Paper Titles

Modern Principles of Air Exchange Concept in Premises of Different Purpose
p.1261

Selection of Hot Water Supply Metering Devices for Residential Buildings
p.1267

Feasibility Study of the Absorption Chiller Integration
p.1273

Comparison of Air Conditioning Systems for Advanced Data Centers
p.1279

Economic Efficiency of Automated Individual Heating Substation (IHS)
p.1285

Numerical Flows Recovery Analysis for Trunkline Failures
p.1292

The Air Consumption Estimation of Convection Heaters with Natural Convection and Water Heat Carrier
p.1301

Modeling of Natural Gas Transportation and Distribution in Low Pressure Gas Pipelines
p.1307

Characteristic Property of Adsorption Cleaning of Recirculated Air for Heat Chambers for Electric Testing of Electronic Devices
p.1313

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 725-726Economic Efficiency of Automated Individual...

Economic Efficiency of Automated Individual Heating Substation (IHS)

Article Preview

Abstract:

District heating is widespread in Russia, but to improve the energy efficiency of heat supply current is the transition from district heating to modern individual heating substation (IHS) with automatic regulation of heat - more cost-effective heating system.This article provides a description of the automatic IHS, its advantages over the district heating and calculation of the economy of heat when it is installed. As a result, the calculation result is obtained, proving the feasibility of using such a system.

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:

1285-1291

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.725-726.1285

Citation:

Cite this paper

Online since:

January 2015

Authors:

Nikita Mironov*, Daria Petrosova

Keywords:

Automation, District Heating, Energy Efficiency, Energy Saving, Individual Heating Substation (IHS), System of Heating

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] Shilkin, N.V. Economicheskie aspekty vnedreniya individualnykh teplovykh punktov [Economic aspects of the introduction of individual heating substation] (2007) Energoeffektivnost, 3, pp.12-16. (rus).

[2] Livchak, V.I. O neobhodimosti perehoda na mestnoe kolichestvennoe regulirovanie system centralizovannogo teplosnabgeniya [On the need to go to the local quantitative regulation of district heating systems] (1975).

[3] Livchak, V.I. Uiuchenie rabotu CTP – realnyi put povysheniya kachestva i economichnosti teplosnabzhenia zhilych microraionov [Improving the operation of DH - the real way to improve the quality and efficiency of the heating of residential areas] (1976).

[4] Safiullin, D.H., Akhmetov, I.G., Muhametova, L.R. Effektivnost individualnych teplovych punktov (ITP). Perochod ot CTP k ITP [The effectiveness of individual heating substation (IHS). Transition from DH to HIS] (2013).

[5] Potapenko, A.N., Potapenko, E.A. Vozmozhosti povysheniya effictivnosti processa otopleniya zdanyi v avtomatizirovannych ITP [Opportunities for increasing the efficiency of heating buildings in automated HIS] (2005).

[6] Ryakshin, E.V., Gerasimov, E.A., Livchak, L.M. Metodika provedeniya energeticheskich obsledovanyi (energoaudita) budgethych organizacyi [Methods of conducting energy audits (energy audit) budget organizations] (2010).

[7] Diana Böttgera, Mario Götza, Nelly Lehra, Hendrik Kondziellaa, Thomas Bruckner. Potential of the Power-to-Heat Technology in District Heating Grids in Germany (2014) Energy Procedia, 46, pp.246-253.

DOI: 10.1016/j.egypro.2014.01.179

[8] Henrik Gadd, Sven Werner. Achieving low return temperatures from district heating substations (2014) Applied Energy, 136, pp.59-67.

DOI: 10.1016/j.apenergy.2014.09.022

[9] Maria A. Ancona, Michele Bianchi, Lisa Branchini, Francesco Melino. District heating network design and analysis (2014) Energy Procedia, 45, pp.1225-1234.

DOI: 10.1016/j.egypro.2014.01.128

[10] Multifamily Individual Heating and Ventilation Systems (November 2013) Building America Case Study, Lawrence, Massachusetts, pp.23-24.

[11] The Future of Heating: Meeting the challenge (March 2013) Departament of Energy & Climate Change, London SW1A 2AW, pp.37-39.

[12] District Heating in Buildings (2011) Euroheat & Power, Brussels, Belgium, pp.19-21.

[13] Eliseev Kirill. District heating systems in Finland and Russia (March 2011) Mikkeli University of applied sciences, pp.15-16.

[14] Jae-Ki Byun, Young-Don Choi, Jong-Keun Shin, Myung-Ho Park, Dong-Kurl Kwak. Study on the Development of an Optimal Heat Supply Control Algorithm for Group Energy Apartment Buildings According to the Variation of Outdoor Air Temperature (2012).

DOI: 10.3390/en5051686

[15] Take Action on Climate Change (2004) Heating systems, Edmonton, Alberta, pp.5-8.

[16] Mihai MOLDOVANU, Corneliu ROTARU, Michai POPOVICI, Doina CUCUEŢEANU, Cosmin NIŢĂ. Modernization of district heating systems (2004) ASA HOLDING S.A., Romania, pp.16-21.

[17] Yadviga Semikolenova. Modernization of the District Heating Systems in Ukraine: Heat Metering and Consumption-Based Billing (February 2012) Sustainable Development Department Europe and Central Asia Region, pp.6-8.

[18] Zadvinskaya, T.O., Gorshkov, A.S. Method of energy efficiency of residential house by implementing of automatic controlled heat metering system (2014) Construction of Unique Buildings and Structures, 8(23), pp.79-92.

[19] SNiP 2. 04. 05-91 Heating, Ventilation and Air Conditioning.

[20] SNiP 2. 04. 07-86 Heating networks.

[21] SP 41-101-95 Design of heat systems.

[22] Rosstat. Federal Service of State Statistics. The population of the Russian Federation for municipalities on January 1, 2014 [web source] URL: http: /www. gks. ru/wps/wcm/connect/rosstat_main/rosstat/ru/statistics/population/demography (date of reference: 28. 09. 2014).

DOI: 10.14341/dm9686-3067