Dynamic design model of displacement ventilation

Tutkimustuotos: Artikkeli kirjassa/konferenssijulkaisussavertaisarvioitu

Standard

Dynamic design model of displacement ventilation. / Lastovets, Natalia; Kosonen, Risto; Jokisalo, Juha; Kilpeläinen, Simo.

CLIMA 2019 Congress, 26th-29th May, 2019, Bucharest, Romania. EDP SCIENCES, 2019. 04049 (E3S Web of Conferences; Vuosikerta 111).

Tutkimustuotos: Artikkeli kirjassa/konferenssijulkaisussavertaisarvioitu

Harvard

Lastovets, N, Kosonen, R, Jokisalo, J & Kilpeläinen, S 2019, Dynamic design model of displacement ventilation. julkaisussa CLIMA 2019 Congress, 26th-29th May, 2019, Bucharest, Romania., 04049, E3S Web of Conferences, Vuosikerta. 111, EDP SCIENCES, Bucharest, Romania, 26/05/2019. https://doi.org/10.1051/e3sconf/201911104049

APA

Lastovets, N., Kosonen, R., Jokisalo, J., & Kilpeläinen, S. (2019). Dynamic design model of displacement ventilation. teoksessa CLIMA 2019 Congress, 26th-29th May, 2019, Bucharest, Romania [04049] (E3S Web of Conferences; Vuosikerta 111). EDP SCIENCES. https://doi.org/10.1051/e3sconf/201911104049

Vancouver

Lastovets N, Kosonen R, Jokisalo J, Kilpeläinen S. Dynamic design model of displacement ventilation. julkaisussa CLIMA 2019 Congress, 26th-29th May, 2019, Bucharest, Romania. EDP SCIENCES. 2019. 04049. (E3S Web of Conferences). https://doi.org/10.1051/e3sconf/201911104049

Author

Lastovets, Natalia ; Kosonen, Risto ; Jokisalo, Juha ; Kilpeläinen, Simo. / Dynamic design model of displacement ventilation. CLIMA 2019 Congress, 26th-29th May, 2019, Bucharest, Romania. EDP SCIENCES, 2019. (E3S Web of Conferences).

Bibtex - Lataa

@inproceedings{a4339ea8d9444b49ab2a16316555dd0e,
title = "Dynamic design model of displacement ventilation",
abstract = "An accurate temperature gradient calculation is essential for displacement ventilation (DV) system design, since it directly relates to the calculation of the required supply air flow rate. Inaccurate temperature prediction can cause the poor thermal comfort and w sizing of the ventilation and cooling systems. Several simplified nodal models were developed and implemented in the various building simulation software to estimate the temperature stratification in rooms with DV. Recent studies reveal that the multi-nodal models provide the most accurate temperature gradient prediction. However, the most building simulation software uses the air models with only one air node. The present study introduces the dynamic temperature gradient model for DV and investigates the effect of thermal mass on the temperature stratification. The model was validated with the experimental results of the lecture room with displacement ventilation. The room air temperature measurements were conducted during three weeks at 20 different heights. The supply air temperature and occupancy rate were recorded during each scheduled lecture. The developed dynamic nodal model is able to accurately calculate the air temperatures in occupied zone. The effect of the thermal mass and varied heat loads on the indoor air temperature stratification is analysed for the lecture room with DV.",
author = "Natalia Lastovets and Risto Kosonen and Juha Jokisalo and Simo Kilpel{\"a}inen",
year = "2019",
month = "8",
day = "13",
doi = "10.1051/e3sconf/201911104049",
language = "English",
series = "E3S Web of Conferences",
publisher = "EDP SCIENCES",
booktitle = "CLIMA 2019 Congress, 26th-29th May, 2019, Bucharest, Romania",
address = "France",

}

RIS - Lataa

TY - GEN

T1 - Dynamic design model of displacement ventilation

AU - Lastovets, Natalia

AU - Kosonen, Risto

AU - Jokisalo, Juha

AU - Kilpeläinen, Simo

PY - 2019/8/13

Y1 - 2019/8/13

N2 - An accurate temperature gradient calculation is essential for displacement ventilation (DV) system design, since it directly relates to the calculation of the required supply air flow rate. Inaccurate temperature prediction can cause the poor thermal comfort and w sizing of the ventilation and cooling systems. Several simplified nodal models were developed and implemented in the various building simulation software to estimate the temperature stratification in rooms with DV. Recent studies reveal that the multi-nodal models provide the most accurate temperature gradient prediction. However, the most building simulation software uses the air models with only one air node. The present study introduces the dynamic temperature gradient model for DV and investigates the effect of thermal mass on the temperature stratification. The model was validated with the experimental results of the lecture room with displacement ventilation. The room air temperature measurements were conducted during three weeks at 20 different heights. The supply air temperature and occupancy rate were recorded during each scheduled lecture. The developed dynamic nodal model is able to accurately calculate the air temperatures in occupied zone. The effect of the thermal mass and varied heat loads on the indoor air temperature stratification is analysed for the lecture room with DV.

AB - An accurate temperature gradient calculation is essential for displacement ventilation (DV) system design, since it directly relates to the calculation of the required supply air flow rate. Inaccurate temperature prediction can cause the poor thermal comfort and w sizing of the ventilation and cooling systems. Several simplified nodal models were developed and implemented in the various building simulation software to estimate the temperature stratification in rooms with DV. Recent studies reveal that the multi-nodal models provide the most accurate temperature gradient prediction. However, the most building simulation software uses the air models with only one air node. The present study introduces the dynamic temperature gradient model for DV and investigates the effect of thermal mass on the temperature stratification. The model was validated with the experimental results of the lecture room with displacement ventilation. The room air temperature measurements were conducted during three weeks at 20 different heights. The supply air temperature and occupancy rate were recorded during each scheduled lecture. The developed dynamic nodal model is able to accurately calculate the air temperatures in occupied zone. The effect of the thermal mass and varied heat loads on the indoor air temperature stratification is analysed for the lecture room with DV.

U2 - 10.1051/e3sconf/201911104049

DO - 10.1051/e3sconf/201911104049

M3 - Conference contribution

T3 - E3S Web of Conferences

BT - CLIMA 2019 Congress, 26th-29th May, 2019, Bucharest, Romania

PB - EDP SCIENCES

ER -

ID: 35800969