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Ру

Pukhkal Viktor A.

Position

Associate professor

Academic degree

PhD of Engineering Sciences (1984)

Academic title

Associate professor (1993)

Faculty

Faculty of Environmental Engineering and Municipal Services

Department

Department of Heat and Gas Supply and Ventilation

Address

4, 2nd Krasnoarmeiskaya Str., St Petersburg, 190005

Phone +7 (812) 575-05-31
E-mail tgsov@spbgasu.ru

Basic information

Education

Specialty Heat and Gas Supply and Ventilation QualificationCivil Engineer (Far Eastern State Polytechnic University, 1980)

Professional development

  • Labor protection of pedagogical workers of educational institutions (SPbGASU, 2017)
  • Internship at the Teddington air curtain factory (Germany, 2017)
  • Conducting energy surveys to improve energy efficiency and energy saving (Capital Institute for Advanced Studies of Specialists, 2017)
  • Energy efficient heating equipment (SPbGASU, 2017)
  • Development and implementation of electronic courses in the educational process on the LMS Moodle platform (SPbGASU, 2017)
  • Life safety (SPbGASU, 2018)
  • Anti-corruption (for teachers) (SPbGASU, 2018)
  • Normative and methodological support of the educational process for bachelor's, specialist's and master's programs (SPbGASU, 2018)
  • Features of teaching disabled people and people with health disorders in a technical university (SPbGASU, 2018)
  • The use of software tools of the "Ecolog" series in environmental design in thermal power engineering and systems of heat and gas supply and ventilation (Integral Institute for Advanced Studies, 2019)
  • Preparation of projects for internal and external systems and networks of heat and gas supply and ventilation (SPbGASU, 2019)
  • Labor protection in educational institutions (SPbGASU, 2020, 16 hours)
  • Using BIM technologies to create energy-efficient engineering systems (SPbGASU, 2021, 72 hours)

Teaching

  • Ventilation
  • Adjustment and operation of thermal power equipment
  • Fundamentals of technical operation of construction projects
  • Heating
  • Improving the energy efficiency of the housing stock, public and civil facilities
  • Heating, ventilation, air conditioning, gas supply and lighting

Professional interests

  • Scientific research
  • Curriculum development

Research interests

  • Heat consumption of residential buildings for heating, ventilation and hot water supply
  • Residential and public buildings ventilation
  • Ventilation and air conditioning system equipment

Scientific conferences

Viktor A. Pukhkal has participated in more than 40 scientific conferences.

Professional organizations

  • Member of the Association of HVAC Engineers (AVOK) North-West

Publications

Viktor A. Pukhkal has published more than 100 academic papers.

The most significant publications

Textbooks

  1. Pukhkal, V. A. Investigation of centrifugal fans operation: laboratory workbook / V. A. Pukhkal, V. P. Chernekov. - Vladivostok, 1993.
  2. Grimitlin, A. M. Pumps, fans, compressors in the engineering equipment of buildings: textbook / A. M. Grimitlin, O. P. Ivanov, V. A. Pukhkal. - St Petersburg: SPbGASU, 2006.
  3. Heating and ventilation of a residential building: textbook / V. A. Pukhkal, V. F. Vasiliev, I. I. Sukhanova, Yu. V. Ivanova, V. M. Ulyasheva. - St Petersburg: SPbGASU, 2017.

