[
Amanowicz, Ł., Wojtkowiak, J., 2021. Comparison of Single- and Multipipe Earth-to-Air Heat Exchangers in Terms of Energy Gains and Electricity Consumption: A Case Study for the Temperate Climate of Central Europe. Energies 14, 8217, DOI: 10.3390/en14248217
]Otwórz DOISearch in Google Scholar
[
Bielski, A., 2021. Mixing effects in the river downstream from pollution discharge point. Technical Transactions 118, art. e2021004, DOI: 10.37705/TechTrans/e2021004
]Otwórz DOISearch in Google Scholar
[
Cigarini, F., Fay, T-A., Artemenko, N., Göhlich, D., 2021. Modeling and Experimental Investigation of Thermal Comfort and Energy Consumption in a Battery Electric Bus. Word Electric Vehicle Journal, 12(1), art. 7, DOI: 10.3390/WEVJ12010007
]Otwórz DOISearch in Google Scholar
[
Czyczuła, W., Rochel, M., 2021. Operational problems of tramway infrastructure in sharp curves. Technical Transactions 118, art. e2021015. DOI: 10.37705/TechTrans/e2021015
]Otwórz DOISearch in Google Scholar
[
Dabek, L., Kapjor, A., Orman, L.J., 2019. Distilled water and ethyl alcohol boiling heat transfer on selected meshed surfaces. Mechanics&Industry, 20(7), art. 701, DOI: 10.1051/meca/2019068
]Otwórz DOISearch in Google Scholar
[
Danca, P.A., Nastase, I., Croitoru, C., Bode, F., Sandu, M., 2020. Thermal comfort evaluation inside a car parked under sun and shadow using a thermal manikin. IOP Conference Series: Earth and Environmental Science, 664(1), art. 012064, DOI: 10.1088/1755-1315/664/1/012064
]Otwórz DOISearch in Google Scholar
[
Danca, P., Vartires, A., Dogeanu, A., 2016. An overview of current methods for thermal comfort assessment in vehicle cabin. Energy Procedia, 85, 162-169, DOI: 10.1016/j.egypro.2015.12.322
]Otwórz DOISearch in Google Scholar
[
Danielewski, H, Skrzypczyk A, Zowczak W, Gontarski D, Płonecki L, Wiśniewski H, Soboń D, Kalinowski A, Bracha G, Borkowski K., 2021. Numerical analysis of laser-welded flange pipe joints in lap and fillet configurations. Technical Transactions 118, art. e2021030. DOI: 10.37705/TechTrans/e2021030
]Otwórz DOISearch in Google Scholar
[
Djoković, J.M., Nikolić, R.R., Bujnak, J., Hadzima, B., Pastorek, F., Dwornicka, R., Ulewicz, R., 2022. Selection of the Optimal Window Type and Orientation for the Two Cities in Serbia and One in Slovakia. Energies, 15, 323. DOI: 10.3390/en15010323
]Otwórz DOISearch in Google Scholar
[
Feng, J., Yan, T., Zhao, K., 2021. Thermal Comfort Analysis of Passenger Compartment of a Hybrid Vehicle, Journal of Physics: Conference Series, 1986, art. 012057, DOI: 10.1088/1742-6596/1986/1/012057
]Otwórz DOISearch in Google Scholar
[
Gazda, A., Pacana, A., Malindzak, D., 2013. Study on improving the quality of stretch film by Taguchi method. Przemysl Chemiczny, 92(6), 980-982.
]Search in Google Scholar
[
Giaconia, C., Orioli, A., Di Gangi, A., 2015. A correlation linking the predicted mean vote and the mean thermal vote based on an investigation on the human thermal comfort in short-haul domestic flights. Applied Ergo-nomics, 48, 202-213, DOI: 10.1016/j.apergo.2014.12.003
]Otwórz DOISearch in Google Scholar
[
Khatoon, S., Kim, M., H., 2020. Thermal Comfort in the Passenger Compartment Using a 3-D Numerical Analysis and Comparison with Fanger’s Comfort Models. Energies, 13(3), art. 690, DOI: 10.3390/en13030690
]Otwórz DOISearch in Google Scholar
[
Kosiński P., Skotnicka-Siepsiak A., 2022. Possibilities of Adapting the University Lecture Room to the Green University Standard in Terms of Thermal Comfort and Ventilation Accuracy. Energies, 15, 3735, DOI: 10.3390/en15103735
]Otwórz DOISearch in Google Scholar
[
Krawczyk, N., Dębska, L., Białek, A., 2021. Thermal Comfort in the Modern Car-Experimental Analysis and Verification of the Fanger Model. International Review of Mechanical Engineering, 15 (12), 609-614, DOI: 10.15866/ireme.v15i12.21473
]Otwórz DOISearch in Google Scholar
[
Kubecki A, Śliwiński C, Śliwiński J, Lubach I, Bogdan L, Maliszewski W., 2021. Assessment of the technical condition of mines with mechanical fuses. Technical Transactions 118, art. e2021025, DOI: 10.37705/Tech-Trans/e2021025
