Master
Civil Engineering and Construction Management
part-time
The construction sector is in need of all-round civil engineers with a strong practical orientation. To meet this need, the Bachelor program combines the fundamentals of civil engineering and business administration with personal development to form a comprehensive package. Our intensive exchange with companies such as FCP, ÖBB, PORR and STRABAG SE continuously increases the quality of training and at the same time makes you a sought-after employee.
Bachelor of Science in Engineering (BSc)
tuition fee per semester
€ 363,361
+ ÖH premium + contribution2,3
Application winter semester 2023/24
18th October 2022 to 15 th May 2023
50
1 Tuition fees for students from third countries € 727,- per semester
2 for additional study expenses (currently up to € 83,- depending on degree program and year)
3 One time: package of norms ca. € 320-350,-
You are fascinated by everything that has to do with construction. You are particularly interested in scientific contexts, mathematical questions, enjoy technical drawing and have a good basic understanding of business. Personally, you are structured, work well under pressure and enjoy working with others. You have an analytical mind and act in a practical and solution-oriented manner.
Leading companies in the industry trust our training and education quality and may finance your very place at university.
You will benefit from mentoring and scholarship programs and lay the foundation for your career early on.
Understanding each other better and learning from each other. A unique combination that you will only find with us.
Regulation for the admission of third country citizens (PDF 233 KB)
Information for applicants with non-Austrian (school) certificates (PDF 145 KB)
The first step in your application is to submit your online application. You will then receive an automated confirmation e-mail with your application form attached. This must be signed by hand and sent to us until 20.05.2023 at the latest by post with the following copied documents:
Please send the above documents in paper form only to the following address:
FH Campus Wien
Bachelor Civil Engineering and Construction Management
Favoritenstraße 226, P.1.07
1100 Vienna
Please note:
It is not possible to save incomplete online applications. You must complete your application in one session. After completing the online application, you will automatically receive a confirmation e-mail to your e-mail address. If you have not received this within an hour, please contact the secretary's office of the Department of Building and Design at bau@fh-campuswien.ac.at or +43 1 606 68 77-2200.
The admission procedure includes a written test and an interview with the admission committee and takes place at the FH Campus Wien.
Applicants are then interviewed for admission, which gives a first impression of their personal suitability. The questions asked include professional motivation, professional understanding, performance behavior, problem solving and reflective ability. Each part of the test is evaluated with points.
The admissions committee (heads of depgree programs and department representatives) allocates the study places on the basis of the ranking. The entire process, as well as all test results and evaluations of the admission procedure, are documented in a transparent and comprehensible manner. You will probably receive information at the end of June/beginning of July 2023 as to whether we can offer you a study place, whether you are placed on the waiting list, or whether you did not pass the admission procedure.
You will receive an invitation to the admissions procedure after positive examination of all relevant documents. You will receive the exact date and schedule for the admission interviews approximately one week before the date. Due to the increased amount of time required for the admission interviews, it is possible that additional admission appointments will be postponed - this depends on the number of applicants. The dates are assigned and cannot be chosen individually.
Please note that there will be an anticipated Team Building Workshop for our freshmen during the last week of August. Participation is mandatory. (Detailed information will follow in due time)
In the 20 years and more that FH Campus Wien has been running civil engineering programs, the university of applied sciences has built up a wealth of expertise and a broad network that offers you numerous possibilities during your program, when seeking an internship and when embarking on a career. This network includes construction firms such as STRABAG SE, which also cooperates with FH Campus Wien in the further education of its staff. You may, furthermore, participate in R&D projects and in developing the dialog between practice practical application at the university while making contacts for your future professional life. To give one example, the faculty, in partnership with Vienna University of Technology and Graz University of Technology, is developing a practical engineering model to determine actual shear resistance in existing reinforced concrete bridges where this appears to be too low for continued use according to current calculation models. Elsewhere we offer regular training through our series of seminars dealing with selected topics from the construction business. Practical relevance is also guaranteed at our Campus Lecture evenings, which are open to all and feature contributions from prominent experts.
The combination of structural engineering, economics and soft skills makes this generalist degree program a practical education for all-round civil engineers. As a graduate, you are up to the demanding tasks of construction site project management and can immediately take on a role in any construction company. In addition to the content and excellent career prospects, the FH Campus Wien degree program provides numerous other advantages: You will learn in small groups and benefit from the excellent FH Campus Wien network with top companies such as STRABAG SE, PORR, ÖBB and FCB. Alone the excellent reputation the degree program enjoys in the construction industry is a useful building block for your career.
Your educational background has given you a solid foundation in technology, business and personal development; you have also covered the core subjects of construction management, the construction industry, fundamentals of design, civil engineering and theory and structural engineering.
