Energy-efficient control of a novel VAV ventilation system with decentralized fans: Full-scale experimental study in a building

Research output: Contribution to book/anthology/report/conference proceedingArticle in proceedingResearchpeer-review

Original languageEnglish
Title of host publicationProceedings of the The 15th Conference of the International Society of Indoor Air Quality & Climate (ISIAQ) : Indoor Air 2018
Place of PublicationPhiladelphia, PA, USA
PublisherInternational Society of Indoor Air Quality and Climate
Publication dateJul 2018
Article number420
Publication statusPublished - Jul 2018
EventIndoor Air 2018: The 15th Conference of the International Society of Indoor Air Quality & Climate (ISIAQ) - Philadelphia, United States
Duration: 22 Jul 201827 Jul 2018
http://www.indoorair2018.org/

Conference

ConferenceIndoor Air 2018
CountryUnited States
CityPhiladelphia
Period22/07/201827/07/2018
Internet address

Cite this

Rahnama, S., Afshari, A., & Bergsøe, N. C. (2018). Energy-efficient control of a novel VAV ventilation system with decentralized fans: Full-scale experimental study in a building. In Proceedings of the The 15th Conference of the International Society of Indoor Air Quality & Climate (ISIAQ): Indoor Air 2018 [420] Philadelphia, PA, USA: International Society of Indoor Air Quality and Climate.
Rahnama, Samira ; Afshari, Alireza ; Bergsøe, Niels Christian. / Energy-efficient control of a novel VAV ventilation system with decentralized fans : Full-scale experimental study in a building. Proceedings of the The 15th Conference of the International Society of Indoor Air Quality & Climate (ISIAQ): Indoor Air 2018. Philadelphia, PA, USA : International Society of Indoor Air Quality and Climate, 2018.
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title = "Energy-efficient control of a novel VAV ventilation system with decentralized fans: Full-scale experimental study in a building",
author = "Samira Rahnama and Alireza Afshari and Bergs{\o}e, {Niels Christian}",
year = "2018",
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language = "English",
booktitle = "Proceedings of the The 15th Conference of the International Society of Indoor Air Quality & Climate (ISIAQ)",
publisher = "International Society of Indoor Air Quality and Climate",

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Rahnama, S, Afshari, A & Bergsøe, NC 2018, Energy-efficient control of a novel VAV ventilation system with decentralized fans: Full-scale experimental study in a building. in Proceedings of the The 15th Conference of the International Society of Indoor Air Quality & Climate (ISIAQ): Indoor Air 2018., 420, International Society of Indoor Air Quality and Climate, Philadelphia, PA, USA, Indoor Air 2018, Philadelphia, United States, 22/07/2018.

Energy-efficient control of a novel VAV ventilation system with decentralized fans : Full-scale experimental study in a building. / Rahnama, Samira; Afshari, Alireza; Bergsøe, Niels Christian.

Proceedings of the The 15th Conference of the International Society of Indoor Air Quality & Climate (ISIAQ): Indoor Air 2018. Philadelphia, PA, USA : International Society of Indoor Air Quality and Climate, 2018. 420.

Research output: Contribution to book/anthology/report/conference proceedingArticle in proceedingResearchpeer-review

TY - GEN

T1 - Energy-efficient control of a novel VAV ventilation system with decentralized fans

T2 - Full-scale experimental study in a building

AU - Rahnama, Samira

AU - Afshari, Alireza

AU - Bergsøe, Niels Christian

PY - 2018/7

Y1 - 2018/7

UR - https://www.indoorair2018.org/images/IA2018-Paper-List.pdf

M3 - Article in proceeding

BT - Proceedings of the The 15th Conference of the International Society of Indoor Air Quality & Climate (ISIAQ)

PB - International Society of Indoor Air Quality and Climate

CY - Philadelphia, PA, USA

ER -

Rahnama S, Afshari A, Bergsøe NC. Energy-efficient control of a novel VAV ventilation system with decentralized fans: Full-scale experimental study in a building. In Proceedings of the The 15th Conference of the International Society of Indoor Air Quality & Climate (ISIAQ): Indoor Air 2018. Philadelphia, PA, USA: International Society of Indoor Air Quality and Climate. 2018. 420