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(VSU) "Lyuben Karavelov" - Sofia

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Course Descriptions

Compulsory Courses - 2014

Degree program: Civil Egineering, Curriculum 2014

Course: СССВ00 Preparatory Course in Mathematics

Faculty: Mechanics and Mathematics

Lecturers:
Prof. Dr. Nikolay Manev - nlmanev@math.bas.bg
Assoc. Prof. Dr. Veselin Kantchev - vkantchev@yahoo.com

Contact hours: 0h, 0h lectures, 0h seminars

Self-study hours: 30h, 15h tutoring,, 15h practical training

Assessment: No grade

Year, semester, weekly workload: Year 1, semester 1,

ECTS - 0

Анотация:
Дисциплината има за цел да намали различията в подготовката по математика на новоприетите студенти  и да ги подготви за  по-успешно усвояване на преподавания материал по математика и специалните дисциплини.
В часовете за самостоятелна работа е предвидено студентите да решават задачите от получения в началото на курса списък със задачи.

Учебни цели:
Студентите да възстановят и повишат  математическите знания и умения, които са им преподавани в средното училище.
Да се развие логическото мислене и способността на студентите да се справят успешно с нови проблеми с неизвестни решения, каквито ще възникват в бъдещата им професионална дейност..

Изисквания за заверяване на семестъра:
Студентите получават подпис по предмета и правото да се явят на първата обявена дата, ако

  1. са посещавали поне 2/3 от занятията;
  2. предали са решенията на задачите за самостоятелна работа.

Проверка на знанията и оценяване:
Изисква се да предадат решенията на задачите за самостоятелна работа.

Връзка с други дисциплини:
Дисциплината има подготвителна функция.

 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-1 Linear Algebra and Analytical Geometry

Faculty: Mechanics and Mathematics

Lecturers:
Assoc. Prof. Dr. Veselin Kantchev - vkantchev@yahoo.com
Prof. Dr. Nikolay Manev - nlmanev@math.bas.bg

Contact hours: 60h, 30h lectures, 30h seminars

Self-study hours: 0h,

Assessment: written examination

Year, semester, weekly workload: Year 1, semester 1, lectures 2.0h, seminars 2.0h

ECTS - 5

Main Topics: Complex numbers. Algebra of polynomials. Determinants and matrices. Systems of linear equations and matrix equations. Eigen numbers and eigen vectors of a matrix. Linear and square forms. Linear and vector spaces, basis. Cartesian and polar coordinate systems. Analytical representation of vectors and operations with vectors. Analytical representation of a straight line in a plane – mutual positions. Curves and surfaces of second degree. Basic problem of the linear optimization.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-2 Mathematical Analysis 1

Faculty: Mechanics and Mathematics

Lecturers:
Assoc. Prof. Dr. Veselin Kantchev - vkantchev@yahoo.com

Contact hours: 60h, 30h lectures, 30h seminars

Self-study hours: 0h,

Assessment: written examination

Year, semester, weekly workload: Year 1, semester 1, lectures 2.0h, seminars 2.0h

ECTS - 5

Main Topics: Numeric sets and images. Functions and numeric series. Limits, continuity and uniform continuity. Derivatives and differentials of functions. Basic theorems of differential calculus. General investigation of functions. Indefinite integral – definition, properties, integration methods. Definite integral – definition, properties, integration methods, applications. Approximation integration methods. Non-eigen integrals. Numeric series – types, properties, convergence criteria.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-3 Engineering Geology and Hydrogeology

Faculty: Department of Low-rise Construction

Lecturers:
Prof. Dr. Eng. Georgi Frangov - office@stiv88.com

Contact hours: 75h, 45h lectures, 30h seminars

Self-study hours: 0h,

Assessment: written examination

Year, semester, weekly workload: Year 1, semester 1, lectures 3.0h, seminars 2.0h

ECTS - 6

Main Topics: Genesis, structure and properties of rock-forming minerals, magmatic, sedimentary and metamorphic rocks. Influence of endogenous processes on the conditions for construction – active faults, contemporary movements of the Earth’s crust, earthquakes. Conditions and factors for the origin and development of unfavorable physical-geological processes and phenomena (weathering, rock-falls, screes, landslides, mud-stone torrents) and measures against them. Hydrogeology – types of groundwater, conditions for feeding and drainage, modeling of the hydrogeological conditions, stabilized and non-stabilized filtration, determining the water inflow into water intake facilities, construction excavations and drainage systems. Engineering geological characteristics of rocks and construction soils – more important physico-mechanical parameters. In-situ methods for engineering geological explorations. Evaluation of the conditions for the construction of buildings and facilities.

 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-4 Informatics

Faculty: Department of Informatics Visual Arts and Communication

Lecturers:
Assoc. Prof. Dr. Eng. Lyuben Lyubenov - lyubo_el@abv.bg
Assoc. Prof. Dr. Vanyo Georgiev - info@vanyog.com

Contact hours: 90h, 30h lectures, 60h seminars

Self-study hours: 0h,

Course assessments: 1

Assessment: written examination

Year, semester, weekly workload: Year 1, semester 1, lectures 2.0h, seminars 4.0h

ECTS - 7

Main Topics: Visual programming. Structure of the DELPHI software programme. Data types. Arithmetic and logical expressions. Assignment operator. Conditional and composite operator. CASE operator. Operators for cycles. Procedures, functions and libraries. Massifs and records. Application development using DELPHI. Working with databases in DELPHI. Work with formulas and circular letters in WORD. Using EXCEL for the solution of optimization problems. Graphs. Drawing the basic objects in AutoCAD. Editing commands and object reproduction. Screen management. Layers. Coordinate systems. Work with complex elements. Attributes. Legends and shadings in drawings. Dimensioning of drawings. Settings of the dimensioning style. Preparation for drawing with a plotter. Digitizing.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-5 Chemistry in Construction

Faculty: Department of Low-rise Construction

Lecturers:
Assoc. Prof. Dr. Eng. Ventseslav Stoyanov - vensy.stoyanov@vsu.bg

Contact hours: 45h, 30h lectures, 15h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 1, semester 1, lectures 2.0h, seminars 1.0h

ECTS - 3

Main topics: Inorganic chemistry, organic chemistry and polymer materials.

The first part considers the principal concepts of solutions, metals, corrosion and silicon as the basic constructive element of inanimate nature.

The second part points out the basic organic compounds with their specific properties, oil and the products of its processing, theoretical aspects about surface active substances, etc.

The third part considers the basic properties of rubber and plastics, which find still broader application in building practice.

The lectures are composed in a manner related with building practice.

The third part considers the basic properties of rubber and plastics, which find still broader application in building practice.

Lectures are composed in a manner related to building practice.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-6 Technical Drawing

Faculty: Department of Building Construction and Architectural Structures

Lecturers:
Assoc. Prof. Dr. Architect Yuliya Ilieva - yuliya_ilieva@vsu.bg

Contact hours: 15h, 0h lectures, 15h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 1, semester 1, seminars 1.0h

ECTS - 1

Main topics: Lines. Scripts. Graphical legends. Plans of a small building.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-7 Foreign Language

Faculty: Department of Informatics Visual Arts and Communication

Lecturers:
Senior Lecturer Antoaneta Dimitrova - tonnie_d@hotmail.com

Contact hours: 60h, 0h lectures, 60h seminars

Self-study hours: 0h,

Assessment: next semester

Year, semester, weekly workload: Year 1, semester 1, seminars 4.0h

ECTS - 3

Main topics: The four basic skills of reading, speaking, listening and writing are developed on the basis of the conversational and scientific-constructional English language. Word Formation. Expression of present, future and past actions. Passive voice. Expression of quantity. Comparative and superlative degree of the adjectives. Phraseological verbs. Complex-subordinate sentences. Translation of scientific-construction literature.

