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Perspectives on Manufacturing Innovation in Chemical Process Industries
ACS Engineering Au ( IF 4.3 ) Pub Date : 2022-02-08 , DOI: 10.1021/acsengineeringau.1c00009 Krishnaswamy Nandakumar 1 , Jyeshtharaj B. Joshi 2 , Kalliat T. Valsaraj 1 , Krishna D. P. Nigam 3
ACS Engineering Au ( IF 4.3 ) Pub Date : 2022-02-08 , DOI: 10.1021/acsengineeringau.1c00009 Krishnaswamy Nandakumar 1 , Jyeshtharaj B. Joshi 2 , Kalliat T. Valsaraj 1 , Krishna D. P. Nigam 3
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The authors discuss the opportunities for achieving rapid innovation cycles in the chemical manufacturing space, a field that is traditionally slow to evolve compared to other industries like automotive, aerospace, and IT industries. The main reason is the enormously complex heterogeneous multiphase, multiscale, reactive mixtures that are handled in such manufacturing facilities. Hence, the flow structure changes with increasing scales of equipment, making it difficult to develop new technologies without extensive pilot-scale testing and without the use of empirical correlations for scaleup. In other industries, the adoption of standards and interoperability has made the incremental adoption of devices (like storage devices as an example) improve the performance in existing equipment. Computers, in particular, have experienced orders of magnitude improvement in performance in a highly heterogeneous environment from tablets to supercomputers and are still able to communicate with each other due to the adoption of standards. The modularization and development of standards for interconnectivity can help accelerate the introduction of innovation to process industries. We discuss some of the possibilities.
中文翻译:
化学过程工业制造创新的观点
作者讨论了在化学制造领域实现快速创新周期的机会,与汽车、航空航天和 IT 行业等其他行业相比,该领域传统上发展缓慢。主要原因是在此类制造设施中处理的极其复杂的非均相多相、多尺度、反应性混合物。因此,流动结构随着设备规模的增加而变化,如果不进行广泛的中试规模测试,并且不使用经验相关性进行放大,就很难开发新技术。在其他行业,标准和互操作性的采用使得设备(例如存储设备)的逐步采用提高了现有设备的性能。尤其是计算机,在从平板电脑到超级计算机的高度异构环境中,他们的性能得到了数量级的提升,并且由于采用了标准,它们仍然能够相互通信。互连标准的模块化和开发有助于加速将创新引入流程工业。我们讨论了一些可能性。
更新日期:2022-02-08
中文翻译:
化学过程工业制造创新的观点
作者讨论了在化学制造领域实现快速创新周期的机会,与汽车、航空航天和 IT 行业等其他行业相比,该领域传统上发展缓慢。主要原因是在此类制造设施中处理的极其复杂的非均相多相、多尺度、反应性混合物。因此,流动结构随着设备规模的增加而变化,如果不进行广泛的中试规模测试,并且不使用经验相关性进行放大,就很难开发新技术。在其他行业,标准和互操作性的采用使得设备(例如存储设备)的逐步采用提高了现有设备的性能。尤其是计算机,在从平板电脑到超级计算机的高度异构环境中,他们的性能得到了数量级的提升,并且由于采用了标准,它们仍然能够相互通信。互连标准的模块化和开发有助于加速将创新引入流程工业。我们讨论了一些可能性。
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