Hydrogen production through renewable and non-renewable energy processes and their impact on climate change
The urbanization and increase in the human population has significantly influenced the
global energy demands. The utilization of non-renewable fossil fuel-based energy …
global energy demands. The utilization of non-renewable fossil fuel-based energy …
Renewable energy-to-green hydrogen: A review of main resources routes, processes and evaluation
Hydrogen is a fuel with enormous potential to meet the need for ecologically friendly energy
sources. Hydrogen from renewable sources can reroute renewable sources out of landfills …
sources. Hydrogen from renewable sources can reroute renewable sources out of landfills …
Using machine learning approaches to model and optimize a combined solar/natural gas-based power and freshwater cogeneration system
Problems of sustainable development and environmental protection pose a challenge to
humanity unprecedented in scope and complexity. Whether and how the problems are …
humanity unprecedented in scope and complexity. Whether and how the problems are …
Multi-objective design optimization of a multi-generation energy system based on geothermal and solar energy
In this paper, a multi-generation system based on geothermal energy and parabolic trough
solar collectors is proposed for the simultaneous generation of power, cooling, freshwater …
solar collectors is proposed for the simultaneous generation of power, cooling, freshwater …
A critical review on the development and challenges of concentrated solar power technologies
Solar energy is considered to be one of the most promising renewable and sustainable
energy sources. Two key technologies such as photovoltaic and concentrated solar power …
energy sources. Two key technologies such as photovoltaic and concentrated solar power …
Grid-connected hydrogen production via large-scale water electrolysis
A techno-economic analysis was performed for large-scale hydrogen production plants
(4000–40,000 kgH 2/day or approximately 10–100 MW). Two electricity pricing schemes in 8 …
(4000–40,000 kgH 2/day or approximately 10–100 MW). Two electricity pricing schemes in 8 …
Thermochemical water-splitting structures for hydrogen production: Thermodynamic, economic, and environmental impacts
Thermochemical water-splitting (TWS) processes are regarded as one of the most
environmentally friendly strategies, capable of harnessing high-temperature waste heat from …
environmentally friendly strategies, capable of harnessing high-temperature waste heat from …
A critical review on integrated system design of solar thermochemical water-splitting cycle for hydrogen production
X Li, X Sun, Q Song, Z Yang, H Wang… - International Journal of …, 2022 - Elsevier
The development of clean hydrogen production methods is important for large-scale
hydrogen production applications. The solar thermochemical water-splitting cycle is a …
hydrogen production applications. The solar thermochemical water-splitting cycle is a …
[HTML][HTML] Hydrogen towards sustainable transition: A review of production, economic, environmental impact and scaling factors
Currently, meeting the global energy demand is largely dependent on fossil fuels such as
natural gas, coal and oil. Fossil fuels represent a danger to the Earth's environment and its …
natural gas, coal and oil. Fossil fuels represent a danger to the Earth's environment and its …
Energy and exergoeconomic assessments of a renewable hybrid ERC/ORC integrated with solar dryer unit, PEM electrolyzer, and RO desalination subsystem
In this investigation, a zero-dimensional model of a renewable generation system
encompassing a solar-geothermal driven Proton Exchange Membrane (PEM) electrolyzer …
encompassing a solar-geothermal driven Proton Exchange Membrane (PEM) electrolyzer …