Degree program: Civil Egineering, Curriculum 2014

Course: Physical training and sport

Contact hours: 0h, 0h lectures, 0h seminars

Self-study hours: 0h,

Assessment:

Year, semester, weekly workload: Year 1, semester 1,

ECTS - 0

Main topics: Basic techniques, rules and skills in volleyball and table tennis games. A complex of aerobic exercises for general fitness. This provides to the students the possibility of participating in the respective hours for the above mentioned sports according to their own choice.

 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-8 Descriptive geometry

Contact hours: 75h, 30h lectures, 45h seminars

Self-study hours: 0h,

Course assessments: 1

Assessment: written examination

Year, semester, weekly workload: Year 1, semester 2, lectures 2.0h, seminars 3.0h

ECTS - 6

Main topics: The three main methods of modelling 3D spaces on a plane. Monge projection. Axonometry and Perspective. Representation of plane and space objects. Plane sections and intersection of objects. Homology and affinity. Finding intersections of objects. Finding the correlation between the three models.

 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-9 Geodesy

Contact hours: 75h, 45h lectures, 30h seminars

Self-study hours: 0h,

Course projects: 1

Assessment: written examination

Year, semester, weekly workload: Year 1, semester 2, lectures 3.0h, seminars 2.0h

ECTS - 6

Main topics: Subject, tasks and importance of geodesy. Shape and dimensions of the Earth. Measuring units. Scales. Theodolite – composition and classification. Checking and correction of the axial conditions of the theodolite. Direct measurement of lengths. Measurement of height differences. Types of leveling. Calculating the coordinates of points by means of forward intersection with adjacent angles. Polygons. Calculation and adjustment of point coordinates by included and closed polygon traverse. Geodetic survey methods – orthogonal, polar, photogrammetric. Solving of problems on topographic plans and maps. Numerical determination of areas. Substantiation of the accuracy of tracing and construction-assembly works on the basis of construction-assembly tolerances. Geodetic tracing base. Project for tracing of buildings and facilities. Transfer of points, axes and elevations to the initial building horizon (on zero elevation). Engineering geodetic works during the construction of the over-ground part of buildings and facilities. 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-10 Mathematical Analysis 2

Faculty: Mechanics and Mathematics

Lecturers:
Assoc. Prof. Dr. Veselin Kantchev - vkantchev@yahoo.com

Contact hours: 75h, 30h lectures, 45h seminars

Self-study hours: 0h,

Assessment: written examination

Year, semester, weekly workload: Year 1, semester 2, lectures 2.0h, seminars 3.0h

ECTS - 6

Main topics: Functional series and sequences – convergence and uniform convergence. Power series. Abel’s theorem. Expanding a function to a power series. Trigonometric series. Fourier series. Conditions of Dirichlet for the expansion of a function in a Fourier series. Functions of n variables – limits, continuity, partial derivatives and differentials. Direction derivative. Gradient. Taylor’s formula. Extremums and conditional extremums. Implicit functions. Vector function of a scalar argument. Curves in the plane and in the space. Curvature and torsion. Vector function of two scalar arguments. Surfaces. Double and 3-fold integrals – definition, properties, calculation, change of variables, geometrical and mechanical applications. Contour line integrals of first and second kind – formula of Green-Gauss, conditions for independence from the integration path, applications. Surface integrals of first and second kind – formulas of Stokes and Gauss-Ostrogradski. Elements of the field theory.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-11 Building Equipment

Faculty: Department “Technology and Construction Management”

Lecturers:
Assistant Prof. Eng. Petar Buchkov

Contact hours: 45h, 30h lectures, 15h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 1, semester 2, lectures 2.0h, seminars 1.0h

ECTS - 3

Main topics: Mechanical elements of building machines. Earth-moving, earth-moving-transport and profiling machines. Compacting machines. Asphalt spreading and compacting machines. Lifting-transport machines. Pile tamping machines. Mechanized building tools. 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-7 Foreign Language

Contact hours: 30h, 0h lectures, 30h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 1, semester 2, seminars 2.0h

ECTS - 2

Продължение от предишния семестър.

Degree program: Civil Egineering, Curriculum 2014

Course: 13 Theoretical Mechanics

Faculty: Mechanics and Mathematics

Lecturers:
Chief Assistant Prof. Eng. Petar Grekov - petar_grekov@abv.bg

Contact hours: 60h, 30h lectures, 30h seminars

Self-study hours: 0h,

Course assessments: 1

Assessment: next semester

Year, semester, weekly workload: Year 1, semester 2, lectures 2.0h, seminars 2.0h

ECTS - 5

Main Topics: Statics: Subject, purpose and tasks of the discipline. Axiomatic method of mechanics. Reduction of systems of forces and force couples. General and special cases of reduction. Distributed loads. Gravity center. Supports and support reactions. Basic problems of statics. Statically indeterminate and statically determinate problems. Point equilibrium. Equilibrium of a perfectly-rigid symmetric body loaded by coplanar forces. Equilibrium of a perfectly-rigid body (PRB) under spatial loading. Types of perfectly-rigid body systems. Analysis of permanence. Method of the section for determining the reactions in connections. Hinged girder. Three-hinged system. Plane hinge-beam structures. Analytical and graphical determination of beam forces. Friction types. Coulomb’s law.

Dynamics and kinematics. Subject and tasks of kinematics. Point kinematics. Translational, rotational and planar movement of PRB. Relative movement of a point and a body. Dynamics of unrestricted and restricted point. Newton’s axioms. Kinetic-static method. Dynamics of the relative movement of a point. Summary characteristics of forces, system inertia and material point movement, of point systems and perfectly-rigid bodies. Momentum (quantity of movement), kinetic moment, kinetic energy. Theorem for the system momentum (quantity of movement - QM). Law for momentum (QM) conservation. Theorem for the kinetic moment. Law for the kinetic moment conservation. Theorem for the kinetic energy. Law for conservation of mechanical energy. Dynamics of the rotational and planar movement of an ideally rigid body (IRB). DAlembert’s principle. Principle of the virtual displacements (Lagrange’s principle).

 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-45 Physical training and sport

Contact hours: 0h, 0h lectures, 0h seminars

Self-study hours: 0h,

Assessment:

Year, semester, weekly workload: Year 1, semester 2,

ECTS - 0

No current information about this course.

