高粱基纳米复合膜生产的系统分析与设计

2014 International Conference on Advanced Computer Science and Information System Pub Date : 2014-10-01 DOI:10.1109/ICACSIS.2014.7065870

Belladini Lovely, Taufik Djatna

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引用次数: 0

摘要

生物降解高粱基纳米复合膜生产系统存在着工艺复杂性和较高的相互依赖性，这显然是系统分析和设计所必需的。本文采用业务流程建模符号(BPMN)模型对纳米复合薄膜的生产过程进行了模拟，以帮助研究人员进行决策。系统设计采用水解时间和增塑剂比2个工艺变量作为模型输入。然后，通过修改和控制这些变量的值，研究人员将确定它们对3种纳米复合薄膜关键物理和热性能的影响，如水蒸气渗透率(WVP)、x射线衍射(XRD)和导数热重(DTG)。通过数值算例对相关问题进行了说明。模型验证结果表明，与其他复合材料相比，该模型成功地改善了膜的各项性能。因此，该系统有可能在一个更简单和完全可控的模型中模拟高粱基纳米复合膜的生产。

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A system analysis and design for sorghum based nano-composite film production

The existence of process complexity and higher inter-dependency within production system of biodegradable sorghum-based nanocomposite film are obviously required for system analysis and design. In this paper, nanocomposite film production was simulated in Business Process Modeling Notation (BPMN) model to assist researchers in decision making. The system was designed by using 2 processing variables as the model input, namely hydrolysis time and plasticizer ratio. Then by modifying and controlling value of these variables, researcher would determine their influences on 3 nanocomposite film crucial physical and thermal properties, such as Water Vapor Permeability (WVP), X-Ray Diffraction (XRD) and Derivative Thermo-gravimetric (DTG). Numerical examples were implemented in order to illustrate the related issues. Model verification result showed that the model succeeded conducting an improvement for all film properties compared to other various composites. Therefore this system is potentially possible to simulate sorghum-based nanocomposite film production in a simpler and fully controllable model.

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2014 International Conference on Advanced Computer Science and Information System

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