Petr Stehlik
Petr Stehlik
Professor of Process Engineering, Brno University of Technology
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Cited by
Cost estimation and energy price forecasts for economic evaluation of retrofit projects
M Taal, I Bulatov, J Klemeš, P Stehlı́k
Applied thermal engineering 23 (14), 1819-1835, 2003
Comparison of correction factors for shell-and-tube heat exchangers with segmental or helical baffles
P Stehlik, J Němčanský, D Kral, LW Swanson
Heat transfer engineering 15 (1), 55-65, 1994
Thermal processing of sewage sludge
P Stasta, J Boran, L Bebar, P Stehlik, J Oral
Applied thermal engineering 26 (13), 1420-1426, 2006
Helical baffles in shell-and-tube heat exchangers, Part I: Experimental verification
D Kral, P Stehlik, HJ Van Der Ploeg, BI Master
Heat transfer engineering 17 (1), 93-101, 1996
Biogas upgrading technologies: state of art review in European region
J Niesner, D Jecha, P Stehlík
Chemical Engineering Transactions 35 (86), 517-522, 2013
Contribution to advances in waste-to-energy technologies
P Stehlík
Journal of Cleaner Production 17 (10), 919-931, 2009
Different strategies to improve industrial heat exchange
P Stehlík, VV Wadekar
Heat Transfer Engineering 23 (6), 36-48, 2002
Waste-to-energy technologies: Impact on environment
A Tabasová, J Kropáč, V Kermes, A Nemet, P Stehlík
Energy 44 (1), 146-155, 2012
Most frequently used heat exchangers from pioneering research to worldwide applications
BI Master, KS Chunangad, AJ Boxma, D Kral, P Stehlik
Heat Transfer Engineering 27 (6), 4-11, 2006
Waste to energy–An evaluation of the environmental impact
M Pavlas, M Touš, L Bébar, P Stehlík
Applied Thermal Engineering 30 (16), 2326-2332, 2010
Thermal processing of sewage sludge–II
L Houdková, J Boráň, V Ucekaj, T Elsäßer, P Stehlík
Applied Thermal Engineering 28 (16), 2083-2088, 2008
New approach to common removal of dioxins and NOx as a contribution to environmental protection
R Dvořák, P Chlápek, D Jecha, R Puchýř, P Stehlík
Journal of Cleaner Production 18 (9), 881-888, 2010
Conventional versus specific types of heat exchangers in the case of polluted flue gas as the process fluid–A review
P Stehlík
Applied Thermal Engineering 31 (1), 1-13, 2011
Processing of waste from pulp and paper plant
J Oral, J Sikula, R Puchyr, Z Hajny, P Stehlik, L Bebar
Journal of Cleaner Production 13 (5), 509-515, 2005
Enzymatic hydrolysis of pretreated waste paper–Source of raw material for production of liquid biofuels
V Brummer, T Jurena, V Hlavacek, J Omelkova, L Bebar, P Gabriel, ...
Bioresource technology 152, 543-547, 2014
Integrating renewable sources of energy into an existing combined heat and power system
M Pavlas, P Stehlik, J Oral, J Šikula
Energy 31 (13), 2499-2511, 2006
Heat exchangers for energy recovery in waste and biomass to energy technologies–I. Energy recovery from flue gas
B Kilkovsky, P Stehlik, Z Jegla, LL Tovazhnyansky, O Arsenyeva, ...
Applied Thermal Engineering 64 (1-2), 213-223, 2014
Low NOx burners—prediction of emissions concentration based on design, measurements and modelling
L Bebar, V Kermes, P Stehlik, J Canek, J Oral
Waste management 22 (4), 443-451, 2002
Heat transfer as an important subject in waste-to-energy systems
P Stehlik
Applied Thermal Engineering 27 (10), 1658-1670, 2007
Heat integrated heat pumping for biomass gasification processing
M Pavlas, P Stehlík, J Oral, J Klemeš, JK Kim, B Firth
Applied thermal engineering 30 (1), 30-35, 2010
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