Degree program: Civil Egineering, Curriculum 2014

Course: 13 Theoretical Mechanics

Faculty: Mechanics and Mathematics

Lecturers:
Chief Assistant Prof. Eng. Petar Grekov - petar_grekov@abv.bg

Contact hours: 45h, 30h lectures, 15h seminars

Self-study hours: 0h,

Course assessments: 1

Assessment: written examination

Year, semester, weekly workload: Year 2, semester 3, lectures 2.0h, seminars 1.0h

ECTS - 3

Продължение от предишния семестър.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-14 Differential Equations and Mathematical Statistics

Faculty: Mechanics and Mathematics

Lecturers:
Assoc. Prof. Dr. Veselin Kantchev - vkantchev@yahoo.com

Contact hours: 60h, 30h lectures, 30h seminars

Self-study hours: 0h,

Assessment: written examination

Year, semester, weekly workload: Year 2, semester 3, lectures 2.0h, seminars 2.0h

ECTS - 5

Main topics: Ordinary differential equations (ODE) of I order – differential equations (DE) with separable variables, homogeneous, linear and reduced to them ones, exact DE. Decreasing the order of ODE. Linear ODE from the n-th order with variable and constant coefficients. Linear homogeneous and inhomogeneous ODE with constant coefficients. Linear ODE with constant coefficients and special right part. Method of Lagrange. Euler ODE. Systems of ODE – basic concepts, normal form. Solving linear systems with constant coefficients. Systems of non-linear ODE in symmetric form. First integral. General solution. Runge-Kutta method. Network methods. Euler method.

  • Partial differential equations (PDE) – basic concepts; functional dependence and independence of functions. Relation between an ODE system and linear I order PDE. Linear homogeneous and inhomogeneous I order PDE, Cauchy problem. II order PDE – classification and canonization, general solution. Hyperbolic PDE. Fourier method. DAlembert’s method.
  • Theory of probabilities (TP) and Mathematical statistics (MS) – stochastic events; statistical, classical, geometric and conditional probability; formula for the total probability and formula of Bayes. Random quantities, numerical characteristics and basic distributions. Basic concepts in mathematical statistics, limit theorems, point assessments. Covariation. Correlation and regression analysis. Checking statistical hypotheses. 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-15 Building Physics

Faculty: Mechanics and Mathematics

Lecturers:
Prof. Dr. Eng. Dimitar Dimitrov - Dimitrov.d.a@mail.bg

Contact hours: 60h, 30h lectures, 30h seminars

Self-study hours: 0h,

Assessment: written examination

Year, semester, weekly workload: Year 2, semester 3, lectures 2.0h, seminars 2.0h

ECTS - 5

Main topics: Mechanical movements, kinematic characteristics and laws. Basic laws of mechanical movement dynamics. Physical fields: gravity, electric and magnetic ones. Work and energy under the effect of mechanical and other physical forces. Harmonic oscillations, addition of mechanical oscillations. Decaying and induced oscillations, mechanical waves, resonance. Sound and ultrasound, noises and vibrations. Basic laws of thermodynamics. Transfer phenomena: diffusion, internal friction and heat conductivity of gases. Real gases and phase transitions of the substances. Molecular phenomena in fluids. Electromagnetic interactions. Conductors and dielectrics in an electric field. Ampere’s law. Hall effect. Electromagnetic waves. Essence of light, interference, diffraction and polarization of light. Electric properties of solid bodies. Conductors and semiconductors. Contact phenomena in metals. Thermoelectric phenomena. Structure of the atom and the atomic nuclei. Irradiation and absorption of substances. Radioactivity.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-16 Building Materials

Faculty: Department of Low-rise Construction

Lecturers:
Prof. DSc. Eng. Teodor Roshavelov - roshavelov@gmail.com
Chief Assist. Prof. Dr. Eng. Inavka Dobreva - ddiva@abv.bg

Contact hours: 90h, 60h lectures, 30h seminars

Self-study hours: 0h,

Assessment: written examination

Year, semester, weekly workload: Year 2, semester 3, lectures 4.0h, seminars 2.0h

ECTS - 7

Main topics: Subject of the discipline. Terminology. Classification and basic properties. Normative basis and purposeful application. Essential safety requirements and evaluation of their correspondence. Methods of testing. Rock building materials. Building ceramics. Building glass. Binding substances. Materials for concrete and concrete elements. Design of concrete composition. Materials for concrete and concrete mortars. Metals and metal elements. Polymer and plastic materials.

 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-17 Building Construction and Architecture

Faculty: Department of Building Construction and Architectural Structures

Lecturers:
Prof. Dr. Architect Yanko Alexandrov - aleksandrov@vsu.bg
Assoc. Prof. Dr. Architect Yuliya Ilieva - yuliya_ilieva@vsu.bg

Contact hours: 45h, 30h lectures, 15h seminars

Self-study hours: 0h,

Assessment: next semester

Year, semester, weekly workload: Year 2, semester 3, lectures 2.0h, seminars 1.0h

ECTS - 3

Main topics: Elements of the building: foundations, walls, floor structures, balconies, staircases, roofs and roof structures, doors and windows. Plasters. Thermal and waterproofing insulations. Floor covers and suspended ceilings. Types of buildings: residential, public, industrial, sport buildings and facilities. Design of a residential building.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-18 Road and Railway Construction

Contact hours: 45h, 30h lectures, 15h seminars

Self-study hours: 0h,

Course projects: 1

Assessment: next semester

Year, semester, weekly workload: Year 2, semester 3, lectures 2.0h, seminars 1.0h

ECTS - 3

Main topics: Basic concepts of roads and road network, classification, general requirements and main characteristics. Design of the road in plan (situation) – road alignment, general and normative requirements, selection of radii, transition curves. Design of the road in longitudinal profile – requirements for the design of the level line, ensuring of visibility, vertical curves. Road bed – elements, types, widening, rising, visibility in the horizontal curves. Transverse profiles of the road – requirements, types, determining the soil mass amounts, Bruckner polygon. Road pavements – classification, structural elements, technology of execution. Asphalt mixes and pavements – classification, materials, production, technology of execution, types of asphalt-concrete pavements. Concrete pavements – structural specific features, technology of execution. Dimensioning of road pavements – methods, dimensioning loads, construction requirements, dimensioning of semi-rigid and elastic pavements. Interaction between the road and the transport vehicles. Drainage of the road.

Basic concepts for traction calculations in railroad construction. Plan and longitudinal profile of the railroad line – arrangement and coordination. General information for the superstructure and lower structure of the railroad.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-19 Strength of Materials

Faculty: Mechanics and Mathematics

Lecturers:
Prof. DSc. Eng. Konstantin Kazakov - kazakov@vsu.bg
Assoc. Prof. Dr. Eng. Anita Handruleva - anita_handruleva@abv.bg

Contact hours: 60h, 30h lectures, 30h seminars

Self-study hours: 0h,

Assessment: next semester

Year, semester, weekly workload: Year 2, semester 3, lectures 2.0h, seminars 2.0h

ECTS - 4

Main topics: Subject, purpose and tasks of the discipline. Theoretical model of a deformable rigid body. Definition of cross-section forces and drawing of their diagrams. Planar problem. Differential dependences of Jurawski. Three-dimensional stressed state. Strained state. Generalized and simple Hooke’s law. General plan for solving the problem of strength of materials. Admissible stresses. Statically determinate and indeterminate problems. Inertial moments in coordinate system translation. Steiner’s theorems. Navier’s formula. Special bending combined with shear. Full dimensioning. Stressed state. Bending strain. Method of integration of the elastic line differential equation. Clapeyron’s theorem. Maxwell-Mohr integrals. Castiglano’s theorem. Castigliano’s theorem. Vereschagin’s rule. Classical strength theories. Euler’s formula for the critical force, basic cases, limit of applicability. Buckling above the proportionality limit. Dimensioning – classical method, φ - method.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-0 Physical training and sport

Contact hours: 0h, 0h lectures, 0h seminars

Self-study hours: 0h,

Assessment:

Year, semester, weekly workload: Year 2, semester 3,

ECTS - 0

No current information about this course.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-17 Building Construction and Architecture

