University of Vaasa, Finland
Artykuły z 2024 (3)
1. Comparative analysis of waste-derived pyrolytic fuels applied in a contemporary compression ignition engine / Arkadiusz Rybak, Jacek Hunicz, Dariusz Szpica, Maciej Mikulski, Michał Sławomir Gęca, Paweł Woś // Combustion Engines = Silniki Spalinowe.- 2024, vol. 198, nr 3, s. 74-81 [MNiSW: 70]
2. Comparison of diesel and hydrotreated vegetable oil as the high-reactivity fuel in reactivity-controlled compression ignition / Jacek Hunicz, Li-Ping Yang, Arkadiusz Rybak, Shuaizhuang Ji , Michał S. Gęca, Maciej Mikulski // Energy Conversion and Management : an International Journal.- 2024, vol. 323, nr Pt A, s. 1-15 [MNiSW: 200]
3. Waste plastic pyrolysis oils as diesel fuel blending components: Detailed analysis of combustion and emissions sensitivity to engine control parameters / Jacek Hunicz, Arkadiusz Rybak, Dariusz Szpica, Michał S. Gęca, Paweł Woś, Liping Yang, Maciej Mikulski // Energy.- 2024, vol. 313 [MNiSW: 200]
Artykuły z 2023 (5)
1. An analytical approach to converting vibration signal to combustion characteristics of homogeneous charge compression ignition engines / Jacek Hunicz, Michał Sławomir Gęca, Elżbieta Ratajczyk, Amin Mahmoudzadeh Andwari, Li-Ping Yang, Maciej Mikulski // Energy Conversion and Management : an International Journal.- 2023, vol. 294, s. 1-17 [MNiSW: 200]
2. An experimental assessment on a diesel engine powered by blends of waste-plastic-derived pyrolysis oil with diesel / Katarzyna Januszewicz, Jacek Hunicz, Paweł Kazimierski, Arkadiusz Rybak, Tomasz Suchocki, Kamil Duda, Maciej Mikulski // Energy.- 2023, vol. 281, s. 1-11 [MNiSW: 200]
3. Numerical Investigation of Ammonia-Diesel Fuelled Engine Operated in RCCI Mode / Amir Hossein Fakhari, Ayat Gharehghani, Mohammad Mahdi Salahi, Amin Mahmoudzadeh Andwari, Maciej Mikulski, Jacek Hunicz, Juho Könnö // SAE Technical Papers.- 2023, nr 24-0057, s. 1-10 [MNiSW: 40]
4. Tyre pyrolytic oil blends in a state-of-the-art compression ignition engine: Towards fuel-optimised combustion / Jacek Hunicz, Maciej Mikulski, Arkadiusz Rybak // Fuel.- 2023, vol. 353 [MNiSW: 140]
5. Waste Plastic Pyrolytic Oil Blends as Valuable Fuels for Modern Compression Ignition Engines / Jacek Hunicz, Arkadiusz Rybak, Kamil Duda, Murugan Sivalingam, Maciej Mikulski // SAE Technical Papers.- 2023, nr 32-0133, s. 1-10 [MNiSW: 40]
Artykuły z 2022 (4)
1. A neural Network approach for reconstructing in-cylinder pressure from engine vibration data / Hoang Khac Nguyen, Amin Modabberian, Kai Zenger, Éric Lendormy, Maciej Mikulski, Jacek Hunicz // SAE Technical Papers.- 2022, nr 01-1038, s. 1-12 [MNiSW: 40]
2. Partially premixed combustion of hydrotreated vegetable oil in a diesel engine: Sensitivity to boost and exhaust gas recirculation / Jacek Hunicz, Maciej Mikulski, Pravesh Chandra Shukla, Michał S. Gęca // Fuel.- 2022, vol. 307, s. 1-13 [MNiSW: 140]
3. Thermo-kinetic multi-zone modelling of low temperature combustion engines / Aneesh Vasudev, Maciej Mikulski, Praveen Ramanujam Balakrishnan, Xiaoguo Storm, Jacek Hunicz // Progress in Energy and Combustion Science.- 2022, vol. 91, s. 1-61 [MNiSW: 200]
4. Tyre pyrolytic oil fuel blends in a modern compression ignition engine: A comprehensive combustion and emissions analysis / Maciej Mikulski, Jacek Hunicz, Kamil Duda, Paweł Kazimierski, Tomasz Suchocki, Arkadiusz Rybak // Fuel.- 2022, vol. 320, s. 1-14 [MNiSW: 140]
Artykuły z 2021 (1)
1. Comparative study of combustion and emissions of diesel engine fuelled with FAME and HVO / Jacek Hunicz, Paweł Krzaczek, Michał Sławomir Gęca, Arkadiusz Rybak, Maciej Mikulski // Combustion Engines = Silniki Spalinowe.- 2021, vol. 184, nr 1, s. 72-78 [MNiSW: 70]
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