Lector: Anja Christensen, BA, Barry Jenkins, BSc (Hons), FH-Prof.in Mag.a Dr.in Andrea Zimpernik
Business & Construction Topics:
1: You & Your Company
Grammar: adjectives to describe people, comparatives, hypothetical questions
Skills: talking about yourself & your company
2: Construction & Civil Engineering
Related vocabulary
Skills: understanding industry-specific texts; explaining technical terms
3: Building a House
Related vocabulary: excavating, concrete, framing, electricity, plumbing, heating and cooling, inside walls and outside walls
4: Presentation skills
Each element that makes up the mark MUST be positive
Written work will be assessed according to these criteria:
-task achievement
-structure (organization and cohesion) & fluency
-accuracy of vocabulary
-grammar
Test: 60%
Classroom performance: 60%
Writing tasks: 20%
Lecture, pairwork, groupwork, discussions, role plays, writing tasks, self-study (research project; online collaboration)
English
Lector: DI. Dr.techn. Anton Pech
German
Lector: Dipl.-Ing. Dr. Heinrich Bruckner, Dipl.-Ing. Dr. Karl Deix, Robert Polanszky
Basics of building materials, particularly civil engineering materials such as concrete, metal, wood, synthetics, mortar, glass, binding agents.
Laboratory exercises (building materials, building physics and foundation construction) supplement the lecture.
Final grade in Building Materials and Laboratory includes these components:
lecture: final exam
Practical exercise (building materials and foundation construction): experiment report (handwritten in the seminar following the respective experiment; delayed reports are not accepted).
Lecture and practical exercises in lab (work clothes required).
German
Lector: DI Dr. techn. Thomas Sommerauer
1. Introduction to Business Administration
2. The company and its organization
3. The operational accounting
4. Marketing
5. Purchasing - Procurement
6. Human resource management
7. Investment
8. Financial Management
Written test at the end of the lecture
Lecture
German
Lector: DI Andrea Filkova, Julia Kolm, BSc, DI Lukas Kruczynski, Lukas Mayr, B.Sc., Ing Andreas Vondrasek
The first lecture gives you an overview from CAD to Building Information Modeling (BIM).
Topics:
User Interface and Work Environment
Settings and Options
Working with Baseelements, modifying and multiplying Objects
Numerical Input, Coordination Systems
Working with ‚intelligent‘ Buildingobjects (Wall, Slab, Window, Door, Stair, …)
Spaces, Areas, Dimensioning,
Storeys, creating Sections, Views, Submission and works plans
Layout, Plotting
Test at the own notebook (modeling a simple Building)
Lecture with LCD projector and collaboration of the students
Exercises and self study
German
Lector: DI Dr. Christian Hölzl
1. Preliminary remarks
2. Types of representation
3. From the foundation to the excavation - orthographic projection
4. Ichnography, elevation and sheer plan of a building
5. Roof design
6. Illustrative images of spatial objects
7. Perspective pictures - the central projection
8. Shadow in parallel lighting
Final exam. The maximal number of points is 30.
Points Mark
===== ====
27 - 30 1
24 - 26 2
21 - 23 3
18 - 20 4
0 - 17 5
Aufgrund der Covid 19 Situation und der Abhaltung von LV gemäß Ampelregelung des BMBWF können die Prüfungsmodalitäten auch während des laufenden Semesters kurzfristig angepasst werden.
Learning guided by the the worksheets.
German
Lector: Dipl.-Ing. Dr. Robert Christian Hula
Basic knowledge in general chemistry and applied chemistry for construction together with their connection with practical building topics, concrete and physical topics.
5 Moodle tests and 1 final written exam. The overall grade is composed of all test results and the final written exam. The final written exam grading must be "4/genügend" or better.
100-90 % = A
89-80 % = B
79-70 % = C
69-60 % = D
0-59 % = E
Lecture
German
Lector: Mag. Katharina Halbmayer, MSc. MAS
Mineralogy, Petrography, Geology, Engineering Geology, Geomechanics
written test
participation / homework
Aufgrund der Covid 19 Situation und der Abhaltung von LV gemäß Ampelregelung des BMBWF können die Prüfungsmodalitäten auch während des laufenden Semesters kurzfristig angepasst werden.
lecture
practice
German
Lector: Dipl.-Ing. Dr.techn. Marek Szabo
Soil investigation, laboratory investigation, laboratory test, settlement computation, stress distribution, water in the soil
written exam
lectures, self-study
German
Lector: Dipl.-Ing. Dr. Elisabeth Salomon
I. Basic Notions of Physics
II. Classical Mechanics
III. Oscillators and Waves
IV. Thermodynamics and Fluids
V. Acoustics
VI. Electrostatics and Electrodynamics
VII. Optics
Written Exam
Lecture
German
Lector: Mag.iur. Henriette Huber
Public Law: Basics of the Austrian Constitution and administration, law of the European Union;
Civil Law: Basics, Law of Contracts: validity, contractual terms, violation of contract, commercial law including company law;
examination
practical lecture with opportunity for discussion
Lector: Dipl.-Ing. Dr.Techn. Alfred Weninger-Vycudil
This course provides the basics for the practical execution of technical drawings in the field of civil engineering and architecture with main focus on drawings for building permissions and construction.