Contact hours: 60h, 45h lectures, 15h seminars

Self-study hours: 0h,

Course projects: 1

Assessment: written examination

Year, semester, weekly workload: Year 2, semester 4, lectures 3.0h, seminars 1.0h

ECTS - 6

Продължение от предишния семестър.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-18 Road and Railway Construction

Contact hours: 30h, 15h lectures, 15h seminars

Self-study hours: 0h,

Assessment: written examination

Year, semester, weekly workload: Year 2, semester 4, lectures 1.0h, seminars 1.0h

ECTS - 3

Продължение от предишния семестър.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-19 Strength of Materials

Contact hours: 60h, 30h lectures, 30h seminars

Self-study hours: 0h,

Course assessments: 1

Assessment: written examination

Year, semester, weekly workload: Year 2, semester 4, lectures 2.0h, seminars 2.0h

ECTS - 6

Продължение от предишния семестър.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-20 Building Insulations

Faculty: Department of Low-rise Construction

Lecturers:
Prof. DSc. Eng. Teodor Roshavelov - roshavelov@gmail.com

Contact hours: 45h, 30h lectures, 15h seminars

Self-study hours: 0h,

Course projects: 1

Assessment: written examination

Year, semester, weekly workload: Year 2, semester 4, lectures 2.0h, seminars 1.0h

ECTS - 4

Main topics: Materials for thermal insulation and principle of the design of thermal insulations in buildings and thermal engineering assessment. Waterproofing – types, materials and systems. Principles of design of underground and roof waterproofing insulations. Waterproofing insulations of engineering facilities. Sound insulation materials. Materials and systems for protection against corrosion and fire – classification, types, application.

 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-21 Static of Structures – Part 1

Faculty: Mechanics and Mathematics

Lecturers:
Prof. DSc. Eng. Konstantin Kazakov - kazakov@vsu.bg

Contact hours: 75h, 45h lectures, 30h seminars

Self-study hours: 0h,

Course assessments: 1

Assessment: written examination

Year, semester, weekly workload: Year 2, semester 4, lectures 3.0h, seminars 2.0h

ECTS - 7

Main topics: Subject and basic tasks of building statics. Geometrically changeable and non-changeable structures. Statically determinate systems. Construction of the diagrams of cross-section forces. Properties of the diagrams. Lines of influence. Static and kinematic method for determining the lines of influence. Determining the forces with the help of the lines of influence. Hinged girder. Three-hinged archs and frames. Trusses with additional small trusses. Rhomb-like trusses. “K”-trusses. Three-hinged, Langer and suspended trusses. Mixed suspended and Langer systems. Principle of virtual displacements in ideally elastic systems. Determining the displacements provoked by an external load, thermal impact and support displacement. Energy theorems. Elastic lines for solid-walled systems and trusses. Composition using the Mohr analogy. Lines of influence for displacements.

 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-23 Soil Mechanics and Foundation Engineering

Contact hours: 30h, 15h lectures, 15h seminars

Self-study hours: 0h,

Assessment: next semester

Year, semester, weekly workload: Year 2, semester 4, lectures 1.0h, seminars 1.0h

ECTS - 2

Main topics: Physical and mechanical properties of soils; Stresses in soils; Deformations of the soil base; Consolidation and rheology of clays; Earth reaction; Stability of the soil base; Stability of soil facilities and natural slopes; Earth pressure; Dynamics of construction soils; Flat foundation; Building excavations; Pile foundation; Foundation with wells and spline walls; Foundation in seismic regions; Foundations under machines; Foundation in weak soils; Rearrangement of existing foundations.

 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-45 Physical training and sport

Contact hours: 0h, 0h lectures, 0h seminars

Self-study hours: 0h,

Assessment:

Year, semester, weekly workload: Year 2, semester 4,

ECTS - 0

No current information about this course.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-23 Soil Mechanics and Foundation Engineering

Faculty: Department of Low-rise Construction

Lecturers:
Assoc. Prof. Dr. Eng. Hristina Zayakova - HSZ@abv.bg

Contact hours: 90h, 60h lectures, 30h seminars

Self-study hours: 0h,

Course projects: 1

Assessment: written examination

Year, semester, weekly workload: Year 3, semester 5, lectures 4.0h, seminars 2.0h

ECTS - 8

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-24 Static of Structures – Part 2

Faculty: Mechanics and Mathematics

Lecturers:
Assoc. Prof. Dr. Eng. Radan Ivanov - r_ivanov@vsu.bg

Contact hours: 60h, 30h lectures, 30h seminars

Self-study hours: 0h,

Course assessments: 1

Assessment: written examination

Year, semester, weekly workload: Year 3, semester 5, lectures 2.0h, seminars 2.0h

ECTS - 5

Main topics: Defining statically indeterminate systems according to the force method. Solving statically indeterminate frames with temperature impacts and forced support displacements. Lines of influence for forces, reactions and displacements in statically indeterminate systems. Statically indeterminate continuous beams. Solution according to the force method. Clapeyron’s method. Lines of influence for the support reactions and cross-section forces. Determining the displacements in statically indeterminate systems due to: external load, temperature impacts and forced support displacement. Solving statically indeterminate trusses with external load, temperature impacts and forced support displacements. Lines of influence for the rod forces in statically indeterminate trusses. Statically indeterminate arch structures. Defining statically indeterminate systems according to the deformation method. Application of the deformation method for the solution of frames with force impacts, temperature impacts and forced support displacement. Application of the deformation method for solving continuous beams. Mixed method for investigating statically indeterminate frames. Essence of the finite element method (FEM). Principal scheme of the computer software programmes using the finite element method. Solving statically indeterminate problems with FEM using the SUPERSTAT software programme.

 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-25 Building Services

Contact hours: 75h, 45h lectures, 30h seminars

Self-study hours: 0h,

Course projects: 1

Assessment: written examination

Year, semester, weekly workload: Year 3, semester 5, lectures 3.0h, seminars 2.0h

ECTS - 5

Main topics: Hydrostatics and hydrodynamics. Basic equation of hydrostatics. Equation of continuity. Equation of Bernulli for real fluids. Pressure head and pressure head free flow. Basic equation of steady flow. Water supply schemes and water supply systems. External water conduit pipelines and water conduit networks and facilities. Pumps and pump stations, water pressure head and regulating facilities. Determining the required pressure head in the water conduit network. Sewerage systems and schemes. Sewerage networks and facilities – shafts, pump stations, spillways, siphons, retention reservoirs. Slopes of setting and hydraulic inclinations, velocities, cross-sections, fillings, laying and assembly. Water supply networks and facilities in buildings. Sewerage in buildings. Elements of the sewerage systems in buildings. Basic requirements in the design of the water supply and sewerage of buildings.

