Publication detail

Optimized design of concrete structures considering environmental aspects and life time assessment

ŠTĚPÁNEK, P. LANÍKOVÁ, I. ŠIMŮNEK, P.

Original Title

Optimized design of concrete structures considering environmental aspects and life time assessment

English Title

Optimized design of concrete structures considering environmental aspects and life time assessment

Type

conference paper

Language

en

Original Abstract

This contribution describes a formulation of the optimized design of structures using the advanced fully probabilistic method. Economical and ecological aspects (acquisition costs, CO2 and SO2 emissions and embodied energy associated with concrete member production) were taken into account in the objective function. A design example - prestressed spun concrete pole made from reinforced concrete and alternatively from reinforced fibre concrete - is presented.

English abstract

This contribution describes a formulation of the optimized design of structures using the advanced fully probabilistic method. Economical and ecological aspects (acquisition costs, CO2 and SO2 emissions and embodied energy associated with concrete member production) were taken into account in the objective function. A design example - prestressed spun concrete pole made from reinforced concrete and alternatively from reinforced fibre concrete - is presented.

Keywords

optimization; concrete; design; fully probabilistic approach; environmental aspects; life time assessment

RIV year

2012

Released

27.06.2012

Publisher

VUT

Location

Brno

ISBN

978-80-214-4540-6

Book

18th International Conference of Soft Computing, MENDEL 2012 (id 20379)

Edition

2012

Edition number

1

Pages from

138

Pages to

143

Pages count

6

BibTex


@inproceedings{BUT92730,
  author="Petr {Štěpánek} and Ivana {Laníková} and Petr {Šimůnek}",
  title="Optimized design of concrete structures considering environmental aspects and life time assessment",
  annote="This contribution describes a formulation of the optimized design of structures using the advanced fully probabilistic method. Economical and ecological aspects (acquisition costs, CO2 and SO2 emissions and embodied energy associated with concrete member production) were taken into account in the objective function. A design example - prestressed spun concrete pole made from reinforced concrete and alternatively from reinforced fibre concrete - is presented.",
  address="VUT",
  booktitle="18th International Conference of Soft Computing, MENDEL 2012 (id 20379)",
  chapter="92730",
  edition="2012",
  howpublished="print",
  institution="VUT",
  number="1",
  year="2012",
  month="june",
  pages="138--143",
  publisher="VUT",
  type="conference paper"
}