藻类生物制氢：技术可能性和经济挑战

Q1 Chemical Engineering

International Journal of Thermofluids Pub Date : 2025-02-26 DOI:10.1016/j.ijft.2025.101154

Malek Alkasrawi , Marzieh Bagheri , Nadeen Al-Smadi , Mohamed Al Zarooni

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引用次数: 0

摘要

本研究探讨了从藻类生产生物氢的潜力，研究了各种技术途径并解决了相关的经济挑战。它回顾了从藻类中提取氢的直接光解，间接生物光解，气化和发酵等方法，同时还研究了由IA驱动的建模技术。这些方法的热力学仔细检查效率和可行性，特别强调建模优化。对生物制氢至关重要的藻类培养进行了彻底的检查，详细说明了温度、pH值和生物反应器设计等参数。此外，本研究还进行了技术经济分析（TEA），以评估这些方法的经济可行性，为利益相关者和政策制定者提供见解。综述了优化生物制氢的人工智能方法。

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Biohydrogen production from algae: Technical possibilities and economic challenges

This study explores the potential of biohydrogen production from algae, investigating various technical pathways and addressing associated economic challenges. It reviews methods such as direct photolysis, indirect biophotolysis, gasification, and fermentation for extracting hydrogen from algae while also examining modeling techniques powered by IA. Thermodynamics of these methods are scrutinized for efficiency and viability, with a special emphasis on modeling for optimization. Algae cultivation, crucial for biohydrogen production, is thoroughly examined, detailing parameters like temperature and pH levels and bio-reactor designs. Additionally, the study conducts a Technical Economic Analysis (TEA) to evaluate the economic feasibility of these methodologies, providing insights for stakeholders and policymakers. The review also summarizes the AI approach to optimizing biohydrogen production.

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