Electric supply systems and schemes. Basic parameters of the transforming facilities and electric consumers. External and building electric networks. Calculation of conductors, methods of network development. Protections in the electric networks. Calculation and selection of protective and electricity measuring devices. Management of electric motor driving of building machines. Ensuring, information

Heating systems and schemes. User stations. Heating installations in buildings. Air-conditioning installations. Ventilation systems and schemes. Parameters of the ventilation networks and facilities.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-26 Theory Of Elasticity, Stability And Dynamics Of Structures

Faculty: Mechanics and Mathematics

Lecturers:
Prof. DSc. Eng. Konstantin Kazakov - kazakov@vsu.bg
Assoc. Prof. Dr. Eng. Ivan Vaisilov - ivan_vaisilov@abv.bg

Contact hours: 30h, 15h lectures, 15h seminars

Self-study hours: 0h,

Assessment: next semester

Year, semester, weekly workload: Year 3, semester 5, lectures 1.0h, seminars 1.0h

ECTS - 4

Main topics: Basic hypotheses and dependences in the theory of elasticity (TE). Types of stressed and strained state. Planar problem of the theory of elasticity. Planar stressed state. Theory of thin slabs. Basic dependences in the Finite Element Method. Solving the planar problem using the Finite Element Method. Subject and tasks of structure stability. Formulas of Euler for straight rod critical parameter under different support conditions. Method of the elastic displacements (deformation method) in the problems for structure stability. Subject and tasks of Structure Dynamics. Unrestricted and restricted oscillations without attenuation of systems with one degree of freedom. Unrestricted oscillations of systems with more degrees of freedom. Dynamic diagrams of the cross-section forces. Investigation of building structures according to the spectral method (in conformity with the norms for design of buildings and facilities in earthquake regions). Concept for modal analysis in the investigation of building structures under seismic effects.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-27 Reinforced Concrete

Faculty: Department of Building Structures

Lecturers:
Chief Assist. Prof. Dr. Eng. Plamena Baleva - baleva_josifova@abv.bg

Contact hours: 60h, 45h lectures, 15h seminars

Self-study hours: 0h,

Assessment: next semester

Year, semester, weekly workload: Year 3, semester 5, lectures 3.0h, seminars 1.0h

ECTS - 5

Main topics: Essence of reinforced concrete, strength and deformation properties. Reinforcement – purpose, types. Stages of the stressed state. Fundamentals of the admissible stresses method, failure stage and method of limiting states. Calculation of elements acc ording to normal cross-sections subjected to bending: general conditions, rectangular cross-section, simply-supported slab cross-section. Calculation and construction of slabs: undirectionally and two-way reinforced, supported on three sides, methods according to an elastic system and with force redistribution. Calculation of inclined cross-sections. Coverage of M and Q diagrams. Calculation and construction of primary and secondary beams. Dimensioning of torsion. Calculation and construction of columns: sections with centric compression, eccentric compression and torsion with symmetric and asymmetric reinforcement. Determination of the curvature and rigidity of reinforced concrete cross-sections and of deformations. Calculation for normal crack origin. Calculation and construction of concrete and reinforced concrete foundations. Prestressed reinforced concrete elements – general conditions, methods of prestressing, anchoring of the prestressed reinforcement, determining the stressing force and the geometrical characteristics of reduced sections, calculation according to the I group of limiting states.

 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-28 Steel Structures

Faculty: Department of Building Structures

Lecturers:
Assoc. Prof. Dr. Eng. Todor Georgiev - georgiev.todor.d@gmail.com

Contact hours: 45h, 30h lectures, 15h seminars

Self-study hours: 0h,

Assessment: next semester

Year, semester, weekly workload: Year 3, semester 5, lectures 2.0h, seminars 1.0h

ECTS - 3

Main topics: Introduction in the theory of steel structures. Classification. Types of construction steels – characteristics and assortment. Basic methods for dimensioning of steel structures for centric and eccentric tension and compression, bending in the elastic and plastic stage. Connections in steel structures – welding and bolt connections – calculation and construction. Beam structures – dimensioning and construction of rolled and split (composite) beams, checking and ensuring the general and local stability. Columns – types, cross-section types, work of the columns under centric and eccentric compression, dimensioning and construction. Trusses – general characteristics, static calculation, dimensioning, construction. Composition solutions of industrial building structural systems, spatial stabilization, static investigation, dimensioning of the building elements. Bearing structures of large-span buildings – beam, frame and arch structures. Multi-storey buildings with steel structure, spatial stabilization, specific features of their calculation and construction. Towers and masts – fundamentals of calculation and construction. Sheet steel structures – reservoirs, bunkers, silos – dimensioning methods, structural specificities. Prestressed steel structures – beams and trusses, methods for prestressing, calculation. Hanging covers – planar and spatial, combined systems.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-45 Physical training and sport

Contact hours: 0h, 0h lectures, 0h seminars

Self-study hours: 0h,

Assessment:

Year, semester, weekly workload: Year 3, semester 5,

ECTS - 0

No current information about this course.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-26 Theory Of Elasticity, Stability And Dynamics Of Structures

Contact hours: 45h, 30h lectures, 15h seminars

Self-study hours: 0h,

Course assessments: 1

Assessment: written examination

Year, semester, weekly workload: Year 3, semester 6, lectures 2.0h, seminars 1.0h

ECTS - 2

Продължение от предишния семестър.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-27 Reinforced Concrete

Contact hours: 60h, 30h lectures, 30h seminars

Self-study hours: 0h,

Course projects: 1

Assessment: written examination

Year, semester, weekly workload: Year 3, semester 6, lectures 2.0h, seminars 2.0h

ECTS - 5

Продължение от предишния семестър.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-28 Steel Structures

Contact hours: 75h, 45h lectures, 30h seminars

Self-study hours: 0h,

Course projects: 1

Assessment: written examination

Year, semester, weekly workload: Year 3, semester 6, lectures 3.0h, seminars 2.0h

ECTS - 7

Продължение от предишния семестър.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-29 Timber and Plastic Structures

Faculty: Department of Low-rise Construction

Lecturers:
Assoc. Prof. Dr. Eng. Georgi Godinyachki - ggod@vsu.bg

Contact hours: 45h, 30h lectures, 15h seminars

Self-study hours: 0h,

Course projects: 1

Assessment: next semester

Year, semester, weekly workload: Year 3, semester 6, lectures 2.0h, seminars 1.0h

ECTS - 4

Main topics: Main types of wooden and plastic structures (WPS). General features and specific properties of WPS. Structure and composition of wood. Assortment. Work of wood under loading. Protection of wooden structures against biological damages and fire. Normative and calculation strengths. Dimensioning of one-part elements. Connections and connection items in wooden structures. Split elements with compliable connections. Split (solid-walled) plate girders. Wooden rod beams (trusses). Steel-wooden trusses. Frame and arch structures. Structural elements of the roof and wall partitioning. Spatial strengthening of planar wooden structures (WS). Wooden structures of residential buildings. Spatial (3D) wooden structures. Plastics as materials for building structures. Connections in plastic structures. Structures of polymer foils and synthetic fabrics.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-30 Computer-Aided Structural Design

Faculty: Department of Building Structures

Lecturers:
Chief Assist. Prof. Dr. Eng. Ivan Ivanchev - iivanchev@mail.bg
Assistant Prof. Eng. Stanislav Rachev - rachev@vsu.bg

Contact hours: 45h, 0h lectures, 45h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 3, semester 6, seminars 3.0h

ECTS - 3

Main topics: Modelling and computer based investigation of frame and solid structures. Application of the finite-element method. Elaboration and analysis of three-dimensional models. Foundation structures. Graphical CAD systems.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-31 Здравословни и безопасни условия на труд

Faculty: Department “Technology and Construction Management”

Lecturers:
Assoc. Prof. Dr. Eng. Lachezar Hrischev - l.hrischev@abv.bg

Contact hours: 30h, 15h lectures, 15h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 3, semester 6, lectures 1.0h, seminars 1.0h

