Amer Al-Hinai scite author profile

Dihydrogen (H2), commonly named ‘hydrogen’, is increasingly recognised as a clean and reliable energy vector for decarbonisation and defossilisation by various sectors. The global hydrogen demand is projected to increase from 70 million tonnes in 2019 to 120 million tonnes by 2024. Hydrogen development should also meet the seventh goal of ‘affordable and clean energy’ of the United Nations. Here we review hydrogen production and life cycle analysis, hydrogen geological storage and hydrogen utilisation. Hydrogen is produced by water electrolysis, steam methane reforming, methane pyrolysis and coal gasification. We compare the environmental impact of hydrogen production routes by life cycle analysis. Hydrogen is used in power systems, transportation, hydrocarbon and ammonia production, and metallugical industries. Overall, combining electrolysis-generated hydrogen with hydrogen storage in underground porous media such as geological reservoirs and salt caverns is well suited for shifting excess off-peak energy to meet dispatchable on-peak demand.

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Conversion of biomass to biofuels and life cycle assessment: a review

Osman

et al. 2021

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The global energy demand is projected to rise by almost 28% by 2040 compared to current levels. Biomass is a promising energy source for producing either solid or liquid fuels. Biofuels are alternatives to fossil fuels to reduce anthropogenic greenhouse gas emissions. Nonetheless, policy decisions for biofuels should be based on evidence that biofuels are produced in a sustainable manner. To this end, life cycle assessment (LCA) provides information on environmental impacts associated with biofuel production chains. Here, we review advances in biomass conversion to biofuels and their environmental impact by life cycle assessment. Processes are gasification, combustion, pyrolysis, enzymatic hydrolysis routes and fermentation. Thermochemical processes are classified into low temperature, below 300 °C, and high temperature, higher than 300 °C, i.e. gasification, combustion and pyrolysis. Pyrolysis is promising because it operates at a relatively lower temperature of up to 500 °C, compared to gasification, which operates at 800–1300 °C. We focus on 1) the drawbacks and advantages of the thermochemical and biochemical conversion routes of biomass into various fuels and the possibility of integrating these routes for better process efficiency; 2) methodological approaches and key findings from 40 LCA studies on biomass to biofuel conversion pathways published from 2019 to 2021; and 3) bibliometric trends and knowledge gaps in biomass conversion into biofuels using thermochemical and biochemical routes. The integration of hydrothermal and biochemical routes is promising for the circular economy.

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Optimal Coordination of Directional Overcurrent Relays Using a New Time–Current–Voltage Characteristic

Saleh¹,

Zeineldin²,

Al-Hinai³

et al. 2015

IEEE Trans. Power Delivery

208

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Wind speed and solar irradiance forecasting techniques for enhanced renewable energy integration with the grid: a review

Ssekulima¹,

Anwar²,

Al-Hinai

et al. 2016

IET Renewable Power Generation

167

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Amer Al-Hinai

Review of energy storage services, applications, limitations, and benefits

Hydrogen production, storage, utilisation and environmental impacts: a review

Conversion of biomass to biofuels and life cycle assessment: a review

Optimal Coordination of Directional Overcurrent Relays Using a New Time–Current–Voltage Characteristic

Wind speed and solar irradiance forecasting techniques for enhanced renewable energy integration with the grid: a review

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