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Exercise
German
Lector: Dipl.-Ing. Christian Salzer
definition of statics and strength of materials, static of rigid body, center of cravity, moment of area, structural analysis, truss, primary structure
written exam after the course
lecture
German
Lector: DI Dr. Christian Hölzl
The students explore the elementary functions and their applications.
1 Introduction
1.1 Basic sets
1.2 Intervalls
1.3 Numbers
1.4 Absolute value
1.5 Integer exponent
1.6 Rational exponent
1.7 Polynomials
1.8 Solving equations and inequalities
1.9 Functions
2 Complex numbers
3 Matrices
3.1 Definition of matrices and some special matrices
3.2 Arithmetic operations
3.3 Determinant
4 Linear systems of equations
5 Vectors and vector spaces
5.1 Vectors
5.2 Vector spaces
5.3 Linear combinations
5.4 Eigenvalues ​​and Eigenvectors
Final exam: 5 examples, 6 points
The maximal number of points is 30.
Points Mark
===== ====
27 - 30 1
24 - 26 2
21 - 23 3
18 - 20 4
0 - 17 5
Permitted accessories and aids: pocket calculator, formula collection
Lecture containing numerous exercises
German
Lector: Dipl.-Ing. Stefan Lederbauer
Principles of surveying, Position measurements, Altimetry, Equipment and tools, Distance measurements, Basics of satellite surveying, Basics of photogrammetry, Basics of theory of error, Most frequent tasks in practice, GIS, Basic legal foundations for practical application
VO: final written exam
2 LP VO
German
Lector: DI (FH) Clemens Häusler, MSc
Lector: DI Dr. Christian Hölzl
Lector: Dipl.-Ing. Christian Salzer
Lector: TB Ing. Johannes Pestal
Lector: Dipl.-Ing. Leonidas Gerald Schafferer
Lector: Anja Christensen, BA, Barry Jenkins, BSc (Hons), FH-Prof.in Mag.a Dr.in Andrea Zimpernik
Business & Construction Topics:
1: Green Building
Grammar: idiomatic phrases with prepositions; subordinate clauses of result and purpose;
future tenses
Skills: discussing various aspects of green building using relevant
vocabulary; explaining & interpreting visual input
2: Architecture built to heal
Skills: listening comprehension; assessing the impact of
buildings on the community; summing up video input; writing
a short text describing a construction project; expressing opinions
Vocabulary: useful phrases for expressing opinions, agreeing and
disagreeing, giving advice, suggesting;
3: Human Resources/ applying for a job:
Skills: writing a covering letter and a CV, successful job interviews
4: Health and Safety
Skills: describing risks and hazards; understanding safety regulations,
researching information on health-based building standards
• Test 60%
• Classroom Performance 20%
• Research Project 20%
Grading scheme:
0 - 59% Grade 5
60 - 69% Grade 4
70 - 79% Grade 3
80 - 89% Grade 2
90 - 100% Grade 1
Seminar: lecture, group work, pair work, discussions, role plays, research project, film input
English
Lector: DI. Dr.techn. Anton Pech
German
Lector: Arch. Dipl. Ing. Wilfried M. Schermann, Dipl.-Ing.in Dr.in Hildegard Sint
Continuation of the knowledge from the 1st semester with group formation for the upcoming CAD 3D overall model drawing exercises. The students should work in a group based on templates to develop a 3D overall model of the building that meets all the planning and construction requirements. Architectural and constructive drafts are to be created. From this overall model, the individual students should then develop an official submission plan (floor plan, section and elevation) and a building description.
Grading scale according to examination regulations: GROUP PERFORMANCE: 40% Architectural and structural design including design description, design considerations and descriptions; INDIVIDUAL SERVICES 60% submission planning + building description + construction list
Structural planning exercise in groups and individually, up to a maximum of 6 students, with correction courses that are intended to guide the students on the right path.
