“Technologies for organizing drainage in estate construction” - course 15,000 rubles. from MSU, training 4 weeks. (3 months), Date: November 28, 2023.
Miscellaneous / / November 28, 2023
Program Manager: Kovaleva Natalia Olegovna, Email: [email protected], tel. 8-495-939-22-89
Responsible for additional education: Timofeeva Elena Aleksandrovna, Email: [email protected], tel. 8 (903) 22-33-99-2, 8(495)939-22-33
If necessary, the program can be adapted to the customer’s requirements - expanded, removed, or the necessary topics added to the curriculum of the additional education program
Who is this course for?
The training course, built in the form of a master class, is aimed at those who are passionate about architectural, landscape, park, country and estate construction, gardening and landscape design and is dedicated to the current problem of waterlogging of landscapes, combating waterlogging of areas, soaking and death of plantings, water in the basement.
What will you learn?
Students will learn about modern drainage construction technologies for draining houses, roads, gardens, terraces, platforms, paths, retaining walls, ponds, etc. In an interactive form, the lecturer will demonstrate to students new modern materials (drains, geotextiles, drainage filters, geogrids, etc.) that are used in garden construction. Together with the presenters, listeners will perform simple calculations themselves and draw drainage diagrams for the most popular landscape construction objects (house, garden, bathhouse, pond, etc.) with a detailed description of their phased design. The classes will be accompanied by a presentation of the structures discussed. During the master class, using the proposed soil samples from various regions of Russia and districts of the Moscow region, participants will be able to learn to independently determine the nature and degree of waterlogging in the landscape (by color, soil structure characteristics and etc.).
In what format are classes held?
Classes are held in the form of master classes, lectures and excursions to the Landscape Park of the Faculty of Soil Science of Moscow State University to become familiar with the techniques of draining ready-made landscape forms.
Doctor of Biological Sciences, Deputy Director (currently Acting Director) of the Institute of Environmental Soil Science, Moscow State University named after M.V. Lomonosov.
Kovaleva Natalia Olegovna, born in 1967 birth, graduated from the Department of General Soil Science, Faculty of Soil Science, Moscow State University with honors in 1989. (was the owner of a personal scholarship named after Pryanishnikov). In 1989 entered the competitive graduate school of the Department of General Soil Science, which she graduated in 1995. In 1996 defended her PhD thesis on the topic “Evolution of the soil cover of the Kyrgyz Tien Shan range.”
In 1997 was assigned to the position of first scientific and then senior research fellow at the Institute of Soil Science of Moscow State University-RAN. In 1998 became a laureate of the Moscow State University Competition for Young Scientists, and in 1999 and 2000. – twice winner of a scholarship from the German Academic Exchange Foundation. In 1999-2000 Kovaleva N.O. For a year I trained at the Department of Soil Biogeochemistry at the University of Bayreuth, and in 2000 – 3 months at the Department of Soil Science of the Engineering and Reclamation Institute in the city. Hanover in Germany.
In 2002 Kovaleva became the winner of the RAS Medal “For the best scientific work of the year” among young scientists of Russia, and in 2007 received the title of associate professor in soil science.
In 2009 Kovaleva N.O. defended her doctoral dissertation on the topic “Mountain soils of Eurasia as a paleoclimatic archive of the Late Glacial and Holocene.” Since 2010 She worked as a leading researcher at the Laboratory of Energy and Mass Transfer in Soils and Ecosystems at the Institute of Environmental Soil Science, Moscow State University.
Kovaleva N.O. was the responsible executor (8 grants) and director (2 grants) of the RFBR and RGNF grants, participant Federal target program “History of Russian agrarian society”, grant from the Scientific School of Academician of the Russian Academy of Sciences G.V. Dobrovolsky.
Kovaleva N.O. is the author of 130 published works, including 9 monographs and 11 popular science articles. The main directions of research activities of Kovaleva N.O. – mountain soils, paleosoil science and paleoclimatology, soil organic matter, soil engineering, ecological soil science.
Kovaleva N.O. — scientific supervisor of diploma theses and master's theses of students and graduate students of the Faculty of Soil Science of Moscow State University, teacher of the Higher School of Landscape Design of the Moscow Architectural Institute.
Kovaleva developed and introduced into the program of the Faculty of Soil Science a special course “Engineering Soil Science”. The course “Soil science for the purposes of landscape design” is taught at the training courses of the Biocenter of Moscow State University and at the Department of Landscape Architecture at the Moscow Academy of Architecture and Art.
Section 1: Introduction. Types, features and principles of soil and landscape engineering, including at low-rise buildings
1.1 Technologies for organizing drainage in estate construction are an integral part of soil engineering and soil-landscape engineering. Features of soil landscape engineering: in agricultural landscapes, in waterlogged areas, in urbanized areas, in areas of transport highways, in technogenic landscapes, in estate and low-rise buildings construction. Prospects for the development of soil engineering in the development of new methods of environmental development.
Section 2: Pre-project analysis of territories: composition of activities, methods, role of engineering geological and hydrological surveys
2.1 Characteristics of the relief: types of relief, relief elements, exposure, slope steepness, magnitude slope, insolation, watershed lines, thalweg lines, dimensions and boundaries of landscape forms, area catchment area
2.2 Analysis of technical reports (description of engineering-geological layers) compiled based on the results of engineering-geological and engineering-hydrogeological drilling. Main categories of groundwater and their characteristics. Determination of preferential moisture flows. Determination of rock types and soil granulometric composition.
2.3 Based on the results of the pre-project analysis, compilation of a soil engineering map in order to identify groups of landscapes by degree the need for soil landscape engineering activities, choosing the right design solution, determining the feasibility of performing technical tasks.
Section 3: Types and features of drainage in areas of cottage and estate construction. Soil engineering calculations and soil engineering design.
3.1 Analysis of factors of waterlogging of landscapes. Features of soil-landscape planning and landscaping of waterlogged areas. Assessing the feasibility of draining the territory's soils.
3.2 Classification of types of drainage, various types of drainage systems. Features of soil drainage in low-rise buildings. Drainage of low-rise structures, spatial-architectural forms: alpine hills, dry streams, grottoes, parapets, amphitheatres, parterres, alleys; landscape and architectural structures: retaining walls, terraces, paths. Features of drainage and cultivation of soils for gardens and tree nurseries. Features of soil drainage for sports, playgrounds and recreation areas. Drainage materials, new insulating and filtering polymer materials. Volumetric filters, their types and purpose. Trench filters, evaluation of their effectiveness. Possibilities and limitations of using SNiPs. Soil hydrological calculations.
3.3 Project for drainage of low-rise buildings. Contents of the drainage project, diagrams of engineering structures, explanatory note, estimate. Rules for designing a project, features of implementation (features of technology and construction), implementation of the project, designer's supervision. Operation of drainage: monitoring and supervision, operation of the water intake and drainage area, flushing of drains. Assessing the causes of drainage disruption.