Articles

  1. Vuksanovic, D. Glazing design for exhibition pavilions based on translucent structures under winter conditions during cold periods / D. Vuksanovic, Yu. Nikitin, V. Murgul, N. Vatin, V. Pukhkal // Applied Mechanics and Materials. – 2014. – No. 680. – Р. 499–503. DOI: 10.4028/www.scientific.net/AMM.680.499.
  2. Murgul, V. Development of the ventilation system in historical buildings of St. Petersburg / V. Murgul, D. Vuksanovic, V. Pukhkal, N. Vatin // Applied Mechanics and Materials. – 2014. – No. 633–634. – Р. 977–981. DOI: 10.4028/www.scientific.net/AMM.633-634.977.
  3. Murgul, V. Decentralized ventilation systems with exhaust air heat recovery in the case of residential buildings/ V. Murgul, D. Vuksanovic, N. Vatin, V. Pukhkal // Applied Mechanics and Materials. – 2014. – No. 680. – Р. 524–528. DOI: 10.4028/www.scientific.net/AMM.680.524.
  4. Pukhkal, V. Centralized natural exhaust ventilation systems use in multi-story residential buildings/ V. Pukhkal, N. Vatin, V. Murgul // Applied Mechanics and Materials. – 2014. – No. 680. – Р. 529–533. DOI: 10.4028/www.scientific.net/AMM.680.529.
  5. Murgul, V. The use of decentralized ventilation systems with heat recovery in the historical buildings of St Petersburg / V. Murgul, D. Vuksanovic, N. Vatin, V. Pukhkal // Applied Mechanics and Materials. – 2014. – No. 635–637. – Р. 370–376. DOI: 10.4028/www.scientific.net/AMM.635-637.370.
  6. Pukhkal, V. Central ventilation system with heat recovery as one of the measures to upgrade energy efficiency of historic buildings/ V. Pukhkal, N. Vatin, V. Murgul // Applied Mechanics and Materials. – 2014. – No. 633–634. – Р. 1077–1081. DOI: 10.4028/www.scientific.net/AMM.633-634.1077.
  7. Pukhkal, V. A. Analysis of water consumption for hot water supply of residential buildings during energy inspection / V. A. Pukhkal // Bulletin of Civil Engineers. - 2014. - No. 5 (46). – P. 101–106.
  8. Pukhkal, V. A. Determination of the specific heating characteristics of residential buildings during energy inspection / V. A. Pukhkal // Bulletin of Civil Engineers. - 2014. - No. 4 (45). – P. 99–103.
  9. Pukhkal, V. Reconstruction of buildings with a superstructure mansard: Options to reduce energy intensity of buildings / V. Pukhkal, V. Murgul, M. Garifullin // Procedia Engineering. – 2015. – Vol. 117. – P. 624–627. DOI: 10.1016/j.proeng.2015.08.223.
  10. Pukhkal, V. Humidity conditions for exterior walls insulation (Case study of residential housing development in Saint-Petersburg) / V. Pukhkal // Procedia Engineering. – 2015. – Vol. 117. – P. 616–623. DOI: 10.1016/j.proeng.2015.08.222.
  11. Pukhkal, V. Studying humidity conditions in the design of building envelopes of “passive house” (in the case of Serbia) / V. Pukhkal, M. Tanić, N. Vatin, V. Murgul // Procedia Engineering. – 2015. – Vol. 117. – P. 859–864. DOI: 10.1016/j.proeng.2015.08.152.
  12. Pukhkal, V.A. Regulation of the heat flow of convectors by an air valve / V.A. Pukhkal // Bulletin of Civil Engineers. - 2015. - No. 5 (52). – P. 191–195.
  13. Pukhkal, V. Designing energy efficiency glazed structures with comfortable microclimate in northern region / V. Pukhkal, A. Bieliatynskyi, V. Murgul // Journal of Applied Engineering Science. – 2016. – № 14, 1, 358. – Р. 93–101. DOI: 10.5937/jaes14-10469.
  14. Pukhkal, V. Studies of Application Conditions of In-floor Convectors With Natural Air Circulation in Water Heating Systems / V. Pukhkal // Architecture and Engineering. – Jun 2016. – №. 2, Vol. 1. – Р. 49–52.
  15. Pukhkal, V. A. Methodology of Selection Domestic Hot Water flow Counters for Multifamily Buildings / V. Pukhkal, A. Yeremkin, A. Tsygankov, B. Moiseev // Procedia Engineering. – 2016. – Vol. 165. – С. 1281–1286. DOI: 10.1016/j.proeng.2016.11.851.
  16. Pukhkal, V. A. Analysis of automatic systems controlling single-stage layout connection of hot-water supply heaters in closed heat-supply systems / V.A. Pukhkal, M. A. Fedorov, A. L. Shkarovsky // Bulletin of Civil Engineers. – 2016. – No. 6 (59). – P. 163–167.
