Intensification Technologies(强化技术)研究综述
Intensification Technologies 强化技术 - This review presents a survey of the antiviral properties of carrageenan in relation to the processing conditions, particularly those assisted by intensification technologies during the extraction stage, and discusses the possibility of further chemical modifications. [1]这篇综述介绍了卡拉胶的抗病毒特性与加工条件的关系,特别是在提取阶段由强化技术辅助的条件,并讨论了进一步化学改性的可能性。 [1]
Proces Intensification Technologies
Newly introduced process intensification technologies (microreactor, membrane reactor, microwave, reactive distillation, and centrifugal contractor) to overcome these issues are also discussed. [1] Alternative advanced process intensification technologies like microwave and ultrasound-assisted steps replacing the conventional steps when implemented show considerable reduction in environmental indicator values. [2] The paper proposes a classification approach of 40 Inventive Principles with an extended set of 160 sub-principles for process engineering, based on a thorough analysis of 155 process intensification technologies, 200 patent documents, 6 industrial case studies applying TRIZ, and other sources. [3] Therefore in the recent time, lot of improvements are done with respect to biodiesel production process and the attention is paid for developing process intensification technologies to address the above problems. [4] Based on analysis of 100 eco-patents, 58 process intensification technologies, and literature, the study identifies 20 universal TRIZ inventive principles and sub-principles that have a higher value for environmental innovation. [5]还讨论了用于克服这些问题的新引入的过程强化技术(微反应器、膜反应器、微波、反应蒸馏和离心承包商)。 [1] 替代的先进工艺强化技术(如微波和超声辅助步骤)在实施时取代了传统步骤,表明环境指标值显着降低。 [2] 本文基于对 155 项工艺强化技术、200 份专利文件、6 个应用 TRIZ 的工业案例研究和其他来源的深入分析,提出了 40 条发明原则和 160 条工艺工程子原则的分类方法。 [3] 因此,近年来,对生物柴油生产工艺进行了大量改进,并关注开发工艺强化技术以解决上述问题。 [4] 基于对 100 项生态专利、58 项工艺强化技术和文献的分析,该研究确定了 20 项对环境创新具有更高价值的通用 TRIZ 发明原则和子原则。 [5]
Sustainable Intensification Technologies 可持续集约化技术
It is therefore imperative to have sustainable intensification technologies, and we describe one such technology. [1] This paper reviews the empirical literature on the determinants of farmer adoption of sustainable intensification technologies in maize agri-food systems of the Global South. [2] While significant advances could still be made with more widespread adoption of sustainable intensification technologies that address the agronomic efficiency of nitrogen fertilizers, the dynamic use of agricultural land across seasons and associated crop-specific responses to fertilizer applications have so far been largely overlooked. [3]因此,拥有可持续集约化技术势在必行,我们描述了一种这样的技术。 [1] 本文回顾了关于农民在全球南方玉米农业食品系统中采用可持续集约化技术的决定因素的实证文献。 [2] 尽管通过更广泛地采用可持续集约化技术来解决氮肥的农艺效率问题仍然可以取得重大进展,但迄今为止,农业土地的跨季节动态利用以及相关作物对施肥的特定反应在很大程度上被忽视了。 [3]