]Otwórz DOISearch in Google Scholar
[
Kurp, P., Danielewski, H., 2022. Metal expansion joints manufacturing by a mechanically assisted laser forming hybrid method – concept. Technical Transactions 119, art. e2022008, DOI: 10.37705/TechTrans/e2022008
]Otwórz DOISearch in Google Scholar
[
Majewski, G., Orman, L.J., Telejko, M., Radek, N., Pietraszek, J., Dudek, A., 2020. Assessment of Thermal Comfort in the Intelligent Buildings in View of Providing High Quality Indoor Environment. Energies, 13(8), art. 1973, DOI:10.3390/en13081973
]Otwórz DOISearch in Google Scholar
[
Maltsevich, I., 2021. Technological structures in construction during the implementation of the National Strategy for Sustainable Development – 2035. Construction of Optimized Energy Potential, 10(2), 61-68, DOI: 10.17512/bozpe.2021.2.08
]Otwórz DOISearch in Google Scholar
[
Miletic, I., Ilic, A., Nikolic, R.R., Ulewicz, R., Ivanovic, L., Sczygiol, N., 2020. Analysis of selected properties of welded joints of the HSLA Steels. Materials, 13(6), art. 1301, DOI: 10.3390/ma13061301
]Otwórz DOISearch in Google Scholar
[
Orman, Ł,.J., 2014a. Boiling heat transfer on single phosphor bronze and copper mesh microstructures. EPJ Web of Conf., 67, art. 02087, DOI: 10.1051/epjconf/20146702087
]Otwórz DOISearch in Google Scholar
[
Orman, Ł.J., 2014b. Boiling heat transfer on meshed surfaces of different aperture. AIP Conference Proc., 1608, 169-172, DOI: 10.1063/1.4892728
]Otwórz DOISearch in Google Scholar
[
Orman, L.J., Radek, N., Pietraszek, J., Szczepaniak, M., 2020. Analysis of Enhanced Pool Boiling Heat Transfer on Laser-Textured Surfaces. Energies, 13(11), art. 2700, DOI: 10.3390/en13112700
]Otwórz DOISearch in Google Scholar
[
Pala, U., Oz, H., R., 2015. An investigation of thermal comfort inside a bus during heating period within a climatic chamber. Applied Ergonomics, 48, 164-176, DOI: 10.1016/j.apergo.2014.11.014
]Otwórz DOISearch in Google Scholar
[
Petrash, V., Khomenko, A., Polomannyy, O., Visotska, M., 2021. Integration of ground and ventilation air energy for heating buildings. Construction of Optimized Energy Potential, 10(1), 7-17, DOI: 10.17512/bozpe.2021.1.01
]Otwórz DOISearch in Google Scholar
[
Pietraszek, J., 2003. Response surface methodology at irregular grids based on Voronoi scheme with neural network approximator. In: Rutkowski, L., Kacprzyk, J. (eds.) Neural Networks and Soft Computing. Advances in Soft Computing, vol 19. Physica, Heidelberg, 250-255, DOI:10.1007/978-3-7908-1902-1_35
]Otwórz DOISearch in Google Scholar
[
Pietraszek, J., Gadek-Moszczak, A., Torunski, T., 2014. Modeling of Errors Counting System for PCB Soldered in the Wave Soldering Technology. Advanced Materials Research, 874, 139-143, DOI: 10.4028/www.scientific.net/AMR.874.139
]Otwórz DOISearch in Google Scholar
[
Pietraszek, J., Szczotok, A., Radek, N., 2017. The fixed-effects analysis of the relation between SDAS and carbides for the airfoil blade traces. Archives of Metallurgy and Materials, 62(1), 235-239, DOI: 10.1515/amm-2017-0035
]Otwórz DOISearch in Google Scholar
[
Radek, N., Dwornicka, R., 2020. Fire properties of intumescent coating systems for the rolling stock. Communications – Scientific Letters of the University of Žilina 22, 90-96, DOI: 10.26552/com.C.2020.4.90-96
]Otwórz DOISearch in Google Scholar
[
Radek, N., Szczotok, A., Gadek-Moszczak, A., Dwornicka, R., Broncek, J., Pietraszek, J., 2018. The impact of laser processing parameters on the properties of electro-spark deposited coatings. Archives of Metallurgy and Materials, 63, 809-816, DOI: 10.24425/122407
]Otwórz DOISearch in Google Scholar
[
Radzajewski P., 2021. Calculation of brake-force distribution on three-axle agricultural trailers using simulation methods. Technical Transactions 118, art. e2021029, DOI: 10.37705/TechTrans/e2021029
]Otwórz DOISearch in Google Scholar
[
Ravindra, K., Agarwal, N., Mor, S., 2021. Assessment of thermal comfort parameters in various car models and mitigation strategies for extreme heat-health risks in the tropical climate. Journal of Environmental Management, 267, art. 110655, DOI: 10.1016/j.jenvman.2020.110655
