Introduction. Advanced personal protective equipment (PPE) against low temperatures is a high–tech product created using the latest achievements of science, design designs, ergonomic, aesthetic solutions that determine its thermal protection properties. The use of membrane materials in PPE from low temperatures allows them to combine low weight and high thermal protection properties, low air permeability and sufficient vapor permeability necessary to ensure heat and moisture exchange between humans and the environment. The study aims to determine the thermal protection properties of various sets of multilayer workwear and indicators of heat and moisture exchange of volunteers when modeling professional activity at low air temperature. Materials and methods. The authors have conducted a study in a microclimatic chamber with the participation of six practically healthy male volunteers. The researchers have determined the thermal protection properties of multilayer workwear of various configurations in accordance with GOST R 12.4.185-99 and MUK 4.3.1894-04. As test samples, they have used pipes of three different configurations to protect against low temperatures, wind, water, general industrial pollution and mechanical influences, as well as short-term exposure to open fire. The assessment of heat and moisture exchange indicators of various PPE configurations was carried out by specialists when modeling work activities with measurements of the relative humidity level in the layers of the kits and the level of accumulated moisture in each element of the PPE. Results. The authors have determined the values of thermal insulation of the studied materials and the scope of their application. To assess heat and moisture exchange, two samples of PPE were selected, made using membrane and cotton fabrics with similar thermal insulation values. The analysis of the results of studies of moisture exchange indicators showed a slightly lower efficiency of moisture evaporation of the control sample. The indicator of the relative humidity of the air under the shelter space and between the layers of the package of materials and clothing has shown its informative significance for assessing the effectiveness of moisture transfer from the surface of the human body to the environment. Conclusion. The results of a physiological and hygienic assessment of a set of multilayer clothing made of membrane materials have shown that various combinations of its constituent elements make it possible to create kits that provide adequate protection for an employee in a wide range of air temperatures and wind speeds. The use of membrane materials in combination with structural elements (ventilation openings) provides a more efficient transfer of moisture from the skin surface to the external environment, as evidenced by the values of the relative humidity index of the air under the clothing space and between the layers of clothing. Ethics. The study was approved by the local Ethical committee of the Izmerov Research Institute of Occupational Health (Minutes of the meeting No. 6 dated 07/20/12)