German
Lector: Dipl.-Ing. Dr. Heinrich Bruckner, Dipl.-Ing. Dr. Karl Deix, Robert Polanszky
Lector: DI Tobias Kurtze
Lector: DI Dr. techn. Thomas Sommerauer
General Introduction to terminology related to the construction industry
- Conducting a building project
- Project Development
- Planning
- Approval Process
- Building Process
- Standardization
classroom participation
Final written exam
Lecture 1 SWS
German
Lector: Dipl.-Ing. Dr.techn. Marek Szabo
Shear strength parameters of soil, shallow foundations and design of shallow foundations, earth pressure theories and design of gravity wall
Written examination
Lectures, self-study
German
Lector: FH-Prof. DI (FH) Karl Kaineder
Legal provisions in regional planning, building law and commercial plant regulations / Links between public building regulations and other fields of law / The Vienna Building Code and the relevant subsidiary laws (structure, urban planning, plot provision, provisions on land use intensity, autorities and stakeholders) / "Subsidiary provisions" to the Building Code in Vienna / overview commercial plant regulations in austria.
Written examinations after conclusion the lectures.
Lecture
German
Lector: Dipl.-Ing. Christian Salzer
Lector: Priv.-Doz. DI Dr. techn. Patrick Huber, BSc, FH-Prof. DI Dr.techn. Markus Vill
- introduction in reinforced concrete
- material properties of reinforcement and concrete
- load-carrying behavior of reinforced concrete
- safety concepts
- basics for detailing of the reinforcement
- analysis of the ultimate limit state for bending and bending with axial force
- exercise examples
written examen after the end of the lecture consisting of a theoretical part (20 minutes) and a part with design examples (90 minutes)
Allowed documents:
theory part: none
calculation part: recommended reading and notes
lecture with ppt presentation
derivations and exercise examples on the white board
German
Lector: DI Dr. Christian Hölzl
Lector: Dipl.-Ing. Stefan Lederbauer
Lector: Anja Christensen, BA, Paul Hoffman, MAS, FH-Prof.in Mag.a Dr.in Andrea Zimpernik
Business & Construction Topics:
1: Group project:
2: Redeveloping & renovating: worksheets & film input
Skills: describing procedures, explaining renovation tasks,
expansion of technical vocabulary
Grammar: make versus do;
3: Design Rules - color: worksheets & film input
Skills: understanding and applying design rules on color,
dealing with numbers & arithmetic operations;
4: Structural Systems – attaching and supporting: worksheets
Vocabulary: professional terminology for structural elements
and loads
Skills: identifying structural elements; describing technical drawings,
explaining load and stress;
5: Structural engineering: Skyscrapers video input: worksheets
Skills: understanding an authentic film; construction-related
vocabulary, documenting the building process, analyzing
major challenges during construction
Each element that makes up the mark MUST be positive
Written work will be assessed according to these criteria:
-task achievement
-structure (organization and cohesion) & fluency
-accuracy of vocabulary
-grammar
Test: 60%
Classroom performance: 20%
Writing task / presentation: 20%
Lecture, pairwork, groupwork, discussions, role plays, writing tasks, presentations
English
Lector: Dipl.-Ing. Stefan Perschy, DI Dr. techn. Thomas Sommerauer
Public Procurement and tendering with the service description for constructions.
You learn about the basics of the current BVergG (federal act on public procurement) and common standards.
Contents of the LB-HB 021
Examination of offers according to the BVergG
Element method of ÖNORM B1801-1
Building Information Modeling and tendering
Moodle-Test and exercises
Bring your notebook and create the specifications with the softwaretools of ABK
German
Lector: Ing. Robert Jungwirth
Lector: Dipl.-Ing. Wilfried Lang, Arch. Dipl. Ing. Wilfried M. Schermann
Introductory lecture, project discussion and task setting
PLANNING: Implementation planning (polishing plan: floor plan and section), implementation details and construction process description. For the newcomers - the "lateral entrants" an architectural design has to be prepared first, on which it then has to be built.
CONSTRUCTION: Constructive descriptions of measures and for the "newbies" - the career changers) constructive calculations and descriptions
BUILDING PHYSICS: Building physics calculation, evidence and descriptions
Grade scale according to the examination regulations:
25% Construction foreman planning, 15% execution details and 5% construction sequencing = PLANNING: 45%
40% building physics = BUILDING PHYSICS: 40% and CONSTRUCTION 15%
exercise in groups from 5 up to max. 6 students - every student is equaly responsible for team results.
German
Lector: FH-Prof. Mag. Dr. Manfred Steiner
Introduction to academic working: data collection; structuring; table of contents; citiation; comments; attachments; table of figures; bibliography; index; typeface; academic working as a project.
UE: oral and written; final exam; writing short paper (5 pages); FL perm. M, S
1,2 LP UE + 0,3 LP distance learning
German
Lector: Dipl.-Ing. Dipl.-Ing. Gunther Koppelhuber, M.Arch.(AA)
Specific building typology by presenting selected examples of:
- educational buildings
- accomodation buildings
- events buildings
- recreation and sports buildings
- museum and exhibition buildings
- administration buildings
- office buildings
- business buildings
Präsentation of the critical project analyses; Examination as a written test with systemic sketches.
