Поиск по сайту

active distribution networks algorithms analytical expressions analytical method application programs arbitrary structures calculation scheme calculations centralization levels circuit theory commerce common information spaces complex engineering complex networks component reliability computation theory computational efficiency computational experiment computer control systems computer operating systems computer software computer technology computing technology controllability analysis cost effectiveness cost effectiveness analysis costs da data handling decentralized heating design scheme development technology different stages digital devices dispatching controls district heating district heating system district-heating companies economic characteristics economic criteria efficiency electric power transmission networks energy efficiency energy efficient technology energy productions energy resources energy utilization estimated parameter estimation exponential smoothing failure analysis failure and recoveries failure and restoration rates failure-free operations finite number flow of gases forecasting methods forecasting problems gas supply system gas systems gases global solutions heat energy market heat load density heat prosumer heat sources heat storage heat supply heat supply system heat supply systems heat transfer heating equipment heating mode heating period hierarchical systems hydraulic circuits hydraulic equipment hydraulic machinery hydraulic models hydraulic structures i integral indicators integrated systems intelligent automation iterative method joint operations life cycle linear sections linear state e markov random process mathematical formulation mathematical modeling mathematical models methodological approach mo mobile communication devices mobile telecommunication systems monte carlo methods moving average method multilevel model network operations nodal reliability indices numerical methods observability operating condition operating regimes operation conditions operational conditions optimal experiments optimal loading optimal operati optimal systems optimizati optimizatio phase transitions pipe-line system pipelin pipeline networks pipelines piping systems pollution pote pro problem solving proven reserves pumping plants pumping stations quality regulation random processes relaxation methods reliability reliability analysis reliability optimization renovation and modernization scada systems setting smart power grids software reliability software system solar buildings statistical mechanics students target functions thermal load thermal-hydraulic calculations thermodynamics time in urban growth water pipelines water quality

   
Дополнительные параметры поиска

Результаты поиска ( Отсортировано по релевантности | Сортировать по дате )


A Methodology for Optimziation of Component Reliability of Heat Supply Systems

Postnikov I.V., Stennikov V.A., Mednikova E.E., Penkovskii A.V. A Methodology for Optimziation of Component Reliability of Heat Supply Systems // Energy Procedia. Vol.105. 2017. P.3083-3088. DOI: 10.1016/j.egypro.2017.03.643 The paper suggests a methodology to determine optimal reliability parameters (failure and restoration rates) of heat supply system components, which provide the required level of heat supply reliability. The methodological approach consists in the economically rational distribution...

Теги: heat supply system , reliability optimization , nodal reliability indices , component reliability , failure and restoration rates , markov random process , failure analysis , heat storage , heat transfer , hydraulic equipment , hydraulic machinery , iterative method
Раздел: ИСЭМ СО РАН
Use of multilevel modeling for determining optimal parameters of heat supply systems

Stennikov V.A., Barakhtenko E.A., Sokolov D.V. Use of multilevel modeling for determining optimal parameters of heat supply systems // Thermal Engineering . Vol.64. No.7. 2017. P.518-525. DOI: 10.1134/S0040601517070096 The problem of finding optimal parameters of a heat-supply system (HSS) is in ensuring the required throughput capacity of a heat network by determining pipeline diameters and characteristics and location of pumping stations. Effective methods for solving this problem, i.e., the method...

Теги: algorithms , heat-supply system , multilevel modeling , optimization methods , procedure , software system , circuit theory , complex networks , computer software , construction equipment , hierarchical systems , hydraulic equipment , hydraulic machinery , optimizatio
Раздел: ИСЭМ СО РАН
Mathematical model for calculation of the heat-hydraulic modes of heating points of heat-supplying systems

Shalaginova Z.I. Mathematical model for calculation of the heat-hydraulic modes of heating points of heat-supplying systems // Thermal Engineering . Vol.63. No.3. 2016. P.222-232. DOI: 10.1134/S0040601516020075 http://rd.springer.com/article/10.1134/S0040601516020075 The mathematical model and calculation method of the thermal-hydraulic modes of heat points, based on the theory of hydraulic circuits, being developed at the Melentiev Energy Systems Institute are presented. The redundant circuit of...

Теги: calculations , complex networks , computer software , data handling , heating , heating equipment , hydraulic equipment , hydraulic machinery , hydraulic models , hydraulic structures , mathematical models , rec
Раздел: ИСЭМ СО РАН
Analysis of trends in the development of cities’ heat supply systems

Stennikov V.A., Mednikova E.E. Analysis of trends in the development of cities’ heat supply systems // Thermal Engineering . Vol.63. No.9. 2016. P.657-665. DOI: 10.1134/S0040601516090068 http://rd.springer.com/article/10.1134%2FS0040601516090068 New challenges—including the modern urban development policy, formation of the market of energy efficient technologies and different types of equipment of a broad power capacity range, tightening requirements to reliability, quality, and economic accessibility...

Теги: efficiency , energy efficiency , hydraulic equipment , planning , thermal load , urban growth , zoning , centralization levels , decentralized heating , energy efficient technology , heat load density , heat sup
Раздел: ИСЭМ СО РАН


Телефоны

основной    +7(3952) 500-646
приемная    +7(3952) 42-47-00
факс     +7(3952) 42-67-96
Смотреть справочник