Scientific Activity

Research areas:
  • Creation of power effective ventilation of industrial buildings;
  • Ventilation and air distribution complex problem solution with comfort and efficiency analysis;
  • Theoretical bases of microclimate maintenance in agricultural production new generation storehouses;
  • Improvement of operational efficiency of activated onboard fume and gas exhaustion over a surface of galvanic baths;
  • Working out of devices for de-aerate cleanout in systems of industrial ventilation to expand the possibility of using recirculation of air;
  • Physical and mathematical modeling of heat-and-mass exchange processes in devices with hygroscopic nozzle of air condition systems and ventilation;
  • Improvement of operational efficiency of using the warmth of phase transition and a renewable power resource thermodynamic non-equilibrium state of common air in devices of indirect evaporative refrigeration in air conditioning systems;
  • Improving active aeration methods of grassy vegetative raw materials in hay storages;
  • Air cleanout from polluting ventilating emissions;
  • Imrovement of local exhaust ventilation;
  • Maintenance of standard parameters of air and concentration of hazardous substances in a served or working area by means of heating, ventilating and air conditioning;
  • Energy-saving in heating, ventilation and air conditioning services;
  • Development of power effective heating, ventilating and hot-water supply services of residential blocks;
  • Substantiation of operating modes of a rotating dehumidifier of air at grass aeration in hay storages;
  • Research and development scientific bases for non-polluting and power saving heat-and-mass exchange devices with a hygroscopic nozzle of air conditioning systems;
  • Improvement of operational efficiency of floor water radiant panel heating;
  • Scientific bases development to optimize research in power saving heat-and-mass exchange devices of air condition systems;
  • Dynamics forecast of heat-to-humidity conditions of non-load-bearing designs of residential blocks in St.-Petersburg and increase their power efficiency at thermo- modernization.

Faculties

  • Faculty of environmental engineering and municipal services
    Faculty of environmental engineering and municipal services
  • Faculty of automobile and road-building
    Faculty of automobile and road-building
  • Faculty of economics and management
    Faculty of economics and management
  • Faculty of architecture
    Faculty of architecture
  • Faculty of civil engineering
    Faculty of civil engineering
  • Faculty of forensic investigation and law in construction and transport
    Faculty of forensic investigation and law in construction and transport
Contact us:
Name:
e-mail:
Message:
Enter captcha: Refresh image

Refresh image