Jarek Kurnitski
Jarek Kurnitski
Professor of Energy Performance and Indoor Climate in Buildings, Tallinn University of Technology
Verified email at - Homepage
Cited by
Cited by
How can airborne transmission of COVID-19 indoors be minimised?
L Morawska, JW Tang, W Bahnfleth, PM Bluyssen, A Boerstra, ...
Environment international 142, 105832, 2020
WHO guidelines for indoor air quality: dampness and mould
E Heseltine, J Rosen
WHO Regional Office Europe, 2009
Transmission of SARS‐CoV‐2 by inhalation of respiratory aerosol in the Skagit Valley Chorale superspreading event
SL Miller, WW Nazaroff, JL Jimenez, A Boerstra, G Buonanno, SJ Dancer, ...
Indoor air 31 (2), 314-323, 2021
Dismantling myths on the airborne transmission of severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2)
JW Tang, WP Bahnfleth, PM Bluyssen, G Buonanno, JL Jimenez, ...
Journal of Hospital Infection 110, 89-96, 2021
Cost optimal and nearly zero (nZEB) energy performance calculations for residential buildings with REHVA definition for nZEB national implementation
J Kurnitski, A Saari, T Kalamees, M Vuolle, J Niemelä, T Tark
Energy and Buildings 43 (11), 3279-3288, 2011
Building leakage, infiltration, and energy performance analyses for Finnish detached houses
J Jokisalo, J Kurnitski, M Korpi, T Kalamees, J Vinha
Building and Environment 44 (2), 377-387, 2009
A paradigm shift to combat indoor respiratory infection
L Morawska, J Allen, W Bahnfleth, PM Bluyssen, A Boerstra, G Buonanno, ...
Science 372 (6543), 689-691, 2021
Cost optimal and nearly zero energy building solutions for office buildings
E Pikas, M Thalfeldt, J Kurnitski
Energy and Buildings 74, 30-42, 2014
How to define nearly net zero energy buildings nZEB
J Kurnitski, F Allard, D Braham, G Goeders, P Heiselberg, L Jagemar, ...
REHVA J 48 (3), 6-12, 2011
A combined low temperature water heating system consisting of radiators and floor heating
A Hasan, J Kurnitski, K Jokiranta
Energy and buildings 41 (5), 470-479, 2009
Facade design principles for nearly zero energy buildings in a cold climate
M Thalfeldt, E Pikas, J Kurnitski, H Voll
Energy and Buildings 67, 309-321, 2013
A review on energy piles design, sizing and modelling
J Fadejev, R Simson, J Kurnitski, F Haghighat
Energy 122, 390-407, 2017
Practical indicators for risk of airborne transmission in shared indoor environments and their application to COVID-19 outbreaks
Z Peng, ALP Rojas, E Kropff, W Bahnfleth, G Buonanno, SJ Dancer, ...
Environmental science & technology 56 (2), 1125-1137, 2022
Performance of EN ISO 13790 utilisation factor heat demand calculation method in a cold climate
J Jokisalo, J Kurnitski
Energy and Buildings 39 (2), 236-247, 2007
Hourly consumption profiles of domestic hot water for different occupant groups in dwellings
K Ahmed, P Pylsy, J Kurnitski
Solar Energy 137, 516-530, 2016
New higher order Haar wavelet method: Application to FGM structures
J Majak, M Pohlak, K Karjust, M Eerme, J Kurnitski, BS Shvartsman
Composite Structures 201, 72-78, 2018
Monthly domestic hot water profiles for energy calculation in Finnish apartment buildings
K Ahmed, P Pylsy, J Kurnitski
Energy and Buildings 97, 77-85, 2015
Estonian test reference year for energy calculations
T Kalamees, J Kurnitski
Proceedings of the Estonian Academy of Sciences Engineering 12 (1), 40-58, 2006
Building characteristics, indoor environmental quality, and mathematics achievement in Finnish elementary schools
O Toyinbo, R Shaughnessy, M Turunen, T Putus, J Metsämuuronen, ...
Building and environment 104, 114-121, 2016
Microbial contamination of indoor air due to leakages from crawl space: a field study
M Airaksinen, P Pasanen, J Kurnitski, O Seppanen
Indoor air 14 (1), 55-64, 2004
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