]Otwórz DOISearch in Google Scholar
[
Regulski, P, Abramek, K., 2022. The application of neural networks for the life-cycle analysis of road and rail rolling stock during the operational phase. Technical Transactions 119, art. e2022002. DOI: 10.37705/Tech-Trans/e2022002
]Otwórz DOISearch in Google Scholar
[
Rolle, A., Schmandt, B., Guinet, C., Bengler, K., 2021. Assessment of Thermal Comfort in Different Vehicle-Classes – The Suitability of ISO 14505-2:2006-12, LNNS, 221, 806-813, DOI: 10.1007/978-3-030-74608-7_99
]Otwórz DOISearch in Google Scholar
[
Saleel, C.,A., Mujeebu, M.,A., Algarni, C., 2019. Coconut oil as phase change material to maintain thermal comfort in passenger vehicles. Journal of Thermal Analysis and Calorimetry, 136, 629-636, DOI: 10.1007/s10973-018-7676-y
]Otwórz DOISearch in Google Scholar
[
Simion, M., Socaciu, L., Unguresan, P., 2016. Factors which Influence the Thermal Comfort Inside of Vehicles. Energy Procedia, 85, 470-480, DOI: 10.1016/j.egypro.2015.12.229
]Otwórz DOISearch in Google Scholar
[
Siwiec, D., Dwornicka, R., Pacana, A., 2020. Improving the non-destructive test by initiating the quality management techniques on an example of the turbine nozzle outlet. Materials Research Proceedings, 17, 16-22, DOI: 10.21741/9781644901038-3
]Otwórz DOISearch in Google Scholar
[
Szczotok, A., Chmiela, B., 2014. Effect of heat treatment on chemical segregation in CMSX-4 nickel-base superalloy. Journal of Materials Engineering and Performance, 23(8), 2739-2747, DOI: 10.1007/s11665-013-0843-1
]Otwórz DOISearch in Google Scholar
[
Szczotok, A., Pietraszek, J., Radek, N., 2017. Metallographic study and repeatability analysis of gamma ' phase precipitates in cored, thin-walled castings made from IN713C superalloy. Archives of Metallurgy and Materials, 62(2), 595-601, DOI: 10.1515/amm-2017-0088
]Otwórz DOISearch in Google Scholar
[
Szczotok, A., Radek, N., Dwornicka, R., 2018. Effect of the induction hardening on microstructures of the selected steels. METAL 2018 27th Int. Conf. Metallurgy and Materials, Ostrava, Tanger, 1264-1269.
]Search in Google Scholar
[
Ujma, A., Jura, J., 2021. Thermal emissivity of tent fabric and its influence on the thermal insulation of tent walls. Construction of Optimized Energy Potential, 10(2), 15-22, DOI: 10.17512/bozpe.2021.2.02
]Otwórz DOISearch in Google Scholar
[
Ulewicz, R., Mazur, M., Knop, K., Dwornicka, R., 2020. Logistic controlling processes and quality issues in a cast iron foundry. Materials Research Proceedings, 17, 65-71, DOI:10.21741/9781644901038-10
]Otwórz DOISearch in Google Scholar
[
Vink, P., Bazley, C., Kamp, I., Blok, M., 2021. Possibilities to improve the aircraft interior comfort experience. Applied Ergonomics, 43, 354-359, DOI: 10.1016/j.apergo.2011.06.011
]Otwórz DOISearch in Google Scholar
[
Wójcicka, K., 2021. The efficiency of municipal sewage treatment plants inspiration for water recovery. Technical Transactions 118, art. e2021023, DOI: 10.37705/TechTrans/e2021023
]Otwórz DOISearch in Google Scholar
[
Wysoczański, A, Kamyk Z, Yvinec Y., 2021. Analysis of the possibility of employing 3D printing technology in crisis situations. Technical Transactions 118, art. e2021008, DOI: 10.37705/TechTrans/e2021008
]Otwórz DOISearch in Google Scholar
[
Zhou, X., Lai, D., Chen, Q., 2019. Experimental investigation of thermal comfort in a passenger car under driving conditions. Building and Environment, 149, 109-119, DOI: 10.1016/j.buildenv.2018.12.022
]Otwórz DOISearch in Google Scholar
[
Zhou, X., Lai, D., Chen, Q., 2020 Thermal sensation model for driver in a passenger car with changing solar radiation. Building & Environment, 183, art. 107219, DOI: 10.1016/j.buildenv.2020.107219
]Otwórz DOISearch in Google Scholar
[
Zhou, X., Liu, Y., Luo, M., Zheng, S.,Yang, R., Zhang, X., 2022. Overall and thermal comfort under different temperature. noise, and vibration exposures. Indoor Air, 32, art. e12915, DOI: 10.1111/ina.12915
]Otwórz DOISearch in Google Scholar
