal Conversion of Microalgae into Biochar: A Review on Processes, Properties, and Applications DOI Creative Commons
Sherif Ishola Mustapha, Yusuf Makarfi Isa

ChemBioEng Reviews, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 14, 2025

Abstract Global energy consumption has drastically increased over the years due to population growth and industrialization. This prompted an exploration for clean renewable alternatives. Microalgae are widely recognized as a promising third‐generation source because they have capability generate biofuels, including biochar. The utilization of microalgal biomass been gaining traction their advantages, such fast growth, high rate production, carbon‐fixing efficiency. Thermochemical methods like hydrothermal carbonization, torrefaction, pyrolysis can be employed harness from microalgae. different thermochemical converting into biochar discussed, well factors affecting these methods. In addition, dedicated section covered components properties generated biochar, its thermal surface properties. Furthermore, economic analysis production microalgae applications microalgae‐derived were presented along with suggestions further research.

Language: Английский

Citations

2
Co-pyrolysis of sewage sludge and rice husk/ bamboo sawdust for biochar with high aromaticity and low metal mobility DOI
Jin Zhang, Junwei Jin, Minyan Wang

et al.

Environmental Research, Journal Year: 2020, Volume and Issue: 191, P. 110034 - 110034

Published: Aug. 20, 2020

Language: Английский

Citations

129