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Innovative technological paradigm-based approach towards biofuel feedstock

机译:基于创新技术范式的生物燃料原料方法

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Biofuels produced from renewable energy biomass are playing a more significant role because of the environmental problems resulting from the use of fossil fuels. However, a major problem with biofuel production is that despite the range of feedstock that can be used, raw material availability varies considerably. By combining a series of theories and methods, the research objective of this study is to determine the current developments and the future trends in biofuel feedstock. By combining technological paradigm theory with literature mining, it was found that biofuel feedstock production development followed a three-stage trajectory, which was in accordance with the traditional technological paradigm - the S-curve. This new curve can be divided into BFDP (biofuel feedstock development paradigm) competition, BFDP diffusion, and BFDP shift. The biofuel production diffusion velocity model showed that there has been constant growth from 2000, with the growth rate reaching a peak in 2008, after which time it began to drop. Biofuel production worldwide is expected to remain unchanged until 2030 when a paradigm shift is expected. This study also illustrates the results of our innovative procedure - a combination of the data analysis system and the technological paradigm theory - for the present biofuel feedstock soft path that will lead to this paradigm shift, with integrated biofuel production feedstock systems expected to be a significant new trend. (C) 2016 Published by Elsevier Ltd.
机译:由于使用化石燃料引起的环境问题,由可再生能源生物质生产的生物燃料发挥了更加重要的作用。但是,生物燃料生产的一个主要问题是,尽管可以使用多种原料,但原料的利用率却有很大差异。通过结合一系列理论和方法,本研究的研究目标是确定生物燃料原料的当前发展和未来趋势。通过将技术范式理论与文献挖掘相结合,发现生物燃料原料生产的发展遵循三个阶段的轨迹,这符合传统的技术范式-S曲线。此新曲线可分为BFDP(生物燃料原料开发范例)竞争,BFDP扩散和BFDP转移。生物燃料生产扩散速度模型显示,自2000年以来一直持续增长,增长率在2008年达到峰值,此后开始下降。预计到2030年,范式转变之前,全球生物燃料产量将保持不变。这项研究还说明了我们创新程序的结果-数据分析系统和技术范式理论的结合-对于当前的生物燃料原料软路径,这将导致这种范式转变,而集成的生物燃料生产原料系统预计将是重要的新趋势。 (C)2016由Elsevier Ltd.出版

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