科学、社会与政治研究:绿色化学的历史与科学发展

IF 0.3 3区 哲学 Q3 HISTORY & PHILOSOPHY OF SCIENCE
Marcin Krasnodębski
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引用次数: 1

摘要

持久的第一节由Peter Morris以英语总结了德国合成橡胶的发展情况(15页)。Morris令人信服地认为,天然橡胶市场发挥了主导作用,尽管经济前景不佳,但阿道夫·希特勒出于民族自豪感推动了合成橡胶工业。第二节“基本化学品和化学产品的替代品”以曼弗雷德·拉施(Manfred Rasch,52页)的一章开篇,该章以结构合理的叙述总结了他对煤制液体燃料和润滑油的终身研究,煤制液体燃油和润滑油是由低温焦化、高压加氢(Bergius)和费托工艺等关键技术生产的。Rasch认为,解决石油短缺的尝试反过来又产生了新的能源和电力短缺——这种多米诺骨牌效应也在Maier和Zilt的章节中得到了解决。本节的第二篇文章由Sandra Fehr撰写,重点介绍了第一次世界大战期间德国氮产品的稀缺性。Fehr通过使用Joseph Schumpeter的分析框架:发明-创新-扩散,以严格的时间顺序系统地分析发展,为众所周知的事实提供了新的线索。她认为,所有重大发明都早于战争,军队的氮短缺问题得到了解决,但以牺牲农业为代价,HaberBosch工艺对世界粮食供应产生了长期影响。第三部分,“香料、香料、食品和饲料的替代品”,以Claus Priesner关于Reichstein和Staudinger等一流有机化学家开发合成咖啡香料的一章开始。1921年至1931年战争结束后,Coffarom的替代品在工业规模上进行了生产。与合成橡胶的情况一样,与天然产品的竞争发挥了很大作用。尽管如此,Coffarom一直在市场上销售到20世纪60年代。这本书的最后一章由Ulrike Thoms撰写,讲述了用废料和动物尸体生产饲料的过程。详细论述了第一次世界大战期间,渲染工业在肉骨粉生产方面取得的巨大进展。这些技术在第二次世界大战期间得到了进一步改进,并在1945年后产生了持久的影响。加上广泛的介绍,这七个案例研究概括地代表了德国化学工业的历史,从19世纪到20世纪50年代末,比以往更加关注政治和军事所发挥的作用。关于上述两个核心问题,第一个问题的答案是,两次战争的外部压力很少导致真正的新发明,但它们扩大了现有技术及其应用。第二个问题的答案比较含糊。在某些情况下,战争期间出现的创新产生了持久的影响,如Haber Bosch工艺和肉骨粉生产所示,但在其他情况下,包括许多合金,该行业回到了战前使用的产品和工艺,尽管具有更高的科学理解水平。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Research between Science, Society and Politics: The History and Scientific Development of Green Chemistry
lasting. The first section is concluded by Peter Morris with a brief and well-written summary – in English – of the development of synthetic rubber in Germany (15 pp.). Morris argues convincingly that the market for natural rubber played a dominant role, and that Adolf Hitler promoted the synthetic rubber industry for reasons of national pride, despite poor economic prospects. The second section, “Substitutes for Basic Chemicals and Chemical Products,” opens with a lengthy chapter by Manfred Rasch (52 pp.) that summarises in a well-structured narrative his lifelong research on liquid fuels and lubricants from coal, produced by key technologies such as low-temperature coking, high-pressure hydrogenation (Bergius), and the Fischer-Tropsch process. Rasch argues that the attempts to solve the oil shortage produced new scarcities of energy and electricity in their turn – a kind of domino effect that is also addressed in the chapters by Maier and Zilt. The second contribution to this section, by Sandra Fehr, focuses on the scarcity of nitrogen products in Germany during the First World War. Fehr sheds new light on well-known facts by analysing the developments systematically in a strict chronological order, using Joseph Schumpeter’s analytical framework: invention – innovation – diffusion. She argues that all major inventions predated the war, that the nitrogen scarcity for the military was solved, but at the expense of agriculture, and that the HaberBosch process had a long-term impact on world food supply. The third section, “Substitutes for Fragrances, Flavorings, Food and Fodder,” starts with a chapter by Claus Priesner on the development of synthetic coffee flavours by first-rate organic chemists such as Reichstein and Staudinger. The production on an industrial scale of the substitute Coffarom took place after the war, between 1921 and 1931. As in the case of synthetic rubber, competition with the natural product played a large role. Nevertheless, Coffarom stayed on the market until the 1960s. The last chapter of the book, by Ulrike Thoms, deals with the production of fodder from waste materials and animal cadavers. It discusses in detail the great progress in the production of meat and bone meal by the rendering industry during the First World War. These technologies were further improved during the Second World War and had a lasting impact after 1945. Together with the extensive introduction, the seven cases studies represent a history of the German chemical industry in a nutshell, from the nineteenth century to the late 1950s, with a far greater attention than usual to the role played by politics and the military. With respect to the two central questions mentioned above, the answer to the first is that the external pressures of the two wars seldom led to really new inventions, but they scaled up existing technologies and their application. The answer to the second question is more ambiguous. In some cases innovations emerging during the wars had a lasting impact, as illustrated by the Haber-Bosch process and the production of meat and bone meal, but in other cases, including many alloys, the industry returned to products and processes used before the war, though at a higher level of scientific understanding.
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来源期刊
Ambix
Ambix HISTORY & PHILOSOPHY OF SCIENCE-
CiteScore
0.80
自引率
60.00%
发文量
42
审稿时长
3 months
期刊介绍: Ambix is an internationally recognised, peer-reviewed quarterly journal devoted to publishing high-quality, original research and book reviews in the intellectual, social and cultural history of alchemy and chemistry. It publishes studies, discussions, and primary sources relevant to the historical experience of all areas related to alchemy and chemistry covering all periods (ancient to modern) and geographical regions. Ambix publishes individual papers, focused thematic sections and larger special issues (either single or double and usually guest-edited). Topics covered by Ambix include, but are not limited to, interactions between alchemy and chemistry and other disciplines; chemical medicine and pharmacy; molecular sciences; practices allied to material, instrumental, institutional and visual cultures; environmental chemistry; the chemical industry; the appearance of alchemy and chemistry within popular culture; biographical and historiographical studies; and the study of issues related to gender, race, and colonial experience within the context of chemistry.
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