ON-SITE DIAGNOSTICS OF THE MECHANICAL VENTILATION IN OFFICE BUILDINGS

Publications

Share / Export Citation / Email / Print / Text size:

Architecture, Civil Engineering, Environment

Silesian University of Technology

Subject: Architecture, Civil Engineering, Engineering, Environmental

GET ALERTS

ISSN: 1899-0142

DESCRIPTION

2
Reader(s)
2
Visit(s)
0
Comment(s)
0
Share(s)

SEARCH WITHIN CONTENT

FIND ARTICLE

Volume / Issue / page

Related articles

VOLUME 10 , ISSUE 2 (June 2017) > List of articles

ON-SITE DIAGNOSTICS OF THE MECHANICAL VENTILATION IN OFFICE BUILDINGS

Monika BŁASZCZOK / Małgorzata KRÓL / Maria HURNIK

Keywords : Office building, Thermal diagnosis, Inspection of ventilation

Citation Information : Architecture, Civil Engineering, Environment. Volume 10, Issue 2, Pages 145-156, DOI: https://doi.org/10.21307/acee-2017-028

License : (BY-NC-ND 4.0)

Received Date : 06-April-2017 / Accepted: 08-May-2017 / Published Online: 28-August-2018

ARTICLE

ABSTRACT

The methodology for inspecting the ventilation system and on-site measurements for office buildings has been proposed under the project “Development of thermal diagnostics of buildings”. The inspections of the ventilation system in two office buildings were conducted. The design documentations were compared with the existing state of the installations. The measurements of the air flow volume, of the temperature of ventilation air and of the volume flow of the heating medium and its temperature were performed. The measurements allowed to determine the power of the heater referring to the heating medium and to the air. On the basis of the inspection and measurements performed, the technical condition of the ventilation system was determined and its utilization in each of the buildings.

Content not available PDF Share

FIGURES & TABLES

REFERENCES

[1] Popiołek Z., Kateusz P. (2017). Comprehensive thermal diagnostics on-site of buildings – polish practical experience. Architecture Civil Engineering Environment, 10(2).

[2] Specjał A., Ciuman H. (2017). On-site thermal diagnostics of heating and DHW installations. Architecture Civil Engineering Environment, 10(2).

[3] Hurnik M., Blaszczok M., Król M. (2017). On-site thermal diagnostics of cooling sources for air conditioning systems in office buildings. Architecture Civil Engineering Environment, 10(2).

[4] Bartosz D., Specjał A. (2017). Estimation of the seasonal demand for cooling based on the short-term data. Architecture Civil Engineering Environment, 10(2).

[5] Ferdyn-Grygierek J., Blaszczok M. (2010). Energy Consumption in School Buildings Before and After Thermomodernization, 2nd International Conference on Advanced Construction Location: Kaunas Univ Technol, Kaunas, LITHUANIA NOV 11–12, Book Series: Advanced Construction.

[6] Ferdyn-Grygierek J., Baranowski A. (2009). Energy-saving solutions for the cooling of the office buildings. Rynek Energii, 1, 46–52.

[7] Baranowski A., Ferdyn-Grygierek J. (2011). Numerical analysis of the energy consumption in the office building. Rynek Energii, 2.

[9] Ferdyn-Grygierek J., Baranowski A. (2011). Impact of the internal heat gains on the prediction of the seasonal heat consumption in building, Rynek Energii, 6.

[10] Haberl J. (Chair) (2017). Performance Measurement Protocols for Commercial Buildings, ASHRAE, Atlanta, 2010. ISBN 978-1-933742-79-3.

[11] Yana R., Maa Z., Zhaob Y., KokogiannakisaaG. (2016). A decision tree based data-driven diagnostic strategy for air handling units, Energy and Buildings, 133.

[12] Zhao Y., Wen J., Xiao Y., Yang X., Wang S. (2017). Diagnostic Bayesian networks for diagnosing air handling units faults – part I: Faults in dampers, fans, filters and sensors, Applied Thermal Engineering, 111.

[13] Cohen R., Standeven B., Bordass B., Leaman A. (2001). Assessing building performance in Use 1: The Probe process, Building Research & Information 29.

[14] PN-EN 15239:2007 Wentylacja budynków – Charakterystyka energetyczna budynków – Wytyczne dotyczące kontroli instalacji wentylacji (Ventilation of buildings – Energy performance of buildings – Guidelines for inspection of ventilation systems).

[15] Ai Z.T., Mak C.M. (2016). Short-term mechanical ventilation of air-conditioned residential buildings: A general design framework and guidelines. Building and Environment, 108.

[16] Yua Y., Woradechjumroena D., Yub D. (2014). A review of fault detection and diagnosis methodologies on air-handling units. Energy and Buildings, 82.

[17] PN-EN 12599:2002/AC:2004 Wentylacja budynków – Procedury badań i metody pomiarowe dotyczące odbioru wykonanych instalacji wentylacji i klimatyzacji (Ventilation of buildings – Test procedures and measurement methods for the reception of ventilation and air conditioning systems).

[18] PN-EN 12599:2013-04 Wentylacja budynków – Procedury badań i metody pomiarowe dotyczące odbioru wykonanych instalacji wentylacji i klimatyzacji (Ventilation for buildings – Test procedures and measurement methods to hand over air conditioning and ventilation systems).

[19] Trzeciakiewicz Z. editor, (2013). On-site diagnostics of cooling sources and ventilation and air-conditioning systems, Vol. 3 of the Guidebook of thermal diagnostics of buildings, (Diagnostyka in situ źródeł chłodu oraz instalacji wentylacyjnych i klimatyzacyjnych Tom 3 Poradnika diagnostyki cieplnej budynków), Gliwice, Politechnika Slaska. Wydzial Inzynierii Srodowiska i Energetyki.

[20] Popiolek Z. editor, (2013). Comprehensive on-site thermal diagnostics of buildings in practice, Vol. 5 of the Guidebook of thermal diagnostics of buildings, (Kompleksowa diagnostyka cieplna budynków in situ w praktyce Tom 5 Poradnik diagnostyki cieplnej budynków), Gliwice, Politechnika Slaska. Wydzial Inzynierii Srodowiska i Energetyki.

[21] Dz. U. 75 Rozporządzenie Ministra Infrastruktury, z dnia 12 kwietnia 2002 r. w sprawie warunków technicznych, jakim powinny odpowiadać budynki i ich usytuowanie, (Regulation of the Minister of Infrastructure on the technical conditions to be met by buildings and their location) of 12 April 2002 (Journal of Laws 2015, item 1422)

[22] Makowiecki J., Rosiński M. (2002). Procedura badawcza instalacji wentylacyjnych i klimatyzacyjnych z użyciem elektronicznego mikromanometru MRK z sondą Prandtla, (Test procedure for ventilation and air conditioning systems using the MRK electronic micromanometer with Prandtel pipe), Ciepłownictwo, ogrzewnictwo, wentylacja, 9.

[23] Król M., Blaszczok M. (2013). Problemy wyznaczania chwilowej mocy nagrzewnicy powietrza w układach wentylacji mechanicznej (Problems of determining air heater power in mechanical ventilation systems), Rynek Energii, 4.

EXTRA FILES

COMMENTS