ECTS - 1

Main topics: Normative documents ensuring healthful and safe labour conditions. Functions of the officials. Safety of labour for different types of building works. Personal protective equipment.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-33 Reinforced Concrete Structures

Contact hours: 45h, 30h lectures, 15h seminars

Self-study hours: 0h,

Assessment: next semester

Year, semester, weekly workload: Year 3, semester 6, lectures 2.0h, seminars 1.0h

ECTS - 3

Main topics: Main problems in the construction of monolithic and precast reinforced concrete structures. Loading and impacts. Seismic loading. Precast and monolithic one-storey frame structures. Roof panel, plate girder, sub-crane and Virindel girders, column, cup-like foundation. Multistorey frame structures. Girder-less slabs. Disks. Strip foundations and common foundation slab. Large-panel buildings. Circular reinforced concrete reservoirs. Water towers. Cooling towers.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-34 Construction Technology

Contact hours: 60h, 45h lectures, 15h seminars

Self-study hours: 0h,

Assessment: next semester

Year, semester, weekly workload: Year 3, semester 6, lectures 3.0h, seminars 1.0h

ECTS - 4

Main topics: Basic concepts and principles in the technology of construction processes. Transport works. Earth works. Blasting works. Pile works. Shuttering works. Reinforcement works. Masonry works. Concrete works. Assembly works. Roofing works. Execution of buildings and facilities according to different construction-technological methods.

 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-45 Physical training and sport

Contact hours: 0h, 0h lectures, 0h seminars

Self-study hours: 0h,

Assessment:

Year, semester, weekly workload: Year 3, semester 6,

ECTS - 0

No current information about this course.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-35 Учебна практика

Contact hours: 0h, 0h lectures, 0h seminars

Self-study hours: 0h,

Assessment:

Year, semester, weekly workload: Year 3, semester 6,

ECTS - 0

След завършване на трети курс, до началото на следващата учебна година, всеки студент провежда учебна практика с продължителност 3 седмици (120 часа) в работодателска организация или фирма на длъжност или позиция, която съответства на изучаваната от него специалност.

След успешното приключване на практиката, до началото на учебната година, студентът представя в деканата на Строителния факултет документ по утвърден образец, удостоверяващ проведената от него учебна практика.

Зачетената от деканата практика на студента се вписва в главната книга и в издаваната диплома за висше образование с текст „зачита се“.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-28 Reinforced Concrete Structures

Faculty: Department of Building Structures

Lecturers:
Assoc. Prof. Dr. Eng. Todor Georgiev - georgiev.todor.d@gmail.com
Assoc. Prof. Dr. Eng. Veselin Slavchev - slavchev@vsu.bg

Contact hours: 60h, 30h lectures, 30h seminars

Self-study hours: 0h,

Course projects: 1

Assessment: written examination

Year, semester, weekly workload: Year 4, semester 7, lectures 2.0h, seminars 2.0h

ECTS - 6

Продължение от предишния семестър.
 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-34 Construction Technology

Faculty: Department “Technology and Construction Management”

Lecturers:
Assoc. Prof. Dr. Eng. Ofeliya Lazova-Velinova - o_lazova@abv.bg

Contact hours: 60h, 45h lectures, 15h seminars

Self-study hours: 0h,

Course projects: 1

Assessment: written examination

Year, semester, weekly workload: Year 4, semester 7, lectures 3.0h, seminars 1.0h

ECTS - 6

Продължение от предишния семестър.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-36 Construction Economics

Faculty: Department “Technology and Construction Management”

Lecturers:
Dr. Eng. Sotir Iliev - sotir_iliev@abv.bg

Contact hours: 75h, 45h lectures, 30h seminars

Self-study hours: 0h,

Course assessments: 1

Assessment: written examination

Year, semester, weekly workload: Year 4, semester 7, lectures 3.0h, seminars 2.0h

ECTS - 5

Main topics: Basic theoretical and practical knowledge on market economy referring to market categories and mechanisms; capital and investments; production resources and results; annual financial report; business plans and tax imposing.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-37 Technlogy of Finishing works

Faculty: Department “Technology and Construction Management”

Lecturers:
Assoc. Prof. Dr. Eng. Lachezar Hrischev - l.hrischev@abv.bg
Assoc. Prof. Dr. Eng. Georgi Tepedelenov - george311249@yahoo.com

Contact hours: 45h, 30h lectures, 15h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 4, semester 7, lectures 2.0h, seminars 1.0h

ECTS - 3

Main topics: Technological sequence. External and internal plasters. Linings. Floor covers. Waterproofing works. Thermal insulations. Assembly of millwork and interior furnishing. Anticorrosion and fire protection. Dry construction.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-38 Construction Law

Faculty: Department “Technology and Construction Management”

Lecturers:
Assoc. Prof. Dr. Eng. Vencislav Stoyanov - venci_sto@abv.bg

Contact hours: 30h, 30h lectures, 0h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 4, semester 7, lectures 2.0h,

ECTS - 2

Main topics: Legal regulation. Hierarchy of legal regulations. State and municipal authorities. Property law. State and municipal property. Administrative law. Law of duties and contracts. Legal regulation of relations in construction work. Law of territory layout. Public commission assignments for construction. Construction contract. Reaching decisions in disputes between participants in the investment process.
 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-39 Optional Subject

Contact hours: 30h, 30h lectures, 0h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 4, semester 7, lectures 2.0h,

ECTS - 2

No current information about this course.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-40 Bridges

Faculty: Department of Building Structures

Lecturers:
Assoc. Prof. Dr. Eng. Dimo Kisov - dkisov@abv.bg

Contact hours: 60h, 30h lectures, 30h seminars

Self-study hours: 0h,

Assessment: next semester

Year, semester, weekly workload: Year 4, semester 7, lectures 2.0h, seminars 2.0h

ECTS - 3

Main topics: Basic data for bridge design. Elements and clearances of bridge structures. Loading of bridges – examples for application and combination. Constructive formation and static features of different bridge structures. Static analysis of bridge structures. Dimensioning and construction of bridge elements of ordinary and prestressed reinforced concrete. Typical elements, nodes and parts of steel and steel-reinforced concrete bridge structures – purpose, varieties, specific features. Modern methods of execution. Bridge maintenance and exploitation. Basic methods of rehabilitation, restoration and strengthening of existing bridges.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-41 Construction Organization

Faculty: Department “Technology and Construction Management”

Lecturers:
Assoc. Prof. Dr. Eng. Vencislav Stoyanov - venci_sto@abv.bg

Contact hours: 60h, 30h lectures, 30h seminars

Self-study hours: 0h,

Assessment: next semester

Year, semester, weekly workload: Year 4, semester 7, lectures 2.0h, seminars 2.0h

ECTS - 3

Main topics: Investment process – stages, normative documents, participants in the process, construction sites. Phases of the investment construction project.

Organization in labour in construction.

Applying technical norms in construction. Organization of labour payment in construction.

Price formation in construction.

Design of the organization in construction. Calendar planning in construction, types of calendar plans. Creation of works nomenclature. Analysis, technological and organizational commitment of construction and assembly works. Design of construction flow processes. Design of linear calendar plans with horizontal diagrams. Development and calculation of PERT charts oriented towards events and works. Determining the necessary materials, semi-manufactured articles and items, heavy mechanization and work force movement. Determining the necessity of temporary construction on the site. Design of temporary construction. Organization of construction execution. Design of the traffic organization on the construction site. Ensuring healthful and safe labour conditions on the construction site. Determining the places of specific hazards.  

