Variny, M.; Furda, P.; Švistun, L.; Rimár, M.; Kizek, J.; Kováč, N.; Illés, P.; Janošovský, J.; Váhovský, J.; Mierka, O.
Novel Concept of Cogeneration-Integrated Heat Pump-Assisted Fractionation of Alkylation Reactor Effluent for Increased Power Production and Overall CO2 Emissions Decrease. Processes 2020, 8, 183.
https://doi.org/10.3390/pr8020183
AMA Style
Variny M, Furda P, Švistun L, Rimár M, Kizek J, Kováč N, Illés P, Janošovský J, Váhovský J, Mierka O.
Novel Concept of Cogeneration-Integrated Heat Pump-Assisted Fractionation of Alkylation Reactor Effluent for Increased Power Production and Overall CO2 Emissions Decrease. Processes. 2020; 8(2):183.
https://doi.org/10.3390/pr8020183
Chicago/Turabian Style
Variny, Miroslav, Patrik Furda, Ladislav Švistun, Miroslav Rimár, Ján Kizek, Norbert Kováč, Peter Illés, Ján Janošovský, Jakub Váhovský, and Otto Mierka.
2020. "Novel Concept of Cogeneration-Integrated Heat Pump-Assisted Fractionation of Alkylation Reactor Effluent for Increased Power Production and Overall CO2 Emissions Decrease" Processes 8, no. 2: 183.
https://doi.org/10.3390/pr8020183
APA Style
Variny, M., Furda, P., Švistun, L., Rimár, M., Kizek, J., Kováč, N., Illés, P., Janošovský, J., Váhovský, J., & Mierka, O.
(2020). Novel Concept of Cogeneration-Integrated Heat Pump-Assisted Fractionation of Alkylation Reactor Effluent for Increased Power Production and Overall CO2 Emissions Decrease. Processes, 8(2), 183.
https://doi.org/10.3390/pr8020183
