Hybrid renewable energy systems involving thermochemical conversion process for waste-to-energy strategy
Abstract Waste-to-energy (WtE) conversion processes integrated with other renewable
energy processes (thermochemical hybrid WtE systems) have emerged rapidly as a strategy …
energy processes (thermochemical hybrid WtE systems) have emerged rapidly as a strategy …
An overview of advances in biomass gasification
Biomass gasification is a widely used thermochemical process for obtaining products with
more value and potential applications than the raw material itself. Cutting-edge, innovative …
more value and potential applications than the raw material itself. Cutting-edge, innovative …
Bi-objective optimization and environmental assessment of SOFC-based cogeneration system: performance evaluation with various organic fluids
H Tian, R Li, B Salah, PH Thinh - Process Safety and Environmental …, 2023 - Elsevier
Heat recovery offers multiple advantages, such as reducing energy consumption, promoting
environmental sustainability, and enhancing productivity. Consequently, in this study, a bi …
environmental sustainability, and enhancing productivity. Consequently, in this study, a bi …
Working-fluid selection and thermoeconomic optimisation of a combined cycle cogeneration dual-loop organic Rankine cycle (ORC) system for solid oxide fuel cell …
A novel combined-cycle system is proposed for the cogeneration of electricity and cooling, in
which a dual-loop organic Rankine cycle (ORC) engine is used for waste-heat recovery from …
which a dual-loop organic Rankine cycle (ORC) engine is used for waste-heat recovery from …
Recent advances in thermodynamic analysis of biomass gasification: A review on numerical modelling and simulation
Due to environmental and economic advantages, the production and utilization of
renewable and eco-friendly fuels derived from residues have received attention globally …
renewable and eco-friendly fuels derived from residues have received attention globally …
Development and exergoeconomic evaluation of a SOFC-GT driven multi-generation system to supply residential demands: Electricity, fresh water and hydrogen
In this study, a novel multi-generation system is proposed by integrating a solid oxide fuel
cell (SOFC)-gas turbine (GT) with multi-effect desalination (MED), organic flash cycle (OFC) …
cell (SOFC)-gas turbine (GT) with multi-effect desalination (MED), organic flash cycle (OFC) …
Estimation of exergy-based sustainability index and performance evaluation of a novel intercooled hybrid gas turbine system
This paper contributes a novel sustainability index and modified exergy indicators for
conventional gas turbines and solid oxide fuel cell integrated gas turbine (SOFC-GT) hybrid …
conventional gas turbines and solid oxide fuel cell integrated gas turbine (SOFC-GT) hybrid …
Integration of wind turbine with biomass-fueled SOFC to provide hydrogen-rich fuel: Economic and CO2 emission reduction assessment
Addressing the energy crisis and global warming issues would entail urgent development of
efficient and environmentally-benign power generation systems to mitigate the future clean …
efficient and environmentally-benign power generation systems to mitigate the future clean …
Multi-objective optimization of biomass-based solid oxide fuel cell integrated with Stirling engine and electrolyzer
The aim of this study is to increase the power generation/exergy efficiency and reduce total
product cost/environmental contamination of solid oxide fuel cells. Accordingly, three …
product cost/environmental contamination of solid oxide fuel cells. Accordingly, three …
Optimization of a syngas-fueled SOFC-based multigeneration system: Enhanced performance with biomass and gasification agent selection
In light of abundant sources of biomass feedstocks and regarding the higher performance in
syngas-fueled-based SOFC systems, this work proposes a novel multigeneration system …
syngas-fueled-based SOFC systems, this work proposes a novel multigeneration system …