Normatively determined and internal document exchange of the company during the realization of an investment construction project.

 

 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-45 Physical training and sport

Contact hours: 0h, 0h lectures, 0h seminars

Self-study hours: 0h,

Assessment:

Year, semester, weekly workload: Year 4, semester 7,

ECTS - 0

No current information about this course.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-40 Bridges

Contact hours: 60h, 30h lectures, 30h seminars

Self-study hours: 0h,

Course projects: 1

Assessment: written examination

Year, semester, weekly workload: Year 4, semester 8, lectures 2.0h, seminars 2.0h

ECTS - 5

Продължение от предишния семестър.
 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-41 Construction Organization

Contact hours: 90h, 60h lectures, 30h seminars

Self-study hours: 0h,

Course projects: 1

Assessment: written examination

Year, semester, weekly workload: Year 4, semester 8, lectures 4.0h, seminars 2.0h

ECTS - 6

Продължение от предишния семестър.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-42 Construction Management

Faculty: Department “Technology and Construction Management”

Lecturers:
Assoc. Prof. Dr. Eng. Vencislav Stoyanov - venci_sto@abv.bg

Contact hours: 90h, 60h lectures, 30h seminars

Self-study hours: 0h,

Course assessments: 1

Assessment: written examination

Year, semester, weekly workload: Year 4, semester 8, lectures 4.0h, seminars 2.0h

ECTS - 4

Main topics: Essence and basic principles of management. Cybernetic essence of management. System approach to the study of the construction company as a producing system. Principles of management. Basic functions of management. Management decision-making – stages of the decision making process. Methods of decision-making and decision evaluation. Basic functions of administration. Setting forth the targets of the construction company and determining the priorities. Strategic management and strategic planning. Strategies of the company. Selection and implementation of the strategy. Organizational structures, principles of design, advantages, disadvantages and field of application. Types of control and methods of control. Operative and situation management. Operative planning and reporting for the construction site. Announcement of the procedure and preparation of the necessary documentation for assigning a public order. Preparing the documentation for participating in a competition for public order assignment. Contracting in construction. Management of labour resources, recruiting personnel and conflict management. Marketing and marketing studies. Market segmentation. Stock, price and advertising policy of the company.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-43 Condition Assessment and Testing of Structures

Faculty: Department of Building Structures

Lecturers:
Assoc. Prof. Dr. Eng. Veselin Slavchev - slavchev@vsu.bg

Contact hours: 60h, 0h lectures, 60h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 4, semester 8, seminars 4.0h

ECTS - 3

Main topics: Examination of building structures – types, purposes, tasks and performance. Specific features of static real-size trials – types, purposes, tasks, programming, testing schemes and loading, processing, assessment and analysis of results. Non-destructive methods and tools for control on the technical state and quality of the materials used in the building structures. Instruments and devices for examination, static testing and non-destructive control on building structures – types, requirements, application, positioning and recording.

 

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-45 Diploma Thesis

Contact hours: 0h, 0h lectures, 0h seminars

Self-study hours: 0h,

Assessment:

Year, semester, weekly workload: Year 4, semester 8,

ECTS - 8

No current information about this course.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-45 Physical training and sport

Contact hours: 0h, 0h lectures, 0h seminars

Self-study hours: 0h,

Assessment:

Year, semester, weekly workload: Year 4, semester 8,

ECTS - 0

No current information about this course.

Electives - 2014

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-12.1. Математически софтуер за строителна механика

Contact hours: 30h, 15h lectures, 15h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 1, semester 2, lectures 1.0h, seminars 1.0h

ECTS - 2

MATLAB е много мощен софтуерен пакет за подпомагане на научни изследвания и създаване на приложни разработки. Многобройният набор от специализирани подпакети (Toolboxes) превръщат MATLAB в универсално средство за решаване на най-разнообразни проблеми от научно и приложно естество. Той е доминиращ пакет в техническите учебни, научни и развойни организации. MATLAB е великолепен помощник в работата на всеки строителен инженер и в частност за решаване на проблеми от строителната механика и съпромат. Целта е по време на курса студентите да разработят поне една от курсовите си задачи по механика и/или съпромат ползвайки MATLAB.

В часовете за самостоятелна работа е предвидено студентите да решават задачите от получения в началото на курса списък със задачи.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-12.2. Специализиран английски език

Contact hours: 30h, 0h lectures, 30h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 1, semester 2, seminars 2.0h

ECTS - 2

Учебната програма е предназначена за обучение по английски език на специалисти в строителството. Програмата ще представи на обучаемите разнородни теми в областта на строителството. Тя съчетава граматически конструкции, съответната специализирана терминология, полезни умения за обучаващите се, както и такива, които са свързани с тяхната сфера на дейност. Програмата включва: ясно дефинирани езикови правила и подходящи таблици и приложения, речник със съвременни термини от областта на строителството, както и допълнително подбрани модули от утвърдени системи на издателства като Кеймбридж, Оксфорд, Лонгман и др.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-22.1. Light building mechanization

Contact hours: 30h, 0h lectures, 30h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 2, semester 4, seminars 2.0h

ECTS - 2

Запознаване с предназначението, устройството, начина на използуване и техническо обслужване на механизираните инструменти при изпълнение на строително монтажни работи в строителството. Механизирани инструменти с електрическо задвижване на променлив и на постоянен ток, с пневматично задвижване и с хидравлично задвижване. Механизирани инструменти според начина на въздействие върху предмета на труда: с въртеливо движение за пробиване на отвори, за обработка на повърхности, за рязане на метали и не метали, за завиване на гайки и винтове, за разбъркване на разтвори; с ударно пробивно действие за пробиване на отвори в бетон, камък, тухли и др.; с ударно действие за разрушаване на бетон, камък, тухли и др, за уплътняване на насипни материали; с механично линейно действие за рязане на ламарина, армировка и др. Обучение в практическото управление на част от изучаваните инструменти.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-22.2. Static Analysis of Spatial Structures

Contact hours: 30h, 15h lectures, 15h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 2, semester 4, lectures 1.0h, seminars 1.0h

ECTS - 2

В учебната програма на избираемата дисциплина: „Статическо изследване на пространствени конструкции” са разгледани въпроси свързани с изчисляването и проектиране на пространствено прътови статически определими конструкции. Обърнато е внимание, освен на равнинни, пространствени прътови конструкции (триъгълни ферми), а също така и на мрежести куполи и двуслойни структури. Засегнати са редица въпроси свързани с тяхното реализиране в изграждането на покривни конструкции за различни видове сгради и съоръжения.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-22.3. Топлофизика и енергийна ефективност

Contact hours: 30h, 20h lectures, 10h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 2, semester 4, lectures 1.3h, seminars 0.7h

ECTS - 2

Основни принципи на термодинамиката. Енталпия. Топлопроводност, конвекция и радиация. Пропускливост на строителни материали, влажностни режими въздушни пространства. Вълнова пространствена акустика. Реверберация. Шум и вибрации в жилищни сгради. Физични свойства на звукоизолационните материали. Същност на светлината, основни закони. Естествено и изкуствено осветление – нормиране. Въздействия на слънчевата радиация върху сгради и помещения.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-32.1. Динамика на строителните почви

Contact hours: 30h, 15h lectures, 15h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 3, semester 6, lectures 1.0h, seminars 1.0h

ECTS - 2

Дисциплината „Динамика на строителните почви” изучава свойствата и реакцията на земната основа на динамични въздействия от различни източници като се акцентира на динамичното въздействие от земетръс. Подробно са разгледани правилата и принципите на Еврокод 8 в част „Земна основа и сеизмично въздействие”.

