Review on second-generation synthetic fuel: feedstocks, potential production, deployable technologies, and challenges

Shobhit Khanna, Rabindra Prasad, C.P. Jawahar, Zafar Said
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This study highlights the increasing adoption of algae as a feedstock for biofuel extraction via photobioreactors. Moreover, bioethanol and biobutanol can be derived from grasses through the lignocellulosic process. A pressing concern is the disposal of Municipal Solid Waste (MSW); however, biodiesel ester and biogas can be procured from MSW via transesterification and advanced gasification processes. While refined fuel production offers potential solutions to climate change and resource utilization challenges, specific issues persist. These include high production costs, significant power consumption, extended processing times, and inconsistent feedstock collection. Nonetheless, this study emphasizes the potential of advanced biofuel production from second-generation feedstocks. 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He is a Certified Energy Auditor by Bureau of Energy Efficiency, Ministry of Power, Government of India and has published 60 research papers in reputed international journals and conferences.Zafar SaidDr. Zafar Said is an Associate Professor with the Department of Sustainable Renewable Energy Engineering at the University of Sharjah. He works in the fields of Renewable Energy, Solar Energy, Heat Transfer, AI, optimization, Nanofluids, BTMS, NePCM, Energy Storage and nanolubricants. He has published over 250+ papers as per Web of Science, including in Progress in Energy and Combustion, Physics Reports, Advanced Energy Materials, Journal of Material Chemistry A, Nano Energy, Renewable and Sustainable Energy Reviews, 3 books, 30 book chapters, and 30 conference papers), with about 15100+ citations and an H-index of 71. As per Web of Science, he has 7 Hot Papers and several highly cited papers in the cycle 2019-2023. 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引用次数: 0

