Course detail
Water-service concrete structures
FAST-BL04Acad. year: 2013/2014
Types of concrete members and structures of water-service buildings.
Monolithic framed structures. Supporting framed structures of storage tanks for liquids and water towers.
Two-ways slabs – edge and locally supported (flat-slab floor, lifted slabs). Two-way ribbed and cassette plates. Circular plates.
Foundation structures – footings, continuous footings, grid and mat foundations, deep foundations.
Simple and continuous wall beams. Walls with/without stiffening elements. Retaining walls.
Storage structures (bunkers and silos). Storage tanks for liquids, water towers, channels and ducts. Shells, domes and arches
Application of precast structures.
Basic theory of prestressed concrete. Principles of masonry structure design.
Language of instruction
Czech
Number of ECTS credits
5
Mode of study
Not applicable.
Guarantor
Department
Institute of Concrete and Masonry Structures (BZK)
Learning outcomes of the course unit
Student will learn the problems of the course and will get under control the course aims, within the meaning of obtaining knowledge and skills in the field of special topics of design and realization of concrete structures, concretized in the course schedule (foundations, tanks, containers, pipelines).
Prerequisites
structural mechanics, theory of elasticity, load, design of concrete structures
Co-requisites
Not required co-requisites.
Planned learning activities and teaching methods
Teaching methods depend on the type of course unit as specified in the article 7 of BUT Rules for Studies and Examinations. Education runs in the forms of lectures and trainings. Character of the lectures is based on definition of basic principles, problems and methodology. In the trainings the main subject matters are trained on individually defined projects (examples).
Assesment methods and criteria linked to learning outcomes
To gain the credit, the students should elaborate individually defined design and calculate specified task. The students are obliged to consult the design continuously in the given terms and submit it to the fixed date. The presences in training lessons are checked. An exam consists both of the written part, in which the task is elaborated, and the theoretical part. To pass the exam successfully, both parts should be accomplished.
Course curriculum
1. Types of concrete members and structures of water-service buildings. Monolithic frame structures, supporting frame structures of tanks and water reservoirs (outline, calculation).
2. Monolithic frame structures, supporting frame structures of tanks and water reservoirs (nodes, redistribution, strain).
3. Foundation structures – footings, continuous footings, grids.
4. Foundation structures – slabs, deep foundations.
5. Two-way slabs – edge supported.
6. Two-way slabs locally supported (flat-slabs, slabs with enlarged column head, lifted slabs). Circular plates.
7. Simple and continuous wall beams. Walls with/without stiffening elements. Retaining walls.
8. Principles of design and reinforcing of storage structures (bunkers and silos). Rectangular and rotary symmetric tanks and water reservoirs.
9. Problems of water-service structures cracking.
10. Water-service structures – troughs, weirs.
11. Water-service structures – channels and ducts.
12. Design and application of shells, domes and arches.
13. Principles of design and application of precast structures. Basic theory of prestressed concrete. Principles of masonry structures design.
2. Monolithic frame structures, supporting frame structures of tanks and water reservoirs (nodes, redistribution, strain).
3. Foundation structures – footings, continuous footings, grids.
4. Foundation structures – slabs, deep foundations.
5. Two-way slabs – edge supported.
6. Two-way slabs locally supported (flat-slabs, slabs with enlarged column head, lifted slabs). Circular plates.
7. Simple and continuous wall beams. Walls with/without stiffening elements. Retaining walls.
8. Principles of design and reinforcing of storage structures (bunkers and silos). Rectangular and rotary symmetric tanks and water reservoirs.
9. Problems of water-service structures cracking.
10. Water-service structures – troughs, weirs.
11. Water-service structures – channels and ducts.
12. Design and application of shells, domes and arches.
13. Principles of design and application of precast structures. Basic theory of prestressed concrete. Principles of masonry structures design.
Work placements
Not applicable.
Aims
To provide students with basic knowledge about concrete structures and constructions design from viewpoint of the static.
To gain ability for design of the principal types of structures of building construction and civil engineering together with preparing relevant technical drawings.
To gain ability for design of the principal types of structures of building construction and civil engineering together with preparing relevant technical drawings.
Specification of controlled education, way of implementation and compensation for absences
Extent and forms are specified by guarantor’s regulation updated for every academic year.
Recommended optional programme components
Not applicable.
Prerequisites and corequisites
Not applicable.
