Paper Titles

A New Hybrid Algorithm of Trust Region Methods
p.442

Measurement System Analysis of VS Lite
p.447

A Novel Approach for Intrusion Detection Based on Model Checking Interval Temporal Logic with Past Construct
p.451

Semi-Parametric Statistical Model for Extreme Value Statistical Models and Application in Automatic Control
p.455

Optimization of Microclimate in Residential Buildings
p.459

Exhibition Pavilions Car Showrooms Based on Translucent Structures: Providing Microclimatic Comfort for Clients
p.467

Highly Compacted and Reinforced Soil Beds as an Efficient Method to Build Artificial Foundation Based on Weak Soils
p.474

Uses of Glass in Architecture: Heat Losses of Buildings Based on Translucent Structures
p.481

Autonomous Systems of Solar Energy Supply under the Weather Conditions of Montenegro
p.486

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 680Optimization of Microclimate in Residential...

Optimization of Microclimate in Residential Buildings

Article Preview

Abstract:

Nowadays it is possible to reduce energy consumption without losing comfort as a result of using efficient energy saving technologies and advanced environment control methods for buildings. One of the measures to improve energy performance of buildings can be installation of decentralized air intake and exhaust mechanical ventilation systems with plate heat exchangers in apartments making it possible to «return» up to 85% of thermal energy. The article deals with the decentralized system controlled ventilation with heat recovery and alternative solutions heating supply air in residential buildings.

You might also be interested in these eBooks

Materials Science, Mechanical Structures and Engineering

Info:

Periodical:

Applied Mechanics and Materials (Volume 680)

Pages:

459-466

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.680.459

Citation:

Cite this paper

Online since:

October 2014

Authors:

Dusan Vuksanovic*, Vera Murgul, Nikolay Vatin, Viktor Pukhkal

Keywords:

Air-to-Air Plate Heat Exchanger, Building, Energy Efficiency, Heat Recovery, Mechanical Ventilation, Microclimate, Reconstruction, Thermal Balance

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2014 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] V. Murgul: Features of energy efficient upgrade of historic buildings (illustrated with the example of Saint-Petersburg). Journal of Applied Engineering Science, Vol. 12 (1) (2014), pp.1-10.

DOI: 10.5937/jaes12-5609

[2] C. A. Hviid, S. Svendsen, Analytical and experimental analysis of a low-pressure heat exchanger suitable for passive ventilation, Energy and Buildings, Volume 43, Issues 2–3, (2011), Pp 275–284.

DOI: 10.1016/j.enbuild.2010.08.003

[3] A. Dodoo, L. Gustavsson, R. Sathre, Primary energy implications of ventilation heat recovery in residential buildings, Energy and Buildings, Volume 43, Issue 7, (2011), p.1566–1572.

DOI: 10.1016/j.enbuild.2011.02.019

[4] V. Murgul: Solar energy systems in the reconstruction of heritage historical buildings of the northern towns (for example Sankt-Petersburg). Journal of Applied Engineering Science, Vol. 12 (2) (2014), pp.121-128.

DOI: 10.5937/jaes12-6136

[5] E. Aronova, G. Radovic, V. Murgul, N. Vatin: Solar Power Opportunities in Northern Cities (Case Study of Saint-Petersburg). Applied Mechanics and Materials. Vols. 587-589 (2014), pp.348-354.

DOI: 10.4028/www.scientific.net/amm.587-589.348

[6] D. Vuksanovic, V. Murgul, N. Vatin, E. Aronova: Shadowing impact on amount of power generated by photovoltaic modules. Applied Mechanics and Materials. Vols. 587-589 (2014), pp.342-347.

DOI: 10.4028/www.scientific.net/amm.587-589.342

[7] G. Radovic, V. Murgul, N. Vatin: Fast urban development of Cetinje – old royal capital of Montenegro. Applied Mechanics and Materials. Vols. 584-586 (2014), pp.564-569.

DOI: 10.4028/www.scientific.net/amm.584-586.564

[8] Gabriyel, I., Ladener, Kh., (2011) Rekonstruktsiya zdaniy po standartam energoeffektivnogo doma, St. Petersburg: BKhV-Peterburg.

[9] J. Laverge, A. Janssens: Heat recovery ventilation operation traded off against natural and simple exhaust ventilation in Europe by primary energy factor, carbon dioxide emission, household consumer price and energy, Energy and Buildings, Vol. 50, (2012).

DOI: 10.1016/j.enbuild.2012.04.005

[10] V. Murgul: Improvement of the energy efficient properties of the houses in the historical area of Saint-Petersburg, Architecton: Proceedings of Higher Education, 4 (40) (2012), pp.54-62.

[11] E. Aronova, V. Murgul: The evaluation of the appropriateness for using solar energy technologies in the historical building of Saint-Petersburg and the climatic conditions of the North-West region, Architecture and Modern Information Technologies, 2 (23) (2013).

[12] Vatin N., Nazmeeva T., Guslinscky R. (2014) Problems of cold-bent notched c-shaped profile members. Advanced Materials Research Vols. 941-944. pp.1871-1875.

DOI: 10.4028/www.scientific.net/amr.941-944.1871

[13] Yu. Tabunshchikov: Mikroklimat i energosberezheniye: pora pomenyat prioritety. Ventilyatsiya, otopleniye, konditsionirovaniye vozdukha, teplosnabzheniye i stroitelnaya teplofizika, №5 (2008) pp.4-12.

