农业废弃物衍生催化剂在柴油脱硫中的环境效益:综述

Awad E. Mohammed , Wadood T. Mohammed , Saba A. Gheni
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引用次数: 0

摘要

如今,全球炼油行业面临的最大挑战是生产环保燃料,由于环境对柴油中允许的硫含量有严格的规定,每年都要生产大量的环保燃料以满足市场需求。本研究探讨了用于柴油脱硫的固体吸附剂吸附和催化氧化技术的最新发展。回顾了利用农业废弃物制造的固体催化剂对液体燃料进行脱硫的每种技术的优点、局限性和未来潜力。活性炭是这些碳材料中的一种;然而,生产活性炭的传统方法耗时且成本高昂。活性炭具有灰分浓度低、表面积大、渗透性强、易于活化和抗压强度高等显著特点,因此是合成生产异相催化剂的理想基质。由于它们负责点燃氧化物质,因此其支撑催化剂对氧化过程至关重要。各种类型的均相和异相催化剂,如金属氧化物、离子液体、多氧金属酸盐和有机酸,已被用于形成氧化脱硫(ODS)系统。因此,为了提高催化 ODS 工艺的效率,必须考虑对催化剂进行一些调整。这些调整可能涉及在催化剂表面掺入金属氧化物,或在与硫化合物结合时增加催化剂的表面积。除了审查以碳废物为基础的活性碳催化剂的制备条件外,这项工作还进行了脱硫程序,以去除含硫物质。总之,通过对传统和微波加热将碳废料转化为活性炭催化剂的全面回顾,我们看到了解决两个紧迫环境问题的前景:农业废料管理和通过生产可持续燃料高效催化剂降低消耗臭氧层物质成本。本综述探讨了将农业废弃物作为废物变能源(固态碳)技术的环境可行性。利用农业废弃物作为生产活性炭催化剂的来源,可减轻焚烧和填埋等传统废物处理方式对环境造成的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Environmental benefits of Agricultural Waste-Derived catalysts in diesel Desulfurization: A review

Today, the biggest challenge faced by the refining industries globally is the production of environmentally friendly fuels with a high amount produced annually to meet the needs of markets due to the sharp regulations imposed environmentally with allowable sulfur levels in diesel fuel. This study examines the most recent developments in solid sorbent adsorption and catalytic oxidization techniques for desulfurizing diesel fuel. Reviewing the benefits, limitations, and future potential of each technique for desulfurizing liquid fuels using solid catalysts constructed using waste from agriculture. Activated carbon is one of these carbon materials; however, the traditional methods of producing activated carbon are time-consuming and costly. Activated carbon has impressive characteristics such as low concentration of ash, enormous surface area, permeability, ease of being activated, and high compressive strength, thereby rendering this an ideal substrate for the synthetic production of heterogeneous catalysts. Because they are in charge of igniting the substances that oxidize, their supported catalysts are crucial to the oxidation process. Various types of homogeneous and heterogeneous catalysts such as metal oxides, ionic liquids, polyoxometalates, and organic acids have been used to form oxidative desulfurization (ODS) systems. Therefore, to enhance the efficiency of catalytic ODS process some modifications must be taken into account. These adjustments may involve doping the catalyst’s surfaces with metal oxides or increasing the catalyst’s surface area when combined with sulfur compounds. In addition to reviewing the preparation conditions for carbon waste-based activated carbon catalysts, this work also carried out the desulfurization procedures to remove substances containing sulfur. Overall, the comprehensive review of carbon wastes into activated carbon catalysts with conventional and microwave heating shows promises in addressing two pressing environmental issues: agriculture waste management and reducing the ODS cost through the production of a sustainable fuel-efficient catalyst. This review explores the environmental feasibility of agro-waste as a waste-to-energy (solid carbon) technology. The use of agro-waste as a source to produce activated carbon catalysts mitigates the environmental impact associated with traditional waste disposal avenues, such as incineration and landfilling.

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