Title Razvoj simulacijskog modela za dugoročno planiranje energetskog sustava
Title (english) Developing a Simulation Model for Long Term Energy System Planning
Author Branko Vuk
Mentor Vladimir Mikuličić (mentor)
Committee member Božo Udovičić (predsjednik povjerenstva)
Committee member Vladimir Mikuličić (član povjerenstva)
Committee member Josip Sečen (član povjerenstva)
Committee member Sejid Tešnjak (član povjerenstva)
Committee member Damir Kalpić (član povjerenstva)
Granter University of Zagreb Faculty of Electrical Engineering and Computing Zagreb
Defense date and country 2004, Croatia
Scientific / art field, discipline and subdiscipline TECHNICAL SCIENCES Electrical Engineering Power Engineering
Universal decimal classification (UDC ) 621.3 - Electrical engineering
Abstract Simulacijski model za dugoročno planiranje razvoja energetskog sustava, namijenjen je za dugoročna planiranja razvoja energetskog sustava države, za vremensko razdoblje od približno 30 godina. Rezultati proračuna modela mogu se iskoristiti za donošenje strategije energetskog razvoja zemlje. Model je podijeljen u tri temeljna dijela, a njegova primjena pretpostavlja i korištenje odgovarajućeg modela za predviđanje razvoja elektroenergetskog sustava za dugoročno zadovoljenje potrošnje električne energije uz minimalne troškove proizvodnje. Tri spomenuta pod modela simulacijskog modela za dugoročno planiranje razvoja energetskog sustava jesu model za proračun energetskih tijekova, model za proračun troškova u energetskom sustavu i model za proračun investicija u energetskom sustavu. U pod modelu za proračun energetskih tijekova u energetskom sustavu zemlje polazi se od prognozirane korisne energije za neke skupine potrošača, odnosno od prognozirane neposredne potrošnje energije za one skupine potrošača i one svrhe potrošnje energije gdje nije moguća supstitucija ili gdje su faktori pretvorbe u korisnu energiju približno jednaki bez obzira koji se oblik energije koristi. Nakon što se provedu proračuni za sve neposredne potrošače, određene su količine svih oblika energije koji su potrebni da bi se zadovoljile energetske i ne energetske potrebe pojedinih neposrednih potrošača energije. Sljedeći korak u proračunu je određivanje ukupne neposredne potrošnje energije svakog oblika energije koji sudjeluje u opskrbi neposrednih potrošača. Neposredna potrošnja transformiranih oblika energije osnovni je ulazni podatak za proračun energetskih prilika u postrojenjima za energetske transformacije. Na temelju neposredne potrošnje pojedinih transformiranih oblika energije, ali i na temelju potrošnje pojedinih transformiranih oblika energije kao ulazne energije u druga postrojenja za energetske transformacije, određuje se struktura ulazne energije u sva postrojenja za energetske transformacije, kao i struktura proizvodnje transformiranih oblika energije u svim postrojenjima za energetske transformacije. Provedeni proračuni za neposredne potrošače energije i provedeni proračuni za energetske transformacije osnova su za konstrukciju energetskih bilanci, kao konačnog rezultata proračuna energetskih tijekova. Da bi se mogle izraditi pojedinačne energetske bilance svih oblika energije i kompleksna energetska bilanca sustava potrebno je provesti još neke analize i proračune. Provodi se analiza moguće proizvodnje primarnih oblika energije, proračun potrebne energije za pogon energetskih postrojenja i proračun gubitaka onih oblika energije koji se do potrošača transportiraju i distribuiraju energetskim mrežama. U pod modelu za proračun troškova energetskog sustava provodi se proračun troškova svih oblika energije i svih postrojenja energetskog sustava, na temelju proračuna provedenih u pod modelu za proračun energetskih tijekova i na temelju ostalih podataka. Ostali podaci koji su potrebni za proračun troškova jesu investicije, životni vijek, dugoročna diskontna stopa, snaga ili kapacitet postrojenja, fiksni troškovi pogona i održavanja, varijabilni troškovi pogona i održavanja i troškovi za energiju ili za neki drugi input u energetsko postrojenje. Na specifičan način određeni su troškovi proizvoda rafinerija nafte, degazolinaže, javnih toplana, industrijskih toplana i malih kogeneracija. Investicije u energetskom sustavu računaju se u trećem pod modelu simulacijskog modela za dugoročno planiranje razvoja energetskog sustava. Proračun investicija podijeljen je u tri dijela. U prvom se dijelu provodi proračun investicija potrebnih za proizvodnju primarnih oblika energije, u drugom dijelu ovog pod modela provodi se proračun investicija u postrojenja za energetske transformacije i u trećem dijelu pod modela provodi se proračun investicija u energetske mreže.
