Assessing the Viability of Renewable Hydrogen, Ammonia, and Methanol in Decarbonizing Heavy-duty Trucks

Applied Energy, Journal Year: 2025, Volume and Issue: 383, P. 125293 - 125293

Published: Jan. 14, 2025

Language: Английский

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CO₂ conversion to CO via plasma and electrolysis: a techno-economic and energy cost analysis

Energy & Environmental Science, Journal Year: 2024, Volume and Issue: 17(16), P. 5833 - 5853

Published: Jan. 1, 2024

Analysis of the CO production cost from 2 via gliding arc plasma reactors with embedded carbon beds versus low-temperature electrolysers.

Language: Английский

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Baseload hydrogen supply from an off-grid solar PV–wind power–battery–water electrolyzer plant

Energy, Journal Year: 2025, Volume and Issue: unknown, P. 135304 - 135304

Published: March 1, 2025

Language: Английский

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Feasibility study of renewable e-methanol production: A substitution pathway from blue to green

iEnergy, Journal Year: 2024, Volume and Issue: 3(2), P. 108 - 114

Published: June 1, 2024

Producing renewable e-methanol from e-hydrogen and diverse carbon sources is an essential way for clean methanol preparation. Despite this, the technical economic feasibility of different e-methanols has yet to be thoroughly compared, leaving most promising pathway achieve commercialization evident. This paper reports a preliminary analysis lifecycle greenhouse gas (GHG) emissions costs four with sources: bio-carbon, direct air capture (DAC), fossil fuel (FFCC), fossil. The results indicate that (4167–10250 CNY/tonne) 2–4 times market rate grey methanol. However, tax projected decline in e-H 2 costs, blue may initially replace diesel inland navigation, followed by shift heavy oil (HFO) green ocean shipping. Furthermore, cost availability are vital factors affecting cost-effectiveness. A reduction 2.1 CNY/Nm ³ 1.1 resulting transition annual daily scheduling period, could lower 1200 2100 CNY. also provides in-depth discussion on challenges opportunities associated various sources.

Language: Английский

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Power-to-X Economy: Green e-hydrogen, e-fuels, e-chemicals, and e-materials opportunities in Africa

Energy Reports, Journal Year: 2024, Volume and Issue: 12, P. 2026 - 2048

Published: Aug. 13, 2024

Language: Английский

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Power plant waste (fly ash, bottom ash, biomass ash) management for promoting circular economy in sustainable construction: emerging economy context

Smart and Sustainable Built Environment, Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 19, 2024

Purpose This study explores the contributions of fly ash, bottom ash and biomass from coal power plants for enhancing circular economy construction sectors in emerging economies. Design/methodology/approach research investigates their applications construction, emphasizing role reducing environmental impact promoting principles. Through a qualitative analysis using data structured interviews with 41 involved stakeholders, highlights economic benefits integrating these by-products into business operations. Findings Currently, cement concrete industries can successfully adopt almost 100% but logistic optimization is necessary to address wet problem. The practical pose disposal challenges due poor adoption. Biomass be alternatively implemented as soil amendment fertilization agriculture industry while current growth seems significant shift clean energy policy. Practical implications underscores importance policy support collaboration between stakeholders maximize sustainable potential an context. Originality/value sustainability development goals (SDGs) were well-established developing Nevertheless, literature review indicates that there lack understanding regarding backgrounds, influencing factors, economy.

Language: Английский

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Analysis of green e-methanol supply costs: Domestic production in Europe versus imports via pipeline and sea shipping

Renewable Energy, Journal Year: 2024, Volume and Issue: unknown, P. 122336 - 122336

Published: Dec. 1, 2024

Language: Английский

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Life Cycle Assessment of Green Methanol Production Based on Multi-Seasonal Modeling of Hybrid Renewable Energy and Storage Systems

Sustainability, Journal Year: 2025, Volume and Issue: 17(2), P. 624 - 624

Published: Jan. 15, 2025

This study evaluates the environmental implications of green methanol production under seasonal energy variability through a dual-comparative analytical framework. The research employs ReCiPe 2016 Endpoint (H) methodology to assess four renewable configurations (with varying solar–wind ratios across seasons) against conventional grid-based production, utilizing hybrid battery storage system combining lithium-ion and vanadium redox flow technologies. findings reveal significant benefits, with achieving 24.38% 28.26% reductions in global warming potential compared methods. Monte Carlo simulation (n = 20,000) confirms these improvements all impact categories. Our process analysis identifies hydrogen as primary contributor (74–94%), followed by carbon capture (5–13%) synthesis (0.5–4.5%). Water consumption impacts show variation, ranging from 16.55% summer 11.62% winter. There is strong positive correlation between efficiency solar availability, suggesting that higher input contributes improved outcomes. provides framework for optimizing sustainable integration, offering practical insights industrial implementation while maintaining stability effective solutions.

Language: Английский

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Carbon capture, utilization and storage in buildings: Analysis of performance, social acceptance, policy measures, and the role of artificial intelligence

Building and Environment, Journal Year: 2025, Volume and Issue: 275, P. 112817 - 112817

Published: March 9, 2025

Language: Английский

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Enhancement of CO₂ hydrogenation to methanol over Cu-based catalysts mixed with hydrophobic additives

Catalysis Science & Technology, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 1, 2025

The addition of PDVB in Cu/Zn/Zr catalysts facilitates the diffusion and removal water from reaction system, thereby preventing oxidations Cu active sites by maintaining high catalytic activity throughout process.

Language: Английский

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