Novel Cascade Refrigeration Cycle for Cold Supply Chain of COVID-19 Vaccines at Ultra-Low Temperature -80°C Using Ethane (R170) Based Hydrocarbon Pair

Several media report highlight on that the pharmaceutical companies require ultra-low temperatures -80°C to transport and store its COVID-19 vaccines. This research presents the thermodynamic analysis on cascade refrigeration system (CRS) with several refrigerant pairs which are R32/R170, R123/R170, R134a/R170, R404A/R170, R407c/R170, R410/R170, and the hydrocarbon (HC) refrigerant pair Propane/Ethane, namely R290/R170. Besides, the results of R22/R170 pair, which is not recommended to be used due to phase out of R22 as per Montréal Protocol, are included as base case to compare the novel hydrocarbon pairs in CRS and the old trend of refrigerant pairs. Thermodynamic properties of all these pairs were investigated and compared under different intermediate temperature used in CRS heat exchanger, which thermally connected both the Low and High temperature cycles (LTC) and (HTC). By applying the first law of thermodynamics, the coefficients of performance (COPs) and the specific power consumptions (SPC) in kW/TR are presented and compared. In addition, by applying the second law of thermodynamics the exergetic efficiencies were estimated. The results reveal the promising opportunity of using the HC pair (R290/R170). The minimum SPC in kW/TR is recorded for the pair R123/R170. One the other hand, the highest exegetic efficiency values are observed to be 40%, 38%, and 35% for the pairs R123/R170, R290/R170, and R134/R170, respectively. This research concludes that the HC pair (R290/R170) is highly recommended for CRS applications either to transport the COVID-19 or store it in cold storage rooms in hospitals and clinics. All precautionary measures should be carefully applied in design and operation of HC pair (R290/R170) due to its flammability hazard.

多条绿色建筑供应链下供应商的选择分析——基于ANP-PROMETHEE模型

为有效解决多条绿色建筑供应链下供应商的选择问题,针对已有供应商选择方法的缺欠,构建多条绿色建筑供应链下供应商选择的指标体系,提出ANP(网络层次分析法)和PROMETHEE(偏好顺序结构评估法)的绿色材料供应商选择组合模型,并进行算例验证,以期为多条绿色建筑供应链下供应商选择提供新的思路和方法参考。研究表明:通过ANP确定绿色材料供应商选择的指标权重,能有效解决各指标间相互依存及反支配作用的问题。PROMETHEE使绿色材料供应商选择的结果出现逆序的概率较小,得到结果更为科学客观合理。

按单定制供应链(BOSC)情形下供应商的评价指标体系与方法研究

在需求多样化、个性化和全球化的竞争环境下,按单定制供应链已越来越受到企业的重视。供应商的合理化选择对按单定制供应链的有效实施起着重要的作用,特别是供应商的协作、快速响应等方面的能力直接影响按单定制供应链的成败。传统供应链中的供应商评价指标难以对按单定制中的供应商进行有效的评价。本文针对按单定制供应链问题,建立了选择供应商的评价指标体系,提出了基于集成模糊评价法和粗糙集组合预测法的综合评价法,并在按单定制供应链的供应商评价中进行了应用,算例的结果也显示综合评价法的有效性和合理性。

RBTO模式下产品架构、流程架构与供应链架构决策协调研究

进行产品、流程与供应链设计决策的协调是推进快速按订单生产模式(RapidBuild-to-Order)的重要手段。对三维设计决策协调宏观层面的架构决策协调进行了研究,分别描述三维架构形式并分析其对推行RBTO的影响作用,继而构建三维架构决策协调矩阵作为三维架构决策协调的工具。

大规模定制环境下按单定制供应链研究

在需求多样化、多变性以及全球化市场竞争环境中,为了实现大规模定制和按订单生产目标,对按订单生产供应链的研究具有理论与实践双重意义。文章在分析MC背景的基础上,明确了BOSC定义的内涵,从下游生产驱动、上游采购模式、库存水平、产品和提前期、供应链集成程度五个方面概括了BOSC管理的特点。站在运作角度,设计了BOSC的基本运作模型和基于多代理的信息流模型,并比较了BOSC运作与传统供应链运作的异同;论述了支撑BOSC运作的关键策略与技术手段。

BTO供应链的动态运营能力与实施框架研究

针对当前动荡的经济环境,扩展了BTO供应链的功能特性,提出了BTO供应链应该具备的新特点。将动态能力和运营能力扩展到BTO供应链管理中,定义了BTO供应链动态运营能力的概念及分类。提出了不同于传统供应链的BTO供应链运营管理功能和实施框架。

基于CODP理论和BIM技术的建筑供应链模拟研究

运用CODP理论与BIM技术构建建筑供应链模型,根据供应链管理思想引入CODP分类规则,提出建模理论框架。在操作层面,讨论BIM环境中供应链建模与模拟的实现;在策略层面,提出基于CODP的BIM项目供应分类预警管理方法。旨在为施工项目管理提供准确、完整和实时的供应、物流信息,以更好地实现工程管理各目标。

BOSC环境下考虑价格折扣因素的利润模型

在BOSC环境下,考虑回收策略及模块化影响的利润模型基础上,进一步研究了价格折扣因素对于该利润模型的影响,使得模型更能体现接单式生产的特点。通过对改善后的模型的研究发现,采用价格折扣不一定是每一个生产商首选的促销手段,价格折扣选择不当会直接影响生产商的利润,并且在此模型中能够确定最大利润条件下的模块化程度和回收价格。

基于HCPN的BTO供应链的动态构建与仿真

采用层次着色Petri网(HCPN)对企业从接到用户订单、编制供应链计划,直到选定上游供应商的BTO供应链网络的动态构建过程进行建模和仿真分析,其结果可以评价企业的供应链战略联盟响应用户个性化需求的能力。为企业管理者动态构建BTO供应链网络和评估供应链战略联盟响应用户个性化需求的能力提供了一种有效的实用方法,从而有助于改进整个供应链的绩效。

订单制产销模式的分析及风险控制研究

从描述汽车制造企业供应链管理的难题入手,对订单式产销模式的中、长期发展方向和短期改善途径进行了全面分析,对模式创新过程中的风险及其防范措施进行了研究,并指出订单式产销模式将是汽车制造企业未来的发展方向。

A class of polynomially solvable 0-1 programming problems and an application

It is well known that general 0-1 programming problems are NP-Complete and their optimal solutions cannot be found with polynomial-time algorithms unless P=NP. In this paper, we identify a specific class of 0-1 programming problems that is polynomially solvable, and propose two polynomial-time algorithms to find its optimal solutions. This class of 0-1 programming problems commits to a wide range of real-world industrial applications. We provide an instance of representative in the field of supply chain management.