Your search keyword '"ŽIVKOVIĆ, Dragoljub S."' showing total 2 results

1. TECHNO-ECONOMIC OPTIMIZATION OF CONFIGURATION AND CAPACITY OF A POLYGENERATION SYSTEM FOR THE ENERGY DEMANDS OF A PUBLIC SWIMMING POOL BUILDING.

Author

MANČIĆ, Marko V., ŽIVKOVIĆ, Dragoljub S., DJORDJEVIĆ, Milan Lj., JOVANOVIĆ, Milena S., RAJIĆ, Milena N., and MITROVIĆ, Dejan M.

Subjects

*SWIMMING pools, *COMBUSTION, *ENERGY consumption, *HEAT pumps, *SOLAR collectors, *SOLAR heating

Abstract

A polygeneration system is an energy system capable of providing multiple energy outputs to meet local demands, by application of high process integration. In this paper, optimal configuration and capacity of a polygeneration system for an indoor swimming pool building is determined by application of a method based on TRNSYS simulation and GenOpt optimization software. Based on the applicability, a superstructure of the polygeneration system is integrated, consisting of the following polygeneration modules: an internal combustion engine cogeneration module, a vapor compression chiller, and adsorption chiller, a ground source heat pump, flat plate solar thermal collectors, photovoltaic collectors, and heat storage. Annual behavior of energy loads of the public swimming pool building during a typical meteorological year and the polygeneration system are modeled and simulated using TRNSYS software, whereas techno-economic optimization is performed by GenOpt optimization. The results indicated the optimal configuration of the polygeneration system for the modelled energy demands, as well as the optimal capacity of the polygeneration modules, thus defining the optimal capacity of the polygeneration system for the energy demands of the public swimming pool building. [ABSTRACT FROM AUTHOR]

Published

2018

2. MATHEMATICAL MODELLING AND SIMULATION OF THE THERMAL PERFORMANCE OF A SOLAR HEATED INDOOR SWIMMING POOL.

Author

MANČIĆ, Marko V., ŽIVKOVIĆ, Dragoljub S., MILOSAVLJEVIĆ, Pedja M., and TODOROVIĆ, Milena N.

Subjects

*CONSTRUCTION & the environment, *ENERGY consumption research, *SWIMMING pool design & construction, *MATHEMATICAL models, *WATER temperature

Abstract

Buildings with indoor swimming pools have a large energy footprint. The source of major energy loss is the swimming pool hall where air humidity is increased by evaporation from the pool water surface. This increases energy consumption for heating and ventilation of the pool hall, fresh water supply loss and heat demand for pool water heating. In this paper, a mathematical model of the swimming pool was made to assess energy demands of an indoor swimming pool building. The mathematical model of the swimming pool is used with the created multi-zone building model in TRNSYS software to determine pool hall energy demand and pool losses. Energy loss for pool water and pool hall heating and ventilation are analyzed for different target pool water and air temperatures. The simulation showed that pool water heating accounts for around 22%, whereas heating and ventilation of the pool hall for around 60% of the total pool hall heat demand. With a change of preset controller air and water temperatures in simulations, evaporation loss was in the range 46-54% of the total pool losses. A solar thermal sanitary hot water system was modelled and simulated to analyze it's potential for energy savings of the presented demand side model. The simulation showed that up to 87% of water heating demands could be met by the solar thermal system, while avoiding stagnation. [ABSTRACT FROM AUTHOR]

Published

2014