Paper Titles

Increase the Energy Efficiency of the Multi-Story Apartment Building
p.1395

The Increase of the Thermal Shielding Level for a Residence Building of 1-528 KP Series
p.1402

Development of Energy-Saving Measures for the Multi-Story Apartment Buildings
p.1408

Study of Operation of Power-Generating Devices of Gaseous Fuels Combustion
p.1417

New Industrial Energy and Resource Saving Structural Solutions for Public Buildings
p.1423

Renewable Sources in Passive SIP-House
p.1430

Rating Energy Efficiency and Sustainability of Buildings by International Standards
p.1434

Results of Multi Comfort Building Designing
p.1445

Increasing the Wind Turbine Power Using Aerodynamics Shape of the Building
p.1456

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 725-726New Industrial Energy and Resource Saving...

New Industrial Energy and Resource Saving Structural Solutions for Public Buildings

Article Preview

Abstract:

The paper presents new structural solutions for industrial energy and resource saving structures of public buildings with predetermined level of structural safety. The basis of the solutions is pre-cast (with cast-in-place concrete) bearing structures of internal longitudinal and transverse bearing walls of panel members, interconnected floor slabs and exterior self-bearing walls supported on straight or curved L-girders with thermal insulation holes The stiffness of a building with proposed solutions is provided by all structural elements connected in a special way. The authors also present some results of experimental and theoretical studies, pilot design projects, real construction and feasibility assessment of public buildings with proposed solutions.

You might also be interested in these eBooks

Innovative Technologies in Development of Construction Industry

Info:

Periodical:

Applied Mechanics and Materials (Volumes 725-726)

Pages:

1423-1429

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.725-726.1423

Citation:

Cite this paper

Online since:

January 2015

Authors:

Natalia Klueva, Sergey Emelyanov, Vitaly Kolchunov, Anastasia Bukhtiyarova*

Keywords:

Energy Saving, Public Building, Resource Saving, Structural Safety, Structural System

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2015 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] Katalog proyektov povtornogo primeneniya dlya zhilishchnogo stroitelstva/ T. 5: Zhilyye doma svyshe 5 etazhey so smeshannym karkasom s razlichnogo tipa ograzhdayushchimi konstruktsiyami [Re-use design projects catalog for residential buildings Vol. 5: Residential buildings higher than 5 storeys with mixed structural scheme and with different types of external structures] (2008).

[2] Katalog proyektov povtornogo primeneniya dlya obyektov sotsialnoy i inzhenernoy infrastruktur [Re-use design projects catalog for social and engineering infrastructure facilities] (2011).

[3] Under the editorship of Yu.A. Dykhovichny and V.I. Kolchunov. Zhilyye i obshchestvennyye zdaniya: kratkiy spravochnik inzhenera-konstruktora [Residential and social buildings: concise structural engineer handbook] (2011) Vol. II, 400 p. (rus).

[4] Nikolaev, S.V. Panel and frame buildings of a new generation (2013) Housing construction, 8, pp.2-9. (rus).

[5] Matveev, A.V., Ovchinnikov A.A. Development of Energy-Efficient Large-Panel Enclosing Structures (2014) Housing construction, 10, pp.19-23. (rus).

[6] Popova, E.A. The use of Modules when Designing and Constructing Children's Educational Institutions (2014) Housing construction, 5, pp.9-19. (rus).

[7] Bolotin, S., Dadar A., Ptukhina, I. Construction work tasks duration: pessimistic scenarios based on PERT method (2014) Advanced Materials Research, Vols. 945-949, pp.3026-3031.

DOI: 10.4028/www.scientific.net/amr.945-949.3026

[8] Magay, A.A., Minashkin, V.I., Zyryanov, V.S. Modern Trends in Designing Series of Large-Panel Buildings (2014) Housing construction, 5, pp.26-29. (rus).

[9] Marszal A.J., Heiselberg P., Bourrelle J.S., Musall E., Voss K., Sartori I., Napolitano A. Zero еnergy building a review of definitions and calculation methodologies (2011) Energy and Buildings, 43, pр. 971–979.

DOI: 10.1016/j.enbuild.2010.12.022

[10] Hui, S.C. M Low energy building design in high density urban cities (2001) Renewable Energy, 24 (3-4), pp.627-640.

DOI: 10.1016/s0960-1481(01)00049-0

[11] Abel, E. Low-energy buildings (1994) Energy and Buildings, 21 (3), pp.169-174.

DOI: 10.1016/0378-7788(94)90032-9

[12] Clarke, J.A., Grant, A.D., Johnstone, C.M., Macdonald, I. Integrated modelling of low energy buildings (1998) Renewable Energy, 15 (1-4), pp.151-156.

DOI: 10.1016/s0960-1481(98)00168-2

[13] Karpenko, N.I., Yarmakovsky, V.N. Main Ways of Resource-Energy Saving at Construction and Operation of Buildings. Part 1. Resource-Energy Saving at the Stage of Producing of Building Materials, Wall Products and Enclosing Structures (2013).

[14] Yarmakovsky, V.N., Kostin, A.N., Fotin, O.V., Kondyurin, A.E. Thermal Efficient External Walls of Buildings Built with the Use of Monolithic Polysterene Concrete with High-Porous and Plasticized Matrix (2014).

[15] Rakhmanov, V.A. Energy Saving in Construction on the Basis of Innovative Developments of JSC VNIIzhelezobeton, (2011) Industrial and Civil Engineering, 8, pp.61-62. (rus).

[16] Kolchunov, V.I., Osovskikh, E.V., Fomochev, S.I. Durability of Reinforced Concrete Platform Joints of Residential Building with Crossing-Wall Systems of Panel Elements (2009) Housing construction, 12. - pp.12-16. (rus).

[17] Kolchunov V.I., Petrov V.N., Kljueva N.V., Meleshkova E.A. Platformennyy sborno-monolitnyy styk [Platform composite joint. ] Patent RF, no. 2276712, 2006. (rus).

[18] Kolchunov V.I., Petrov V.N., Kljueva N.V., Meleshkova E.A. Platformennyy sborno-monolitnyy styk [Platform composite joint. ] Patent RF, no. 2276238, 2006. (rus).

[19] Il'ichev V.A., Kolchunov V.I., Kljueva N.V., Bukhtijarova A.S. Zdaniye iz panelnykh elementov [Building of panel elements. ] Patent RF, no. 2506385, 2014. (rus).

[20] Tekhnicheskiy reglament o bezopasnosti zdaniy i sooruzheniy [Technical Regulations Safety of buildings and structures, ] Federal Law № 384-FL dated 30. 12. 09. (rus).

[21] Kolchunov, V.I., Klueva, N.V., Androsova, N.B., Bukhtiyarova, A.S. Zhivuchest zdaniy i sooruzheniy pri zaproyektnykh vozdeystviyakh [Survivability of buildings and structures beyond design actions] (2010), 208 p. (rus).

[22] Klyueva, N.V., Bukhtiyarova, A.S., Kolchunov, Vl.I. Research in Durability of Reinforced Concrete Frame-Core Spatial Structures Under Supercritical Conditions (2012) Industrial and Civil Engineering, 12, pp.55-59. (rus).