A model to simulate the particle concentration and size distribution of indoor air and to evaluate the exposure of occupants

Rauno Holopainen, Mika Vuolle, Pertti Pasanen, Kaarle Hämeri, Aimo Taipale, Ilpo Kulmala, Eija Vartiainen, Merja Hautamäki, Marko Björkroth, Juha Jokisalo, Arto Voutilainen, Jarek Kurnitski, Olli Seppänen

Research output: Chapter in Book/Report/Conference proceedingConference article in proceedingsScientificpeer-review

Abstract

A mathematical model was constructed to simulate time dependent particle concentrations in indoor air and to evaluate the exposure of occupants. The system consists of three main parts: 1. a system model to describe the ventilation system and building envelope 2. a multizone room model, and 3. a dose model
Original languageEnglish
Title of host publication8th REHVA World Congress - Experience the Future of Building Technologies, CLIMA 2005. Lausanne, Switzerland, 9 - 12 Oct. 2005
Subtitle of host publicationCD-ROM proceedings
Publication statusPublished - 2005
MoE publication typeA4 Article in a conference publication
Event8th REHVA World Congress: Experience the Future of Building Technologies - Lausanne, Switzerland
Duration: 9 Oct 200512 Oct 2005
Conference number: 8

Conference

Conference8th REHVA World Congress
Abbreviated titleClima 2005
CountrySwitzerland
CityLausanne
Period9/10/0512/10/05

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Air
Ventilation
Mathematical models

Keywords

  • dose
  • filtration
  • fine particles
  • multizone model

Cite this

Holopainen, R., Vuolle, M., Pasanen, P., Hämeri, K., Taipale, A., Kulmala, I., ... Seppänen, O. (2005). A model to simulate the particle concentration and size distribution of indoor air and to evaluate the exposure of occupants. In 8th REHVA World Congress - Experience the Future of Building Technologies, CLIMA 2005. Lausanne, Switzerland, 9 - 12 Oct. 2005: CD-ROM proceedings [22]
Holopainen, Rauno ; Vuolle, Mika ; Pasanen, Pertti ; Hämeri, Kaarle ; Taipale, Aimo ; Kulmala, Ilpo ; Vartiainen, Eija ; Hautamäki, Merja ; Björkroth, Marko ; Jokisalo, Juha ; Voutilainen, Arto ; Kurnitski, Jarek ; Seppänen, Olli. / A model to simulate the particle concentration and size distribution of indoor air and to evaluate the exposure of occupants. 8th REHVA World Congress - Experience the Future of Building Technologies, CLIMA 2005. Lausanne, Switzerland, 9 - 12 Oct. 2005: CD-ROM proceedings. 2005.
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title = "A model to simulate the particle concentration and size distribution of indoor air and to evaluate the exposure of occupants",
abstract = "A mathematical model was constructed to simulate time dependent particle concentrations in indoor air and to evaluate the exposure of occupants. The system consists of three main parts: 1. a system model to describe the ventilation system and building envelope 2. a multizone room model, and 3. a dose model",
keywords = "dose, filtration, fine particles, multizone model",
author = "Rauno Holopainen and Mika Vuolle and Pertti Pasanen and Kaarle H{\"a}meri and Aimo Taipale and Ilpo Kulmala and Eija Vartiainen and Merja Hautam{\"a}ki and Marko Bj{\"o}rkroth and Juha Jokisalo and Arto Voutilainen and Jarek Kurnitski and Olli Sepp{\"a}nen",
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language = "English",
booktitle = "8th REHVA World Congress - Experience the Future of Building Technologies, CLIMA 2005. Lausanne, Switzerland, 9 - 12 Oct. 2005",

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Holopainen, R, Vuolle, M, Pasanen, P, Hämeri, K, Taipale, A, Kulmala, I, Vartiainen, E, Hautamäki, M, Björkroth, M, Jokisalo, J, Voutilainen, A, Kurnitski, J & Seppänen, O 2005, A model to simulate the particle concentration and size distribution of indoor air and to evaluate the exposure of occupants. in 8th REHVA World Congress - Experience the Future of Building Technologies, CLIMA 2005. Lausanne, Switzerland, 9 - 12 Oct. 2005: CD-ROM proceedings., 22, 8th REHVA World Congress, Lausanne, Switzerland, 9/10/05.

A model to simulate the particle concentration and size distribution of indoor air and to evaluate the exposure of occupants. / Holopainen, Rauno; Vuolle, Mika; Pasanen, Pertti; Hämeri, Kaarle; Taipale, Aimo; Kulmala, Ilpo; Vartiainen, Eija; Hautamäki, Merja; Björkroth, Marko; Jokisalo, Juha; Voutilainen, Arto; Kurnitski, Jarek; Seppänen, Olli.

8th REHVA World Congress - Experience the Future of Building Technologies, CLIMA 2005. Lausanne, Switzerland, 9 - 12 Oct. 2005: CD-ROM proceedings. 2005. 22.

Research output: Chapter in Book/Report/Conference proceedingConference article in proceedingsScientificpeer-review

TY - GEN

T1 - A model to simulate the particle concentration and size distribution of indoor air and to evaluate the exposure of occupants

AU - Holopainen, Rauno

AU - Vuolle, Mika

AU - Pasanen, Pertti

AU - Hämeri, Kaarle

AU - Taipale, Aimo

AU - Kulmala, Ilpo

AU - Vartiainen, Eija

AU - Hautamäki, Merja

AU - Björkroth, Marko

AU - Jokisalo, Juha

AU - Voutilainen, Arto

AU - Kurnitski, Jarek

AU - Seppänen, Olli

PY - 2005

Y1 - 2005

N2 - A mathematical model was constructed to simulate time dependent particle concentrations in indoor air and to evaluate the exposure of occupants. The system consists of three main parts: 1. a system model to describe the ventilation system and building envelope 2. a multizone room model, and 3. a dose model

AB - A mathematical model was constructed to simulate time dependent particle concentrations in indoor air and to evaluate the exposure of occupants. The system consists of three main parts: 1. a system model to describe the ventilation system and building envelope 2. a multizone room model, and 3. a dose model

KW - dose

KW - filtration

KW - fine particles

KW - multizone model

M3 - Conference article in proceedings

BT - 8th REHVA World Congress - Experience the Future of Building Technologies, CLIMA 2005. Lausanne, Switzerland, 9 - 12 Oct. 2005

ER -

Holopainen R, Vuolle M, Pasanen P, Hämeri K, Taipale A, Kulmala I et al. A model to simulate the particle concentration and size distribution of indoor air and to evaluate the exposure of occupants. In 8th REHVA World Congress - Experience the Future of Building Technologies, CLIMA 2005. Lausanne, Switzerland, 9 - 12 Oct. 2005: CD-ROM proceedings. 2005. 22