Overview - Lecture, with video presentations (beamer, multimedia projections).
Anaylsis of relevant projects and presentation by students;
German
Lector: DI Michael Kaulfus, Dipl.-Ing. Alexander Oplustil
The course is intended to give the basics for the calculation of structures.
It covers questions of the reliability of structures and in connection therewith the controlling of the planning and the erection of structures. Furthermore it covers the actions on structures which are to adopt for the calculations.
written examination after lectures
Lectures, white-board, Power-point presentations
German
Lector: Ing. Hans-Heinz Machytka
Motives for construction site control and the concept of project management.
Risk analysis and influenceability of construction activity .
Introduction management, controlling and management process.
General management tools and methods.
Overall task of project controlling and the system OBS.
Work costing as a measurable target.
OBS1 focus on performance controlling with:
BAS (construction work key) -Budgeting -Accounting -Capture -Analysis and control.
Creating labor cost target/actual comparisons and building post costing files.
Incentive wage processing as a method of productivity assurance.
EDP application: Auer; RIB iTWO; conSITE; MacSIV and IBA weekly planner.
Evaluation of the theory parts in report form.
Evaluation of cooperation in practical exercises.
Written test.
Lecture / presentations / media reports / reports and exercises to be worked out / software
German
Lector: Dipl.-Ing. Leonidas Gerald Schafferer
German
Lector: Dipl.-Ing. Christian Salzer
Construction and analisys of steel construction with compression
Buckling of members under compression
ILV: S + written exam; FL perm. M, S
1,2 LP VO + 0,3 LP distance learning
German
Lector: Priv.-Doz. DI Dr. techn. Patrick Huber, BSc, FH-Prof. DI Dr.techn. Markus Vill
Design of reinforced concrete beams against shear and torsion
Interaction of bending and shear
Shear design of slabs (members without shear reinforcement)
Design of slabs against punching
Design of members of plain or less-reinforced concrete members
Final Examen (theory and calculation examples)
20 minutes theory (20 points)
90 minuten calculation examples (80 points)
homework for extra point (5-10 points)
For a positive completion of the course 60 points are needed.
lecture, PPP-presentation, whiteboard, practice-oriented examples
German
Lector: Dipl.-Ing. Christian Salzer
torsion, statically indeterminable systems, continuous beam, framed structure, arch, beam with internal hinges.
overview of the influence line.
overview of actions and load assumtion
written exam after the course
lecture
German
Lector: DI Dr. Christian Hölzl
1. Introduction
2. Ordinary differential equations first order
3. Ordinary differential equations second order
4. Computational solution of ODEs
Final written examination with 6 computation problems, each 5 points. Written examinations adhere to the policy and regulations of the department of Building and Design.
Marking scheme:
27 - 30 marks ... Very good (1)
24 - 26 marks ... Good (2)
21 - 23 marks ... Satisfactory (3)
18 - 20 marks ... Sufficient (4)
0 - 17 marks ... Not sufficient (5)
Permitted accessories and aids: pocket calculator, formula collection
Lecture, with numerous exercises
German
Lector: DI. Dr.techn. Anton Pech
Lector: DI Tobias Kurtze
1. Civil engineering and road construction
- Production of materials on site - deposits, dosage, concrete mixer
- Use of materials on site - pouring, compaction, after treatment of concrete
- Concrete formwork, reinforcement
2. Transport and construction support
- Transport of materials on site - cranes, pumps
- Construction support
3. Tunneling
- Construction equipment for tunneling by drill and blast
- Construction equipment for tunneling with tunnel boring machines
Final examination in writing
Lectures
Lector: Bmstr. Ing. DI(FH) Robert Weber
o Basics of calculation Ö Norm B 2061 ( Austrian Norm )
o Labour cost , material cost, plant cost - to learn to break down a rate
o precalculation , quotationcosting, job order costing , costing during the work,produkt costing
analysis
o Analytical estimating
o on costs , overhead costs,
o To learn the differenc between full costs and direct costs
o to fill in spreadsheets K 3 / K4 / K5 / K6 / K7
VO : S + final exame ,FL perm M,S
In the case of absence or negative judgement the check occurs in dependence of the number of the students in written or verbal form
1,2 VO + 0,3 distance learning
Lector: Dipl.-Ing. Dr.techn. Marek Szabo
Soil improvement, deep foundations, piles, box foundations, pile raft foundations
written exam
lectures, self-study
Lector: Mag.iur. Henriette Huber
Selectet areas of public law relevant to the construction industry.
Administrative criminal law under application of high court decisions
Overview of industry-relevant justice criminal
Evaluation of the presentation.
