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When an emergency scenario arises, such as COVID-19, engineers must have tools and metrics to be able to quickly characterize system performance andrisk management under a variety of scenarios, often novel and creative. HVAC systems may be put into service for functions that were not the originaldesign intent. This paper proposes the metric of exhaled breath dilution factor (EBDF) to characterize such risks and mitigations. EBDF is simplydefined as the volumetric flow of dilution air to the volumetric flow of the human breath. EBDF can be considered in any space, or in a system. The paperwill present a few examples of system configurations, system options, and how the EBDF metric can be useful for engineers to communicate systemcapabilities. To simplify communications, it is recommended that engineers should memorize, in whatever units they work with most, the following fact: Thenormal human breathing rate is P= 0.36 m3/h, 0.2 CFM, 6 L/min. With that figure committed to memory, room ventilation can be characterized interms of Exhaled Breath Dilution Factor (EBDF) where EBDF is the ratio of the room air to the exhaled breath. This paper includes both a table ofrisk reductions based on EBDF, and the method to calculate those.
Citation: 2021 Virtual Conference Papers
Product Details
- Published:
- 2021
- Number of Pages:
- 9
- Units of Measure:
- Dual
- File Size:
- 1 file , 890 KB
- Product Code(s):
- D-VC-21-C027