Basic literature
JÍLEK, Antonín, GRENČÍK, Ľudovít a NOVÁK, Václav: Betonové konstrukce pozemních staveb, díl II A. Praha: SNTL/ALFA, 1984. (CS)
McCORMAC, Jack C. a BROWN, Russell H.: Design of Reinforced Concrete. Hoboken: John Wiley & Sons, 2009. ISBN 978-0-470-27927-4. (EN)
NILSON, Artur, DARWIN, David. a DOLAN, Charles: Design of Concrete Structures. New York: McGraf-Hill, 2009. ISBN 978-0073293493. (EN)
McCORMAC, Jack C. a BROWN, Russell H.: Design of Reinforced Concrete. Hoboken: John Wiley & Sons, 2009. ISBN 978-0-470-27927-4. (EN)
NILSON, Artur, DARWIN, David. a DOLAN, Charles: Design of Concrete Structures. New York: McGraf-Hill, 2009. ISBN 978-0073293493. (EN)
Recommended reading
ČÍRTEK, Ladislav: Betonové konstrukce II. Konstrukce prutové a základové. Brno: VUTIUM, 1999. ISBN 80-214-1543-6. (CS)
ŠTĚPÁNEK, Petr a ZMEK, Bohuslav: Prvky betonových konstrukcí. Modul CM4 (část studijní opory v elektronické podobě). Brno: VUT, 2005. (CS)
ZICH, Miloš a BAŽANT, Zdeněk: Plošné betonové konstrukce, nádrže a zásobníky. Brno: VUTIUM, 2010. ISBN 978-80-7204-693-5. (CS)
ZICH, Miloš a KOLÁČEK, Jan: Vodohospodářské betonové konstrukce. Modul CW3 a CW4 (studijní opora v elektronické podobě). Brno: VUT, 2012. (CS)
ZICH, Miloš a kolektiv: Příklady posouzení betonových prvků dle Eurokódů. Praha: Verlag Dashöfer, 2010. ISBN 978-80-86897-38-7. (CS)
ZICH, Miloš, KLUSÁČEK, Ladislav, SEČKÁŘ, Milan a LANÍKOVÁ, Ivana: Vodohospodářské betonové konstrukce. Modul CW1 a CW2 (studijní opora v elektronické podobě). Brno: VUT, 2005. (CS)
ŠTĚPÁNEK, Petr a ZMEK, Bohuslav: Prvky betonových konstrukcí. Modul CM4 (část studijní opory v elektronické podobě). Brno: VUT, 2005. (CS)
ZICH, Miloš a BAŽANT, Zdeněk: Plošné betonové konstrukce, nádrže a zásobníky. Brno: VUTIUM, 2010. ISBN 978-80-7204-693-5. (CS)
ZICH, Miloš a KOLÁČEK, Jan: Vodohospodářské betonové konstrukce. Modul CW3 a CW4 (studijní opora v elektronické podobě). Brno: VUT, 2012. (CS)
ZICH, Miloš a kolektiv: Příklady posouzení betonových prvků dle Eurokódů. Praha: Verlag Dashöfer, 2010. ISBN 978-80-86897-38-7. (CS)
ZICH, Miloš, KLUSÁČEK, Ladislav, SEČKÁŘ, Milan a LANÍKOVÁ, Ivana: Vodohospodářské betonové konstrukce. Modul CW1 a CW2 (studijní opora v elektronické podobě). Brno: VUT, 2005. (CS)
Classification of course in study plans
Type of course unit
Lecture
26 hod., optionally
Teacher / Lecturer
Syllabus
1. Types of concrete members and structures of water-service buildings. Monolithic frame structures, supporting frame structures of tanks and water reservoirs (outline, calculation).
2. Monolithic frame structures, supporting frame structures of tanks and water reservoirs (nodes, redistribution, strain).
3. Foundation structures – footings, continuous footings, grids.
4. Foundation structures – slabs, deep foundations.
5. Two-way slabs – edge supported.
6. Two-way slabs locally supported (flat-slabs, slabs with enlarged column head, lifted slabs). Circular plates.
7. Simple and continuous wall beams. Walls with/without stiffening elements. Retaining walls.
8. Principles of design and reinforcing of storage structures (bunkers and silos). Rectangular and rotary symmetric tanks and water reservoirs.
9. Problems of water-service structures cracking.
10. Water-service structures – troughs, weirs.
11. Water-service structures – channels and ducts.
12. Design and application of shells, domes and arches.
13. Principles of design and application of precast structures. Basic theory of prestressed concrete. Principles of masonry structures design.
2. Monolithic frame structures, supporting frame structures of tanks and water reservoirs (nodes, redistribution, strain).
3. Foundation structures – footings, continuous footings, grids.
4. Foundation structures – slabs, deep foundations.
5. Two-way slabs – edge supported.
6. Two-way slabs locally supported (flat-slabs, slabs with enlarged column head, lifted slabs). Circular plates.
7. Simple and continuous wall beams. Walls with/without stiffening elements. Retaining walls.
8. Principles of design and reinforcing of storage structures (bunkers and silos). Rectangular and rotary symmetric tanks and water reservoirs.
9. Problems of water-service structures cracking.
10. Water-service structures – troughs, weirs.
11. Water-service structures – channels and ducts.
12. Design and application of shells, domes and arches.
13. Principles of design and application of precast structures. Basic theory of prestressed concrete. Principles of masonry structures design.
Exercise
26 hod., compulsory
Teacher / Lecturer
Syllabus
1. Reinforced concrete frame structure (Hall) - task, load calculation, load cases, static system, static calculation of frame.
2. Reinforced concrete frame structure (Hall) - load cases, wind, snow, internal forces, combination of load.
3. Reinforced concrete frame structure (Hall) – design of column, drawing of reinforced column.
4. Reinforced concrete frame structure (Hall) – design of footing, ultimate limit states of bending moment and punching, drawing of footing.
5. Continuous two-way slab – task, load, load cases.
6. Continuous two-way slab - calculation of internal forces, ultimate limit states.
7. Drawing of slab reinforcement
8. Reinforced channel – design, calculation of internal forces – wall, serviceability limit states.
9. Reinforced channel – calculation of internal forces – foundation slab.
10. Reinforced channel – design of reinforcement.
11. Square tank, design of reinforcement of wall.
12. Final correction.
13. Design submission. Credit.
2. Reinforced concrete frame structure (Hall) - load cases, wind, snow, internal forces, combination of load.
3. Reinforced concrete frame structure (Hall) – design of column, drawing of reinforced column.
4. Reinforced concrete frame structure (Hall) – design of footing, ultimate limit states of bending moment and punching, drawing of footing.
5. Continuous two-way slab – task, load, load cases.
6. Continuous two-way slab - calculation of internal forces, ultimate limit states.
7. Drawing of slab reinforcement
8. Reinforced channel – design, calculation of internal forces – wall, serviceability limit states.
9. Reinforced channel – calculation of internal forces – foundation slab.
10. Reinforced channel – design of reinforcement.
11. Square tank, design of reinforcement of wall.
12. Final correction.
13. Design submission. Credit.