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背离标准做法:在解剖实验室中战略性应用价值工程,以使用高影响力、低成本和低维护的解决方案提高甲醛提取效率。

Departing from standard practices: Strategic application of value engineering in the anatomy laboratory to enhance formaldehyde extraction using high-impact, low-cost, and low-maintenance solutions.

作者信息

Russ Jürgen, Hammer Niels

机构信息

Facility Management Services, Medical University of Graz, Graz, Austria.

Consultant for Building Services Engineering (BSE), Mechanical, Electrical, Plumbing (MEP), Energy Technology (ET), Health, Safety, Security Environment (HSSE), Dörfles, Austria.

出版信息

Anat Sci Educ. 2025 Mar;18(3):241-253. doi: 10.1002/ase.2553. Epub 2025 Jan 20.

DOI:10.1002/ase.2553
PMID:39831516
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11909000/
Abstract

This study describes the process of developing a high-impact, low-cost, and low-maintenance air ventilation system for anatomy facilities. It employed the strategic application of Value Engineering (VE), assuring that the air ventilation system meets contemporary threshold limit values (TLVs) for formaldehyde in the working zone of dissection tables. A creative-innovative construction methodology was used, combining the Theory of Inventive Problem Solving (TRIZ/TIPS) and VE for an anatomy laboratory air ventilation concept. The TRIZ/TIPS aimed to resolve conflicts that impeded progress toward higher ideality, while VE aimed to develop alternative approaches to fulfill required functions at a minimal cost. The findings were first trialed in a mockup while dissecting human tissues embalmed with two protocols. The experimental results were validated by computational fluid dynamics simulations, and then followed by a pilot and commissioning phase once the physical installation of the dissection laboratory concluded. The findings demonstrate the superiority of the combined TRIZ/TIPS and VE approach in terms of air distribution and efficient formaldehyde extraction within the breathing zone. A formaldehyde exposition below 0.1 ppm, lowered air exchange rates, and system usability proved that the given third-generation ventilation system complies with contemporary TLVs and potential changes in user requirements. The third-generation ventilation system offers a cost-effective, high-impact, and low-maintenance solution for state-of-the-art air ventilation systems in the anatomy dissection laboratory. The underlying design approach ensured that formaldehyde levels in the laboratory meet the TLV and indoor air guideline values for formaldehyde exposure, at which current knowledge indicates no increased risk of cancer.

摘要

本研究描述了为解剖设施开发一种高影响力、低成本且低维护的空气通风系统的过程。它采用了价值工程(VE)的战略应用,确保空气通风系统在解剖台工作区域满足甲醛的当代阈限值(TLV)。采用了一种创新的施工方法,将发明问题解决理论(TRIZ/TIPS)和价值工程结合用于解剖实验室空气通风概念。TRIZ/TIPS旨在解决阻碍向更高理想度发展的冲突,而价值工程旨在以最低成本开发替代方法来实现所需功能。研究结果首先在解剖用两种防腐方案处理过的人体组织的模型中进行试验。实验结果通过计算流体动力学模拟进行验证,然后在解剖实验室物理安装完成后进入试点和调试阶段。研究结果表明,在呼吸区内的空气分布和高效甲醛提取方面,TRIZ/TIPS与价值工程相结合的方法具有优越性。低于0.1 ppm的甲醛暴露量、降低的空气交换率以及系统可用性证明,给定的第三代通风系统符合当代TLV以及用户需求的潜在变化。第三代通风系统为解剖学解剖实验室的先进空气通风系统提供了一种经济高效、高影响力且低维护的解决方案。基础设计方法确保实验室中的甲醛水平符合甲醛暴露的TLV和室内空气准则值,目前的知识表明在此水平下癌症风险不会增加。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9709/11909000/4231084e15a2/ASE-18-241-g001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9709/11909000/01778f50a7e5/ASE-18-241-g008.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9709/11909000/230e75c07173/ASE-18-241-g007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9709/11909000/d174c6213a2a/ASE-18-241-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9709/11909000/4231084e15a2/ASE-18-241-g001.jpg

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