Interactive lecture, group work, discussion of judicature examples, presentations
Lector: Anja Christensen, BA, Barry Jenkins, BSc (Hons), FH-Prof.in Mag.a Dr.in Andrea Zimpernik
Lector: DI Dr. techn. Thomas Sommerauer
Lector: DI. Dr.techn. Anton Pech
German
Lector: FH-Prof. DI Claudia Link
Lector: DI Dr. techn. Thomas Sommerauer
fundamentals of contractual claim management on the basis of ÖNORM B 2110
I. Introduction
II. Basics of claim management
III. Deviation from scope
IV. Legal basis of claims
V. Declaration of claims
VI. Elaboration of claims
VII. Examination and negotiation of claims
Lecture: Final Exam
In case of negative assessment or absence either repetition of the written exam or assessment interview - according to the amount of candidates.
1,0 VO
German
Lector: FH-Prof. Mag. Dr. Manfred Steiner
Lector: Priv.-Doz. DI Dr. techn. Patrick Huber, BSc, DI Rainer Klemenjak, Dipl.-Ing. Reinhard Schneider
Group work of up to six students
German
Lector: DI Rainer Klemenjak
Lector: Ing. Hans-Heinz Machytka
Lector: FH-Prof. DI Claudia Link
Lector: Dipl.-Ing. Christian Salzer
Lector: Priv.-Doz. DI Dr. techn. Patrick Huber, BSc
Lector: Dipl.-Ing. Dr.Techn. Alfred Weninger-Vycudil
Lector: Mag.iur. Henriette Huber
Residential and tenancy law.
Land Registry Law - deepening through practical examples.
Assessment of the presentation of the students.
Interactive lecture, presentations, group work
German
Lector: Dipl.-Ing. Dr. Bernhard Weiser
Lector: Dipl.-Ing. Dr.Techn. Alfred Weninger-Vycudil
Basics of traffic infrastructure construction with main focus on road design and construction.
written exam
practical oriented presentation and discussion of actual traffic infrastructure and construction topics
Lector: Dipl.-Ing. Dr. Bernhard Weiser
Description of the functinality and applications of the building automation as the integral part of the TGA .
Written examination after completion of the lectureship
Lectureship
Lector: Anja Christensen, BA, FH-Prof.in Mag.a Dr.in Andrea Zimpernik
Business & Construction Topics:
Business & Construction Topics:
1: GANTT charts / project management
2: Construction: Bridges: worksheets & film input
Skills: analyzing construction problems; explaining how forces work;
Vocabulary: vocabulary for building bridges
3: Presentation skills: visuals, trends, graphs: worksheets & film input
Grammar: describing trends: tenses, adjectives/adverbs, prepositions
Skills: dealing with figures, explaining graphs and charts
4: College Architecture: film input & worksheets
Skills: discussing advantages and drawbacks of innovative designs for colleges; writing & presenting a summary
Written work will be assessed according to these criteria:
-task achievement
-structure (organization and cohesion) & fluency
-accuracy of vocabulary
-grammar
Test: 60%
Classroom performance: 20%
research project: 20%
lecture, classroom discussion, pairwork, groupwork, role plays, presentations, group project
English
Lector: Mag. Wolfgang Hussian
Conclusion of the contract
Representation on site
Interpretation of the terms of contract
Security
Unit price contract
Lump sum contract
Billing
Delay
Take over
Defect liability
Duty to warn
Compensation for damages
Penalty
Moodle or written test.
Lecture.
German-English
Lector: FH-Prof. DI Dr.techn. Markus Vill
Introduction
Introduction
History of Bridge Design
Basis for the design
Overview Materials and structural systems
Loads
Basis for the Design of cross sections
Design of sustainable bridge structures
Basis for bridge equipment
Introduction construction methods
written examination
ILV, Presentation
German
Lector: Baurat h.c. FH-Hon.Prof Hofrat DI Dr. techn. Walter Potucek, Dipl.-Ing. Dr.Techn. Alfred Weninger-Vycudil
The course takes place in two parts.
In the first part the calculation and construction of civil engineering works for infrastructure (eg, bridges, underpasses) and road design are presented as an introduction. On the basis of the first part simple engineering structures and a road section will be designed and depicted in drawings and plans in the second part of the lecture (project-work). The second part of the course will take place as a seminar. The partial results of the designs will be presented and discussed.
cont. assessment, participation, presentation, assessment of the project-work
Lecture, white-board , power point presentations
Seminar work: Project work in the group with discussion of the results
German
Lector: DI Lukas Antoni, Dipl. Ing. Hubert Kirchberger, Dipl.-Ing. Nicole Kirchberger, BA, DI Michael Löschenbrand, FH-Prof. DI Christian Polzer, Dipl.-Ing. Christian Salzer, Dr. Manuel Ziegler, MSc
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.
.
