Abstract
In large enclosures, common ventilation strategies, as complete mixing, require considerable amounts of energy to move and condition enormous amounts of air. The air flow pattern should therefore be well planned and controlled to ensure an acceptable indoor air quality in the occupied zone without the need for excessive air flow rates.
This part of the summary report concentrates on describing methods for designing and analysing ventilation in large enclosures. lt includes application of different mathematical models in the design process for simulation of temperature distribution, air motion and contaminant spread in order to evaluate performance and locate problems.
This part of the summary report concentrates on describing methods for designing and analysing ventilation in large enclosures. lt includes application of different mathematical models in the design process for simulation of temperature distribution, air motion and contaminant spread in order to evaluate performance and locate problems.
| Originalsprog | Engelsk |
|---|
| Udgivelsessted | Aalborg |
|---|---|
| Forlag | Dept. of Building Technology and Structural Engineering |
| Antal sider | 8 |
| Status | Udgivet - 1996 |
| Navn | Indoor Environmental Technology |
|---|---|
| Nummer | 64 |
| Vol/bind | R9656 |
| ISSN | 1395-7953 |
Bibliografisk note
Summary Report at ROOMVENT ' 96 Workshop: Outcome of IEA Annex 26 "Energy Efficient Ventilation of Large Enclosures", Yokohama, Japan, July 1996, pp. 4-11PDF for print: 15 pp.
Emneord
- Aircondition
- Large Enclosures
- Air Flow Modelling
- Energy Efficient Ventilation