- The range of building materials used for products and constructions in water systems and hydraulic structures and
their properties ;
- The relationship composition, structure and properties of the material , the principles of quality assessment indi-
cators ;
- Principles of economic assessment of the effectiveness of the production and use of building materials ;
- Determining influence quality materials for durability and reliability of building constructions , methods of pro-
tecting them from various types of corrosion ;
- Principles of environmentally friendly building materials , modern methods of environmental assessment materi-
als;
- Modern information and computer technology in the field of production and use of building materials that are
used in professional activity ;
understand
- Interconnection of the composition, structure and properties of building materials ;
- The link between performance and material environmental , economic characteristics that determine its effective-
ness in the field of water management and hydraulic engineering ;
The student should be able to:
- Justify the choice of materials and products in the design solutions ;
- To assess the condition of the building materials in products and structures used in water supply systems and fa-
cilities , irrigation and other areas of water resources and hydraulic engineering , in order to ensure the operational
safety of building products and constructions
- Monitor with recommendations during the waterproofing , concrete , welding , special tiles and other types of
work in the construction practice .
Postrekvizity " Organization and technology of water work ", "Technology of building production ", " Industrial
water supply and sewerage ", " Hydroeconomic design ", " Reconstruction of buildings systems"
The third course
Modules and discipline recommended for training path
№
Module
Discipline cy-
cle
Disci-
pline
Code
Name Number
Amo
unt of
cred-
its
Se-
mes-
ter
1
Special training
module
БД 3.2.17
GU
Hydropower installation
3
5
БД 3.2.17.1
VSNS
Water intake facilities and pumping sta-
tions
3
5
2
Special training
module
БД 3.2.18
GGD
Gidrogeodinamika
3
5
БД 3.2.18.1
TPV
Transportation of natural water
3
5
3
Special training
module
ПД 3.3.1
IVE
The use of water power
3
5
ПД 3.3.1.1
PSMG
Design and construction of small hydro-
power plants
3
5
4
Special training
module
ПД 3.3.2
TSV
Transportation wastewater
3
5
ПД 3.3.2.1
IG
Engineering Geology of Kazakhstan
3
5
5
Special training
module
БД 3.2.20
GMGIG
Geophysical methods in hydrogeology
and engineering gelogii
3
6
БД 3.2.20.1
UKPSV
Improving the quality of natural waters
3
6
6
Technology
module
ПД 3.3.3.
TSOV
Construction site water technology
3
6
ПД 3.3.3.1
IVZPV
Artificial replenishment of groundwater
reserves
3
6
7
Technology
module
ПД 3.3.4
OM
Irrigation reclamation
3
6
ПД 3.3.4.1
UVR
Water management
3
6
8
Technology
module
ПД 3.3.5
MG
Reclamation hydrogeology
2
6
ПД 3.3.5.1
OUO
Processing and recycling of precipitation
2
6
9
Technology
module
ПД 3.3.6
TOSV
Waste water technology
3
6
ПД 3.3.6.1
GI
Hydrogeological studies
3
6
GU Hydropower installation
Prerequisites:Hydraulics , Geodesy, Hydrogeology.
The purpose of the discipline: : дисциплины: Forming students' systematic knowledge about the conditions of
the use of hydraulic power units and concepts they use, hydraulic turbines, hydraulic and basic design elements and
circuits; the basic equation of turbines and pumps; nomenclature of hydraulic turbines and pumps, the principle of
modeling and enforcement options, selection of turbines and pumps, the calculation of the flow, addressing cavita-
tion; the layout of the underground block turbines and pumps: general information, classification and construction
of pumps; energy tests of pumps and turbines, pumps selection and layout settings.
Summary:In the course of hydropower installation included questions about the development of energy grown in
Kazakhstan, on reserves of hydropower resources and the role of water power in the socio-economic development
and the country, on the means and methods of converting water power into electricity and use of electric energy
share of water management, about the general concept of the hydraulic power plants and their design features,
principles of modeling and selection of hydraulic turbines and pumps, as well as the horizontal and vertical layout
structures, and hydraulic power plants equipment.
Expected results: Constructs concepts use of hydraulic turbines and pumps , the values of pressures and capacity
of hydropower plants, the basic equation of GUS , the basics of modeling and calculation principles flowing part of
water-power plants , occurrence of cavitation phenomena and deal with it .
The student should know: Selection of water turbines and pumps , hydraulic calculation of the flow of the hy-
draulic power units .
The student should be able to: determine the power and pressure of CSO assess the correctness of the choice of
hydraulic turbines and pumps , to perform high-altitude and the planned layout of the underground installation of
the hydraulic unit .