Lector: Dipl.-Ing. Dr. techn. Andreas Rudisch
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-
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German
Lector: Univ.-Doz. DI Dr. Otto Nowak
Urban water management (an overview); water supply (urban water demand / consumption; water sources and extraction; water storage systems and tanks; water distribution networks – incl. design & dimensioning); sewerage (separate and combined sewer systems – incl. design & dimensioning; design and construction details; sewer rehabilitation); processes for wastewater treatment
written exam
Lectures incl. exercises
German
Lector: Baurat h.c. FH-Hon.Prof Hofrat DI Dr. techn. Walter Potucek, FH-Prof. DI Dr.techn. Markus Vill
Calculation of structures
construction and calculation of plates, profiled slabs, columns and walls,
partially loaded areas,
bearing walls
special cases of the construction of beams, frameworks (beam-column),
stairs,
foundations
walls
execution of structures in reinforced concrete
basics of prestressed concrete
Final examen, training-works, continuous assessment
lecture, white-board, ppp-presentation, exemples of construction, trainings of construction
German
Lector: Iztok Arnuga, M.Sc.
- Learning of a commercially available structural analysis program based on the FEM
- Modeling: from the real structure to a finite element model (2D/3D): bearing of RC structures, bedding, eccentricities, modeling of T-beams, stability
- Avoidance of errors when using the FEM
- Software based dimensioning of beams, slabs and columns
- Software supported calculation of internal forces and design (FEM) of exercise examples and preparation of reinforcement sketches, plausibility checks by analytical calculation.
- Participation
- The submission is via Moodle.
Training of a structural analysis software, sketches on the white board, Power-Point presentations
German
Lector: DI Bernhard Mayer
Nach einer ersten Orientierung und Einführung zur Raumplanung wird anhand von Theorien, Modellen und praktischen Beispielen Grundlagenwissen über Rahmenbedingungen, Einflussfaktoren und Resultate von Prozessen der Raumplanung und Stadtentwicklung in einem bundesweiten Kontext vermittelt. Dabei wird regelmäßig Bezug zur Praxis der Raumplanung hergestellt und Studierende zur kritischen (Selbst-) Reflexion aufgerufen, wodurch ein Verständnis für aktuelle und künftige Herausforderungen der Planung geschaffen wird.
Die Beurteilung setzt sich zusammen aus
- Schriftliche Prüfung nach Abschluss der Lehrveranstaltung;
- Beurteilung der Seminar-Gruppenarbeit + Präsentation;
Aufgrund der Covid 19 Situation und der Abhaltung von LV gemäß Ampelregelung des BMBWF können die Prüfungsmodalitäten auch während des laufenden Semesters kurzfristig angepasst werden
Integrierte Lehrveranstaltungen sind eine Kombination von Vorlesung und Übung. Der Übungsteil besteht aus einem Übungsteil, der Erstellung einer Gruppen-Seminararbeit und deren Präsentation.
German
Lector: DI. Dr.techn. Anton Pech
Lector: Univ.- Lekt. Dipl.- Ing. Wolfgang Mattes, Univ. Lektor Prof. MinRat DI Dr. Thomas Wiederstein
General ecological basics from the areas of
Environmental pollution and ecological problems
Instruments of environmental policy
Nature conservation and biodiversity
Air pollution control, immission control, climate change
(operating permit) EIA, especially for large linear buildings
Sustainability
In each case from the perspective of the civil engineer and with reference to the construction industry
frontal teaching
German
Lector: Dipl.-Ing. Dr.Techn. Alfred Weninger-Vycudil
Basics of the planning of railway-networks: system railway, tracking and driving dynamics, design, track, track switches, design of railway stations, overview railway operation
Lecture: Final Exam; Distance Learning; continuous assessment
Lectures, white-board, script
Lector: DI Rainer Klemenjak
- load bearing systems
- materials
- copula
- solid wall beams
- curved beams
- fire protection
Seminar + Final Written Exam; continuous assessment
2,5 LP Lecture
Lector: DI Dr. techn. Thomas Sommerauer
1) Basics
2) Zoning and development plan
3) Land register
4) Building Code
5) Real estate appraisal
6) Tenancy Law
7) Developer contract law
8) Controlling instruments
-> Final test
-> Practice project
-) Theory input lecturer
-) active group and individual work d. students
-) Final exam
German
Lector: Ing. Mag.(FH) Wolfgang Pölz, MSc, MBA
- Principles of management systems
- Management of processes and projects
- Standards and their application (i.e ISO 9001:2015)
- Integrated Management Systems focussin on Health, Safety, Environment and Quality
- Business Excellence based on EFQM-model
proactive working, written exam
Lecture, seminar, self-study
German
Lector: Univ. Lektor Prof. MinRat DI Dr. Thomas Wiederstein
Overview of essential environmental acts in Austria including the European Union.
