Improvement of the indoor air environment using phytodesign by phytoncidal plants

The main problem of closed rooms is air pollution with chemical compounds, dust, anthropotoxins and pathogens. Solving this problem with the help of technical and engineering technologies is not always effective, since it requires a lot of time and significant capital investments. The technology of phytodesign by phytoncidal plants is proposed. The purpose of the work is to optimize the air environment by an example of the winter garden in Kiev National University of Construction and Architecture using phytodesign by phytoncidal plants. Objectives of the work: to examine the assortment of plants in the winter garden; to assess whether the number of plants is sufficient for sanitation of the air environment of the premises with an area of ​​930 m2; analyze the shortcomings of the range of phytoncidal plants; to develop proposals for the phytodesign of a winter garden to improve the quality of the air environment. It was found that the existing number of phytoncidal plants (18 pieces) for effective sanitation of the air in the investigated room is insufficient. Their decorative effect is reduced due to some disadvantages of care. It’s one of the reasons for a decrease in the growth of vegetative mass and the production of phytoncides. For effective air sanitation of the area of the investigated room, 310 specimens of large-sized phytoncidal plants are required. To expand the assortment, the following phytoncidal species are offered: Aglaonema, Anthúrium Aspidistra elatior, Begonia Chlorophytum, Dracena marginata, Ficus benjamina Wiandi, Hedera, Kalanchoe, Nolina, Philodendron, Spatifillum, Scindapsus, Sansevieria, Eucevieriaceae, plants of the families Euphorbiaceae, Orchidáceae, Bromeliaceae. Green phytoncidal zones can also be expanded by introducing "green" structures.