Abstract

ABSTRACTRecent advancements in energy conversion technologies have effectively addressed global challenges like fuel dependency, production costs, waste management, and pollution control. Utilizing natural waste to generate synthetic fuels represents a viable strategy for improved energy conservation, pollution mitigation, cost-effectiveness, sustainable production, and socio-economic development. Synthetic fuels are gaining global prominence as they reduce crude oil consumption, especially in the transportation and industrial sectors. This research meticulously reviews technologies available for synthesizing fuels from biological waste and enhancing feedstock quality. This study highlights the increasing adoption of algae as a feedstock for biofuel extraction via photobioreactors. Moreover, bioethanol and biobutanol can be derived from grasses through the lignocellulosic process. A pressing concern is the disposal of Municipal Solid Waste (MSW); however, biodiesel ester and biogas can be procured from MSW via transesterification and advanced gasification processes. While refined fuel production offers potential solutions to climate change and resource utilization challenges, specific issues persist. These include high production costs, significant power consumption, extended processing times, and inconsistent feedstock collection. Nonetheless, this study emphasizes the potential of advanced biofuel production from second-generation feedstocks. Such biofuels serve as promising carbon-based chemical sources for industrial and transportation applications, filling gaps left by conventional fuels.KEYWORDS: Synthetic fuelalcohol, Biodieselfeedstockmethanoltransesterification Nomenclature ASTM=American Society for Testing and MaterialsBTU=British Thermal UnitCaO=Calcium OxideCH4=MethaneCO2=Carbon DioxideCO=Carbon MonoxideCI=Compression IgnitionCNG=Compressed Natural GasDB=Diesel-Biodiesel blendFFA=Free Fatty AcidFT=Fischer-Tropsch fuelFAME=Fatty Acids and Methyl EstersH2=HydrogenH2O=WaterH2S=Hydrogen SulphideHCl=Hydrochloric acidH2SO4=Sulphuric AcidIC=Internal CombustionKOH=Potassium HydroxideLPG=Liquefied Petroleum GasMTBE=Methyl Tert-Butyl EtherNH3=AmmoniaNOx=Oxides of NitrogenNaOH=Sodium HydroxideNaOCH3=Sodium MethoxideOECD=Organization for Economic Cooperation and DevelopmentPAH=Polycyclic Aromatic HydrocarbonR&D=Research & DevelopmentDisclosure statementNo potential conflict of interest was reported by the author(s).Additional informationNotes on contributorsShobhit KhannaShobhit Khanna is working as a Senior Education Officer in defence, India and having 13 years of experience in designing and implementing effective training programs and curriculum for various academies that are not just academically rigorous but also attuned to the practical requirements of the real world. He has completed his Master’s degree in Thermal Engineering from IIT Madras. He is pursing Doctoral degree in the field of Mechanical Engineering from Amity University Madhya Pradesh, Gwalior, India. He has also been involved in various Projects, seminars/webinar and FDP programme, funded by Government of India.Rabindra PrasadDr. Rabindra Prasad is presently working as an Assistant Professor at Amity School of Engineering and Technology (ASET), Gwalior. He has completed his PhD in Mechanical Engineering from IIT (BHU) Varanasi and has published researc papers in journals of repute.C.P. JawaharDr. C. P. Jawahar is presently working as Professor and Dean, Faculty of Technology at Kalinga University,Raipur. His research areas includes renewable energy and thermal sciences. He is a Certified Energy Auditor by Bureau of Energy Efficiency, Ministry of Power, Government of India and has published 60 research papers in reputed international journals and conferences.Zafar SaidDr. Zafar Said is an Associate Professor with the Department of Sustainable Renewable Energy Engineering at the University of Sharjah. He works in the fields of Renewable Energy, Solar Energy, Heat Transfer, AI, optimization, Nanofluids, BTMS, NePCM, Energy Storage and nanolubricants. He has published over 250+ papers as per Web of Science, including in Progress in Energy and Combustion, Physics Reports, Advanced Energy Materials, Journal of Material Chemistry A, Nano Energy, Renewable and Sustainable Energy Reviews, 3 books, 30 book chapters, and 30 conference papers), with about 15100+ citations and an H-index of 71. As per Web of Science, he has 7 Hot Papers and several highly cited papers in the cycle 2019-2023. He is also ranked in World's Top 2% Scientists 2020, 2021, 2022, and 2023 by Elsevier BV and Stanford University) in the field of Energy. He was honored with several prestigious awards, including the 2022 Rising Star Science Star award by Research.com.
第二代合成燃料综述:原料、潜在生产、可部署技术和挑战
摘要能源转换技术的最新进展有效地解决了诸如燃料依赖、生产成本、废物管理和污染控制等全球性挑战。利用自然废物生产合成燃料是改善节约能源、减轻污染、提高成本效益、可持续生产和社会经济发展的一项可行战略。合成燃料由于减少了原油的消耗,尤其是在运输和工业领域,正日益成为全球瞩目的焦点。本研究详细回顾了从生物废物中合成燃料和提高原料质量的技术。这项研究强调了越来越多地采用藻类作为原料,通过光生物反应器提取生物燃料。此外,生物乙醇和生物丁醇可以通过木质纤维素过程从草中提取。都市固体废物的处置是一个迫切需要关注的问题;然而,生物柴油酯和沼气可以通过酯交换和先进的气化工艺从城市生活垃圾中获得。虽然精炼燃料生产为气候变化和资源利用挑战提供了潜在的解决方案,但具体问题仍然存在。这些问题包括生产成本高、耗电量大、加工时间长以及原料收集不一致。尽管如此,这项研究强调了利用第二代原料生产先进生物燃料的潜力。这种生物燃料有望成为工业和交通领域的碳基化学来源,填补传统燃料留下的空白。关键词:合成fuelalcohol,生物柴油原料甲醇酯交换命名法ASTM=美国试验和材料学会sbtu =英国热单位cao =氧化钙ech4 =甲烷eco2 =二氧化碳eco =一氧化碳eci =压缩点火cng =压缩天然气db =柴油-生物柴油混合物ffa =游离脂肪酸ft =费托燃料fame =脂肪酸和甲酯sh2 =氢h2o =水h2s =硫化氢hcl =盐酸h2so4 =硫酸=内燃koh =羟化钾elpg =液化石油GasMTBE=甲基叔丁基醚nh3 =氨气anox =氮的氧化物naoh =氢氧化钠aoch3 =甲氧基钠oecd =经济合作与发展组织pah =多环芳烃r&d =研究与开发披露声明作者未报告潜在的利益冲突。shobhit Khanna是印度国防部的一名高级教育官员,在为各种学院设计和实施有效的培训计划和课程方面拥有13年的经验,这些计划和课程不仅在学术上严谨,而且与现实世界的实际要求相适应。他获得了印度理工学院马德拉斯分校的热能工程硕士学位。他正在攻读印度瓜廖尔中央邦阿米蒂大学机械工程领域的博士学位。他还参与了由印度政府资助的各种项目、研讨会/网络研讨会和自由发展计划。Rabindra PrasadDr。Rabindra Prasad目前是瓜廖尔Amity工程技术学院(ASET)的助理教授。他在印度理工学院(BHU)瓦拉纳西完成了机械工程博士学位,并在知名期刊上发表了研究论文。JawaharDr。C. P. Jawahar目前担任Raipur Kalinga大学技术学院的教授和院长。他的研究领域包括可再生能源和热科学。他是印度政府电力部能源效率局认证的能源审计师,并在国际知名期刊和会议上发表了60篇研究论文。征服者SaidDr。Zafar Said是沙迦大学可持续可再生能源工程系的副教授。他的研究领域包括可再生能源、太阳能、传热、人工智能、优化、纳米流体、BTMS、NePCM、储能和纳米润滑剂。根据Web of Science,他发表了250多篇论文,包括《能源与燃烧进展》、《物理报告》、《先进能源材料》、《材料化学杂志A》、《纳米能源》、《可再生和可持续能源评论》、3本书、30本书章节和30篇会议论文),被引用约15100多次,h指数为71。根据Web of Science的数据,他在2019-2023周期有7篇热门论文和几篇高被引论文。在能源领域,他还被Elsevier BV和斯坦福大学(Stanford University)评为2020年、2021年、2022年和2023年世界前2%科学家。他获得了多个著名奖项,包括Research.com颁发的2022年新星科学之星奖。
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