Enviromental acts, European Union
Test
Lecture
Lector: Christiana Scholz, BA MA
Basics of personnel management, recruiting tools, human resources development, motivation and benefit system focusing on remuneration, leadership
Written exam at the end of the lecture
Lecture, discussions, individual work, group work, self-study
Lector: Dipl.-Ing. (FH) Tristan Tallafuss
German
Lector: Mag.iur. Henriette Huber
Basics of labour law: sources of law, employment contract, different kinds of employments, rights and obligations of employer and employee, employment protection, termination of employment.
examination
practical lecture with opportunity for discussion, cases, homeworks, powerpoint-präsentation
German
Lector: Mag. Thomas Kurz
Austrian public procurement law with focus on the awarding of works
Written exam at the end of the course
Lecture using Power Point-sheets, collective solution of case examples
German
Lector: Dr.-Ing. Lisa Theresa Lenz
Introduction to the basics of the Building Information Modeling method. Theory lectures focusing on digitization, data, definition of BIM, BIM targets, BIM use cases, structure of BIM projects, relevant standards and regulations as well as an overview of BIM-relevant documents (AIA, BAP & Co.). The lecture series is completed by an outlook towards current research activities.
Written exam
Lecture
German
Lector: DI Alexander Sieh
German
Lector: DI Lukas Antoni, Isabella Dornigg, MSc, Dipl.-Ing. Mag. Cristina Florit Schmid, Arch. Dipl. Ing. Markus Hiden, Priv.-Doz. DI Dr. techn. Patrick Huber, BSc, DI Monika Ilg, Ing. Robert Jungwirth, Dipl. Ing. Hubert Kirchberger, Dipl.-Ing. Nicole Kirchberger, BA, DI Michael Löschenbrand, FH-Prof. DI Christian Polzer, DI Patrick Schopfhauser, Dipl.-Ing.in Dr.in Hildegard Sint
German
Lector: DI Dr. Georg Atzl, Dipl.-Ing. Michael Proprenter
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-
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German
Lector: DI Philipp Löffler
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German
Lector: DI Dr. techn. Thomas Sommerauer
Definitions
Project assignment and project delimitation
Project goals and project non-goals
Project structuring
Tasks of the project participants
Project organization
Project environment management
Scheduling, cost and quality planning
Deadline, cost and quality tracking
Management of the project completion phase
Evaluation of the interim presentations and the exercises (accompanying the lecture)
Assessment of the thesis (excerpt from the project manual)
This course is partly (50% of the course content) held according to the concept of the flipped classroom. This means that the theoretical input is preceded by an online phase in order to deepen the theoretical content in practice using exercises and tasks.
The students acquire about 50% of the teaching content in the classroom phase through lectures, group work, presentations and discussion of the exercise examples
German
Lector: Dr. Alexander Demblin
Legal basics of international construction Projects
written exam
German
Number of teaching weeks
15 per semester
Times
Mon to Fri from 6.45 p.m.
Electives
Selection and participation according to available places. There may be separate selection procedures.
As a graduate of this program, a wide range of professional fields and career opportunities are open to you. Find out where your path can lead you.
As a well-trained civil engineer, you will help to plan or implement construction projects. For example, you can work as a site manager. Overall, you have a wide range of professional opportunities open to you on the client or contractor side: in construction companies, which include the entire construction industry, master builders, steel, light metal and wood construction companies, construction related trades, renovation and revitalization companies and the building materials industry, as well as in construction departments of local authorities, banks or insurance companies. You can also expect good career prospects in civil engineering and planning offices.
We closely cooperate with renowned companies in commerce and industry, universities, institutions and schools. This ensures that you have points of contact for professional internships, job opportunities or your participation in research and development activities. Major players in the construction industry such as the PORR Group, STRABAG SE or ÖBB-Infrastruktur AG will support you in various funding programs, provide insights into professional practice, offer the chance of rare part-time jobs or accompany you with professional expertise and collegial advice. You can find many of our cooperations on the website of our Campusnetzwerk. A look at them is always worthwhile and may lead you to a new job or to an interesting event of our cooperation partners!
Head of Degree Program Civil Engineering and Construction Management
+43 1 606 68 77-2202
claudia.link@fh-campuswien.ac.at
Favoritenstraße 226, P.1.07
1100 Wien
+43 1 606 68 77-2200
+43 1 606 68 77-2209
bau@fh-campuswien.ac.at
Office hours during the semester
By arrangement
Head of Master's Degree Program Architecture - Green Building
Academic Staff
Academic Staff
Head of Building and Design Department, Head of Master´s Degree Program Civil Engineering and Construction Management
Head of Bachelor's Degree Program Architecture - Green Building, Academic Staff
Academic Staff
Head of Academic Course Technical Building Equipment, Structural Engineering and Rehabilitation Technology for the Real Estate Industry, Academic Staff