[14] N. I. Vatin, A. S. Gorshkov, D. V. Nemova: Energy efficiency of envelopes at major repairs. Construction of Unique Buildings and Structures. 3 (8) (2013), pp.1-11.

[15] E. Juodis: Extracted ventilation air heat recovery efficiency as a function of a building's thermal properties, Energy and Buildings, Vol. 38, Issue 6, (2006), Pp 568–573.

DOI: 10.1016/j.enbuild.2005.07.002

[16] A. S. Gorshkov, P. P. Rymkevich, D. V. Nemova, N. I. Vatin: Method of calculating the payback period of investment for renovation of building facades. Construction of Unique Buildings and Structures. 2 (17) (2014), pp.82-106.

[17] N. I. Vatin, D. V. Nemova: Increase of power efficiency of buildings of kindergartens. Construction of Unique Buildings and Structures. 3 (2012), pp.52-76.

[18] Y. -El Fouih, P. Stabat, P. Rivière, P. Hoang, V. Archambault, Adequacy of air-to-air heat recovery ventilation system, Energy and Buildings, Volume 54, (2012), p.29–39.

DOI: 10.1016/j.enbuild.2012.08.008

[19] V. Pilipenko, L. Danilevskiy, S. Terekhov, Sistemy avtomatizatsii energoeffektivnogo panelnogo zhilogo doma v Minske. Minsk, (2010), pp.231-242.

[20] AVOK 5. 2-2012. Tekhnicheskiye rekomendatsii po organizatsii vozdukhoobmena v kvartirakh zhilykh zdaniy, Moskva, (2012), p.278.

[21] G. Radovic, V. Murgul, N. Vatin, E. Aronova. Hybrid photovoltaic-diesel energy system optimization (case study of electric power supply for buildings under the weather conditions of Montenegro). Applied Mechanics and Materials. Vol. 627 (2014).

DOI: 10.4028/www.scientific.net/amm.627.357

[22] M. A. Platonova, N. I. Vatin, D. V. Nemova, S. A. Matoshkina, D. Iotti, I. Togo: The influence of the airproof composition on the thermo technical characteristics of the enclosing structures, Construction of Unique Buildings and Structures, 4 (19) (2014).

[23] L. Pakrastinsh, K. Rocens, D. Serdjuks: Deformability of hierarchic cable roof. Journal of Constructional Steel Research. 62 (12) (2006), pp.1295-1301.

DOI: 10.1016/j.jcsr.2006.04.025

[24] S. Isayev, N. Vatin, V. Lebiga, V. Zinovyev, Ke-Chin Chan, Tszyun-Ji Myau, Tasks and methods of numerical and physical research of aerodynamics of high-rise buildings in a coastal zone "pestilence land", Magazine of Civil Engineering, 2013. № 2 (37), pp.54-61.

DOI: 10.5862/mce.37.8

[25] N. I. Vatin, A. S. Gorshkov, D. V. Nemova: Energy efficiency of envelopes at major repairs, Construction of Unique Buildings and Structures, 3 (8) (2013), pp.1-11.

[26] A. Gorshkov, N. Vatin: Properties of the wall structures made of autoclaved cellular concrete products on the polyurethane foam adhesive, Magazine of Civil Engineering, 5(40) (2013), pp.5-19.

DOI: 10.5862/mce.40.1

[27] S. Isaev, N. Vatin, P. Baranov, A. Sudakov: Development and verification of multiblock computational technologies for solution of unsteady problems of high building aerodynamics in the framework of URANS approach, Magazine of Civil Engineering, 2013. № 1 (36), pp.103-109.

DOI: 10.5862/mce.36.13

[28] V. Murgul: Solar energy in the reconstruction of urban environment of historic building Saint-Petersburg, Architecture and Modern Information Technologies, 2 (23) (2013), pp.1-24.

[29] V. Nikolić, M. Tanić, D. Stanković, S. Kondić: Implementation of solar energy systems and power efficiency increase for preschool facilities in city of Nis (Republic of Serbia). Construction of Unique Buildings and Structures. № 4 (19) (2014).

[30] V. Murgul: Capabilities of using the solar energy for energy supply of the dwelling buildings of the historical area of Saint-Petersburg and for city environment quality improvement, Architecture and Modern Information Technologies, 1 (22) (2013).

[31] S. Golovina, V. Murgul: Solar energy systems in the architecture of historic cities. Bulletin of Civil Engineers. 5 (40) (2013), pp.26-31.

[32] D. Nemova, V. Murgul, A. Golik, E. Chizhov, V. Pukhkal, N. Vatin: Reconstruction of administrative buildings of the 70s: the possibility of energy modernization. Journal of Applied Engineering Science, Vol. 12 (1), (2014), pp.37-44.

DOI: 10.5937/jaes12-5610

[33] R. Alihodzic, V. Murgul, N. Vatin, E. Aronova, V. Nikolić, M. Tanić, D. Stanković: Renewable Energy Sources used to Supply Pre-school Facilities with Energy in Different Weather Conditions. Applied Mechanics and Materials Vol. 624 (2014).

DOI: 10.4028/www.scientific.net/amm.624.604

[34] Yu. A. Tabunshchikov, M. M. , N. V. Shilkin: Energoeffektivnyye zdaniya. AVOK-PRESS (2003), p.100.

[35] Yu. A. Tabunshchikov: Okna kak intellektualnyy element konstruktsii zdaniya, Energosberezheniye. № 2. (2008), pp.16-21.

[36] Information on http: /www. mbenkert. com/arend. benkert. defilippis. tillmaand. pdf.