В упражненията се предвижда изпитване на почви на динамични въздействия в динамичния триосов апарат и вибрационния стенд, кактко и решаване на специфични задачи от динамика на строителните почви.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-32.2. Disasters and Emergencies

Contact hours: 30h, 0h lectures, 30h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 3, semester 6, seminars 2.0h

ECTS - 2

Учебната програма на дисциплината „Защита от природни бедствия и аварии“ съдържа:

Общи сведения, понятия и принципи за защита на населението при бедствия и аварии. Създаване на организация на защита на населението в Р. България при кризи. Национална система за управление. Място на строителната фирма. Най-често създавани заплахи като земетресения, наводнения, заснежаване и горски пожари. Строителни работи за намаляване и ликвидиране на последствията. Необходимост от познаване на индивидуална първа долекарска помощ при кръвотечение измръзване. производствени аварии, свързани с изтичане на токсични вещества и защита от тях. Средства за защита на дихателните органи и кожата. Основно средство за защита - граждански противогаз. Колективни средства за защита. Скривалища и убежища. Проектиране, изграждане и експлоатация. Евакуация от обществени и жилищни сгради при пожар и други бедствия. Пожарна опасност строителни материали. Подготовка за евентуална радиоактивност, радиоактивни вещества и начини за защита от тях. Познания за обща характеристика на реакторните инсталации в АЕЦ ”Козлодуй”. Защита на населението при аварии в АЕЦ. Психологическа помощ и подкрепа на пострадали от природни бедствия, аварии и катастрофи. Основни части на екологична оценка и съвременни изисквания за определяне на екологичния риск.

В извънаудиторно време е предвидено провеждане на учебна практика с продължителност 4 часа – посещение на център за управление при аварии или природни бедствия.

строителната фирма при третирането им.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-44.1. Възстановяване и усилване на строителни конструкции

Contact hours: 30h, 20h lectures, 10h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 4, semester 8, lectures 1.3h, seminars 0.7h

ECTS - 2

В курса са анализирани причините, налагащи възстановяването и усилването на стоманобетонните конструкции. Представени са материалите и начините за възстановяването и усилването на ст. б. конструкции. Разгледани са начините за възстановяването и усилването на отделните конструктивни елементи. Дадени са различни начини за вграждане на нови конструктивни елементи или дисипиращи елементи (демпфери).

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-44.2. Formwork systems and scaffolds

Contact hours: 30h, 14h lectures, 16h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 4, semester 8, lectures 0.9h, seminars 1.1h

ECTS - 2

Специализираният курс има за цел да запознае бъдещите бакалаври с номенклатурата и начина на проектиране на най-често прилаганите кофражни системи и скелета, използвани в съвременното строителство. Курсът цели да даде знания и изгради умения в бъдещите строителни специалисти в проектирането на кофражи с програма Peri ELPOS. получените знания ще бъдат полезни на бъдещите специалисти при извършване на строителни дейности, с които ще се срещат в своята практика, както и при изучаването на други технически дисциплини, имащи пряко отношение към професионалната им подготовка. Материалът е разделен на теми, които са методически свързани и представляват интерес за студентите от специалност ССС.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-44.3. Computer Systems in Construction Organization

Contact hours: 30h, 0h lectures, 30h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 4, semester 8, seminars 2.0h

ECTS - 2

Въведение в програмата „Гауди План“. Основни понятия и определения. Работни модели. Създаване на нов файл. Основен екран. Таблици. Създаване на нови таблици и редактиране на съществуващи. Въвеждане на обема на СМР. Създаване на подробна количествена сметка. Ценообразуване. Работа с различни валути. Въведение в програмата „Building Manager”. Основни понятия и определения. Основен екран. Таблици. Създаване на нови таблици и редактиране на съществуващи. Работни филтри. Екран характеристики. Работа с основни менюта и бутони. Въвеждане на вид СМР. Създаване на подробна количествена сметка. Ценообразуване. Работа с различни валути. Създаване на анализи. Създаване на нова база данни. Извеждане на справки. Въведение в програмата „Microsoft Project”. Основни понятия и определения. Въведение в програмата „Строител“. Основни понятия и определения.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-44.4. Production Plants in Construction

Contact hours: 30h, 15h lectures, 15h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 4, semester 8, lectures 1.0h, seminars 1.0h

ECTS - 2

Технология на производството на бетонни смеси. Технологична характеристика, структура и схема на процеса. Видове, устройство и действие на бетоносмесителното отделение и на складовете за добавъчни материали и цимент. Технология на заготовка на армировъчна стомана и видове изделия от нея. Технология за обработка на кангална и прътова стомана – изправяне, отмерване, рязане и огъване на армировъчната стомана. Технология на контактно-точково и контактно челно електросъпротивително заваряване. Производство на заварени мрежи. Технология на производство на бетонни и стоманобетонни елементи и изделия. Основни технологични схеми на производствения процес. Формуване на бетонни и стоманобетонни елементи и изделия. Кофражни смазки. Видове и устройство на кофражните форми. Основни и комбинирани методи за уплътняване на бетонната смес. Контрол върху качеството.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-И.1 Екологични строителни материали

Faculty: Department of Low-rise Construction

Lecturers:
Assoc. Prof. Dr. Eng. Ventseslav Stoyanov - vensy.stoyanov@vsu.bg

Contact hours: 30h, 24h lectures, 6h seminars

Self-study hours: 30h, 30h practical training

Assessment: current evaluation

Year, semester, weekly workload: Year 4, semester 8, lectures 1.6h, seminars 0.4h

ECTS - 2

Optional Subjects - 2014

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-39.1. Зидани конструкции

Contact hours: 30h, 20h lectures, 10h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 4, semester 7, lectures 1.3h, seminars 0.7h

ECTS - 2

В курса са дадени основните познания за зиданите конструкции. Представени са материалите, класификациите съгласно изискванията на ЕК-2 и ЕК-6, детайлите, строителното изпълнение, конструиране на елементите и връзките между тях – съгласно обхвата на разделите в тази учебна програма. Дадени са изискванията съгласно ЕК-8 за строителство в сеизмични район. Разгледани са методите и начините за възстановяването и усилването на отделните конструктивни елементи и конструкциите като цяло.

Degree program: Civil Egineering, Curriculum 2014

Course: ССС-39.2. Проектиране на обекти с комбинирани конструкции

Contact hours: 30h, 15h lectures, 15h seminars

Self-study hours: 0h,

Assessment: current evaluation

Year, semester, weekly workload: Year 4, semester 7, lectures 1.0h, seminars 1.0h

ECTS - 2

В учебната програма на факултативната дисциплина: „Проектиране на обекти с комбинирани конструкции” са разгледани въпроси свързани с комбинирането на два материала: стомана и стоманобетон” в единен „композитен” конструктивен елемент, с което се постигат достатъчно високи технико-икономически параметри на конструкцията, изразени в подобрени якостни и коравинни стойности, намаляване разхода на стомана, подобрени антикорозионни и противопожарни качества, увеличаване дълготрайността, редуциране и опростяване на довършителните работи. Това всичко дава резултати, които се изразяват в съкращаване сроковете на строителство и в подобряване икономическите параметри на строителния процес.

 

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