  17. Pukhkal, V. A. Indoor thermal comfort maintenance by means of water skirting board heating system / V.A. Pukhkal, K. O. Sukhanov, A. M. Grimitlin // Bulletin of Civil Engineers. – 2016. – No. 6 (59). – P. 156–162.
  18. Pukhkal, V. A. Analysis of heat consumption regimes for heating operated residential buildings / V. A. Pukhkal // Fundamental research. - 2017. - No. 1. - P. 106–111.
  19. Pukhkal, V. A. Features of the use of floor convectors / V. A Pukhkal // Engineering systems. - 2017. - No. 3. - P. 16–20.
  20. Pukhkal, V. A. Design features of water heating systems with floor convectors / V. A. Pukhkal // AVOK: Ventilation, heating, air conditioning, heat supply and building thermal physics. - 2017. - No. 7. - P. 30–34.
  21. Pukhkal, V. Calculated heat-and-technical indicators of brick external walls of the historical residential buildings: IOP Conference Series: Earth and Environmental Science / V. Pukhkal, V. Murgul. – 2017. – Vol. 90.
  22. Pukhkal, V. Determination of the heat exchange coefficient of outer shells in residential buildings / V. Pukhkal, V. Evstratov // IOP Conference Series: Earth and Environmental Science. – 2017. – Vol. 90.
  23. Pukhkal V. Generation of natural convective air flows in rooms with the use of in flor convectors with natural circulation / V. Pukhkal, V. Bulgakov // Architecture and Engineering. – 2017. – Vol. 2, № 4. – Р. 42–47.
  24. Pukhkal V. A. Airtightness testing of composite ventilation units / V. A. Pukhkal // Bulletin of Civil Engineers. – 2017. – No. 6 (65). – P. 194–198.
  25. Pukhkal, V. A. FEM modeling of external walls made of autoclaved aerated concrete blocks / V. A. Pukhkal, A. B. Mottaeva // Magazine of Civil Engineering. – 2018. – № 81 (5). Р. 202–211. DOI: 10.18720/MCE.81.20.
  26. Pukhkal, V. Effect of aerated concrete blockwork joints on the heat transfer performance uniformity / V. Pukhkal, V. Murgul // E3S Web of Conferences. – 2018. – Vol. 33. DOI: 10.1051/e3sconf/20183302002.
  27. Pukhkal, V. The Study of Compact Convective Stream Formed by Use of Recessed Floor Convection Heaters with Natural Air Circulation / V. Pukhkal, V. Taurit // Part of the Advances in Intelligent Systems and Computing book series . – 2018. – Vol. 692. – Р. 379–390. DOI: 10.1007/978-3-319-70987-1_40.
  28. Pukhkal, V. The Study of Flat Convective Stream Formed by Use of Recessed Flood Convection Heaters with Natural Air Circulation in High Height Rooms with Continuous Glassing / V. Pukhkal // Part of the Advances in Intelligent Systems and Computing book series. – 2018. – Vol. 692. – Р. 512–519. DOI: 10.1007/978-3-319-70987-1_54.
  29. Pukhkal, V. The use of in-floor convectors in rooms with a large glazing area / V. Pukhkal // Journal of Physics: Conference Series. – 2020. – Vol. 1614. Doi:10.1088/1742-6596/1614/1/012018.
  30. Zhilkina, T. Influence of the scheme of air exchange organization in the room on the efficiency of the air-jet hood of the heat treatment chamber / T. Zhilkina, V. Pukhkal, V. Pankov // E3S Web of Conferences. – 2020. – Vol. 224. Doi:10.1051/e3sconf/202022403026.
  31. Pukhkal, V. (2020). Virtual thermal tests of heating devices / V. Pukhkal // Journal of Physics: Conference Series. – 2020. – Vol. 1614. Doi:10.1088/1742-6596/1614/1/012073.
  32. Pukhkal, V. Air-jet cover for heat treatment chamber / V. Pukhkal, V. Pankov, D. Spitsov // Journal of Physics: Conference Series. – 2020. – Vol. 1614. Doi:10.1088/1742-6596/1614/1/012075.
  33. Pukhkal, V. A. The study of room's air exchange scheme's influence on exhaust ventilation hood's effectiveness / V. A. Pukhkal, V. B. Pankov // Engineering Journal of Don. – 2020. – No. 7.
  34. Pukhkal, V. A. On the influence of coolant flow on the heat flow of sectional radiators / V. A. Pukhkal, S. R. Markaryan // International scientific and research journal. – 2021. – No. 11 (113). – Part 1. – P. 54–62.
  35. Modeling of ventilation in living premises with air intake through adjustable window sashes / V. A. Pukhkal, S. M. Anisimov, A. L. Shkarovsky, A. V. Tsygankov // Bulletin of Civil Engineers. – 2021. – No. 5 (88). – P. 130–136. DOI 10.23968/1999-5571-2021-18-5-130-136