第五章。利用磺化有机聚合物可持续间歇或连续制备生物质衍生燃料

Valeria Trombettoni, Filippo Campana, A. Marrocchi, L. Vaccaro
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引用次数: 1

摘要

由于最近的立法要求燃料制造商在其产品中添加一定比例的生物燃料,人们对生物柴油作为替代燃料的兴趣不断增加。目前欧盟的生物燃料政策引入了一个混合目标,包括到2020年将燃料的温室气体强度强制降低6%。因此,在原料方面可持续的生物柴油生产,以及采用清洁、安全和高效的生产工艺,正变得迫在眉睫。在过去的十年中,许多工业过程已经转向使用固体酸催化剂作为一种“绿色工具”来取代传统的催化系统,以低成本的生物质原料(即含有高游离脂肪酸含量的资源)高效地生产生物柴油。实际上,异构系统使它们易于分离和回收、再循环和重用,从而可能导致最小化浪费的协议。此外,人们对利用多相催化和连续流技术之间的协同作用作为一种可行的综合可持续解决方案来强化工艺的兴趣日益浓厚。在本章中,我们重点介绍了可调和通用有机聚合物负载的固体酸催化剂在间歇和连续模式下生产生物柴油燃料方面的最新进展。我们将讨论限制在本课程中最广泛使用的成员,即阳离子交换树脂。确定了催化剂的物理化学和形态性质及其性能之间的趋势,同时也检查了它们的可回收性方面。最后,对这些催化剂在间歇和连续流生产乙酰丙酸酯(与生物柴油结构相关的生物燃料添加剂)中的性能进行了综述和简要讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
CHAPTER 5. Sustainable Batch or Continuous-flow Preparation of Biomass-derived Fuels Using Sulfonated Organic Polymers
The interest in biodiesel as an alternative fuel is ever increasing due to recent legislation requiring fuel manufacturers to add a set percentage of biofuel in their products. The present EU's biofuel policy introduces a blending target involving reaching a mandatory 6% reduction in the greenhouse gas intensity of fuels by 2020. Thus, biodiesel production that is sustainable in terms of feedstock, as well as of employment of clean, safe, and efficient manufacturing processes, is becoming urgent. In the past decade, many industrial processes have shifted toward the use of solid acid catalysts as a ‘green tool’ to replace traditional catalytic systems to efficiently produce biodiesel from low-cost biomass feedstock, i.e., resources with high free fatty acid content. Heterogeneous systems, indeed, enable their easy separation and recovery, recycling and reuse, possibly leading to waste-minimized protocols. Moreover, there is an ever-growing interest in exploiting the synergy between heterogeneous catalysis and continuous flow technology as a viable integrated sustainable solution to process intensification. In this chapter, we focus on the recent advances in the use of tuneable and versatile organic polymer-supported solid acid catalysts to produce biodiesel fuel in batch and in continuous mode. We restrict the discussion to the most widely employed members of this class, i.e., cation-exchange resins. Trends are identified between physico-chemical and morphological properties of the catalysts and their performance, while their recyclability aspects are also examined. Finally, a survey and brief discussion on these catalysts' performance in batch and continuous flow production of levulinates – biofuel additives structurally related to biodiesel – are also provided.
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