Methodology of hydraulic study of anti-erosion coating – geomat with soil filler and sowing of perennial grasses

The purpose of this study was to study the options for using a geomat with vegetation, namely the selection and selection of a mixture of herbs for the formation of herbage in the cover structure and the development of a hydraulic study technique. This article describes the study, which was aimed at studying the features of the formation of herbage of different grass seeds in the structure of the geomat. The features of the grass stand formation were studied and the most suitable grass variety for its use as part of a coating consisting of a geomat was determined. The results of these studies are necessary for the further application of a coating consisting of a geomat filled with soil with sowing of perennial grasses, as well as for determining its hydraulic characteristics, such as the roughness coefficient. An experimental setup for studying the hydraulic characteristics of an anti-erosion coating, a geomat with vegetation, is considered. A technique is described for determining the hydraulic characteristics with the refinement of the roughness coefficient of an anti-erosion coating consisting of a geomat filled with soil with sowing of perennial grasses. The use of this coating will give the slope of the soil structure a natural look without loss of protective properties. Also, thanks to the sowing of perennial grasses, the use of this coating will increase the environmental performance of the structure.

1. Zhukova T.Yu. Modern development trends and prospects for the introduction of geosynthetic materials // Materials of the international scientific conference of young scientists and specialists dedicated to the 135th anniversary of the birth of A.N. Kostyakov. Collecton of articles. M.: RGAU-MSHA Publishing House. 2022. P. 69. 73.

2. Zhukova T.Yu. Modern and engineering-ecological anti-erosion coating, consisting of a geomat filled with soil with sowing of perennial grasses. T.Yu. Zhukova // In the collection: Agrarian Science – 2022. Materials of the All-Russian Conference of Young Researchers. 2022. P. 8-11.

3. Khomchenko Yu.V. Stability of slopes and slopes reinforced with geotextile materials / Yu.V. Khomchenko // Bulletin of the Polotsk State University. – 2014. – No. 16. – P. 54-59.

4. Gladshtein O.I. Features of the use of geosynthetic materials in hydraulic engineering construction. Hydrotechnics. 2009. No. 1 (14). P. 69-70.

5. Koreneva V.V., Kozyr I.E., Shterenlicht D.V. Hydraulic and constructive substantiation of bank protection and bank protection measures at water bodies: textbook. M.: MGUP, 2002.116 p.

6. Lupachev O.Yu., Teleshev V.I. Application of geosynthetic materials in hydrotechnical construction as anti-filtration elements of dams and dikes. SPbSTU, 2009, No. 1. P. 71-75.

7. ZhukovaT. Yu., Eremeev A.V., Khanov N.V. and Bobur Shodiev. Study of possibility application of anti-erosion coating – geomate with ground and sowing of permanent grasses. E3S Web Conferences, 2023, 365,04034

8. Chow V.T. Hydraulics of open channels / V.T. Chow. Moscow: “Literature on construction” Publishing house. 1969. 462 p.

9. Kozlov K.D., Guriev A.P., Khanov N.V. Hydraulic studies of coatings made of geocomposite material. Prirodoobustrojsstvong. 2014. No. 5. P. 8086.

10. Kozyr I.E., Pikalova I.F., Khanov N.V. Practicum in hydraulics. Teaching guide. St. Petersburg, “Lan”, 2016. 176 p.

11. Hydraulic structures. Textbook: edited by Rozanova N.P. – M.: Agropromizdat, 1985. – 432 p.

12. Agroskin I.I., Dmitriev G.T., Pikalov F.I. Hydraulics: textbook. M.: Energy, 1964. 352 p.