Abstract (english) The simulation model for the long-term planning of energy system development is designed for the long-term planning of energy system of state, for the period from approximate 30 years. The analysis results of model we can use for the long-term plan of energy system development of the state. The model is divided in three basic parts and his application supposed the use of the adequate model for planning the long-term development of electrical power system for the long-term consumption of electricity by the minimal production costs. These three sub-models of the model for the long-term planning of energy system development are the model for calculation the energy flows, the model for calculation the costs in the energy system and model for calculation the investments in the energy system. In the sub model for calculation of the energy flows in the energy system of the country, calculation starts from the forecasted useful energy for some consumer groups, respectively from the forecasted final energy demand for that consumer groups and for that aims of energy consumption where the substitution is not possible or where the conversion factors to the useful energy are similar or equal, independent of used energy form. When all calculations for the final energy consumers are carrying out the quantities of all energy forms for energy and non-energy needs are determined. The next step in the calculation is the determination of the total final demand for all energy forms that are taking part in the supply of final energy consumers. The final consumption of transformed energy forms is the basic input data for calculation the energy opportunities in the energy transformation plants. On the basis of the final demand of transformed energy forms and on the basis of the consumption of transformed energy forms as input energy in the some energy transformation plants for the energy transformation process, the model determine the structure of input energy in all energy transformations plants, as well as the structure of transformed energy production also in all energy transformation plants. The calculation carried out for the final energy consumers and calculation carried out for the energy transformation plants are the basis for the construction of energy balances, as the main result of energy flows calculation. To be able make the individual energy balances for all energy forms and complex energy balance of the total energy system, it is necessary to realize some more analysis and calculations. It is worked out the analysis of possible production of primary energy forms, calculation of the necessary energy consumption for the energy sector own use and calculation of the losses for that energy forms which are transported and distributed to the consumer using energy networks.In the sub-model for the costs calculation of energy system, the calculation of the costs for all energy forms and for all plants of energy system is carried out, on the basis of calculation carried out in the sub-model for calculation of the energy flows and on the basis of other data. The other data necessary for the cost calculation are the investment cost, the economic lifetime, the long-term discount rate, the capacity of plant, the fixed operating and maintenance costs, the variable operating and maintenance costs and the costs for the energy or for some other input in the energy plant. The costs of the oil refineries, natural gas liquids plant, the public cogeneration plants, the industrial cogeneration plants and small cogeneration plants have been determined on the specific way. The investments to the energy system are calculated in third sub-model of simulation model for the long-term planning of energy system development. The investment calculation is divided in the three parts. In the first part of sub-model the investments necessary for the production of primary energy are calculated, in the second part of this sub-model the investments to the plants for the energy transformations are calculated and in the third part of sub-model the investments in the energy networks are calculated.
Keywords
oblici energije
dugoročno planiranje
potrošnja
proizvodnja
energetske transformacije
troškovi
investicije
Keywords (english)
energy forms
long-term planning
energy consumption
energy production
energy transformations
costs
investments.
Language croatian
URN:NBN urn:nbn:hr:168:888642
Study programme Title: Doctoral study programme "Electrical Engineering and Computing" Study programme type: university Study level: postgraduate Academic / professional title: doktor/doktorica znanosti, po-dručje tehničkih znanosti (doktor/doktorica znanosti, po-dručje tehničkih znanosti)
Catalog URL https://lib.fer.hr:8443/cgi-bin/koha/catalogue/detail.pl?biblionumber=29364&searchid=scs_1583496947541
Type of resource Text
Extent V, 249 str. ; 30 cm
File origin Born digital
Access conditions Closed access
Terms of use
Created on 2020-03-06 12:56:06