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POZIV Poštovane kolege,
Industrija u zemljama Jugoistoĉne Evrope ima sliĉne probleme u vezi energetske efikasnosti i zaštite ţivotne sredine. Preduzeća sa malom energetskom efikasnošću i sa zastarelim industrijskim postrojenjima, našla su se na otvorenom trţištu. Uĉešće potrošnje energije u ukupnim troškovima preduzeća je toliko veliko da se svaka ušteda u ovoj oblasti direktno odraţava na ukupnu produktivnost, a time i konkurentnost privrednog subjekta. Investicije u oblast racionalne potrošnje energije i zaštite ţivotne sredine spadaju u veoma efikasna ulaganja. Investiciona sredstva za ovu oblast su, zahvaljujući brojnim fondovima meĊunarodnih institucija, dostupnija i znatno povoljnija od kredita poslovnih banaka.
Zbog svega navedenog, potvrĊeno je naše oĉekivanje da će teme konferencije pobuditi znaĉajno interesovanje struĉnjaka iz Istoĉne i Jugoistoĉne Evrope i šire. Na konferenciji će biti predstavljeno 95 radova autora iz 16 zemalja, koji će doći na konferenciju da razmene iskustva i informacije, prošire svoja nauĉna i tehniĉka saznanja, kako bi na najracionalniji naĉin povećali u svojim zemljama energetsku efikasnost i zaštitili ţivotnu sredinu.
Konferencija će biti povod za poslovne susrete sponzora i izlagaĉa konferencije koji će industrijskim preduzećima predstaviti najnoviju tehnologiju koja doprinosi energetskoj efikasnosti i zaštiti ţivotne sredine. Pozivamo vas da svojim aktivnim uĉešćem na IEEP konferenciji doprinesete ostvarenju njenih ciljeva.
Prof. dr Goran JANKES predsednik Organizacionog odbora i
potpredsednik Društva termiĉara Srbije
mr Bojan KOVAČIĆ zamenik direktora
Agencije za energetsku efikasnost Republike Srbije
Prof. dr Milan RADOVANOVIĆ predsednik Društva termiĉara Srbije
PROGRAMSKI ODBOR
Predsednik:
Prof. dr Simeon OKA, predsednik Matiĉnog nauĉnog odbora za energetsku efikasnost Ministarstva prosvete i nauke Republike Srbije
Ĉlanovi:
Prof. dr Miroljub ADŢIĆ, Univerzitet u Beogradu - Mašinski fakultet, Beograd
Prof. dr Milun BABIĆ, Mašinski fakultet, Kragujevac Prof. dr Miloš BANJAC, Ministarstvo za infrastrukturu i energetiku Republike Srbije dr Dragoljub DAKIĆ, Institut za nuklearne nauke Vinĉa, Beograd dr Branko DUNJIĆ, Centar za ĉistiju proizvodnju Republike Srbije, Beograd
dr Nenad ĐAJIĆ, Univerzitet u Beogradu - Rudarsko-geološki fakultet, Beograd
dr Maja ĐUROVIĆ-PETROVIĆ, Ministarstvo prosvete i nauke Republike Srbije Tasko ERMENKOV, Energy Efficiency Agency, Bugarska Mihajlo GAVRIĆ, JP Elektroprivreda Srbije, Beograd Prof. dr Vlastimir GLAMOČANIN, Fakultet za elektrotehniku i informacione tehnologije, Univerzitet "Sv. Kiril i Metodij", Skoplje, Makedonija Prof. dr Vojin GRKOVIĆ, Fakultet tehniĉkih nauka, Novi Sad dr Borislav GRUBOR, Institut za nuklearne nauke Vinĉa, Beograd dr Thor Henning GULBRANDSEN, Institute for Energy Technologies, Kjeller, Norveška Prof. dr Petar GVERO, Mašinski fakultet Univerziteta u Banja Luci, Bosna i Hercegovina Prof. dr Dušan GVOZDENAC, Pokrajinski centar za energetsku efikasnost, Fakultet tehniĉkih nauka, Novi Sad Prof. dr Gradimir ILIĆ, Mašinski fakultet, Niš dr Mladen ILIĆ, Energy Saving Group, Beograd
Prof. dr Branislav JAĆIMOVIĆ, Univerzitet u Beogradu - Mašinski fakultet, Beograd
Prof. dr Borislav JEFTENIĆ, Univerzitet u Beogradu - Elektrotehniĉki fakultet, Beograd
Prof. dr Aleksandar JOVANOVIĆ, Steinbeis Universitaet, Stuttgard, SR Nemaĉka
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Prof. dr Aleksandar JOVOVIĆ, Univerzitet u Beogradu - Mašinski fakultet, Beograd
Prof. dr Aleksandar KNEŢEVIĆ, Mašinski fakultet Univerziteta u Sarajevu, Bosna i Hercegovina Slobodan KNEŢEVIĆ, MINEL Koncern, Beograd
Prof. dr Franc KOSI, Univerzitet u Beogradu - Mašinski fakultet, Beograd
Prof. dr Slavko KRAJCAR, Fakultet za elektrotehniku i raĉunarstvo, Sveuĉilište u Zagrebu, Hrvatska
Prof. dr Milorad KRGOVIĆ, Univerzitet u Beogradu - Tehnološko-metalurški fakultet, Beograd
Ljubo MAĆIĆ, Agencija za energetiku Republike Srbije, Beograd Prof. dr Vojislav NOVAKOVIĆ, Norwegian University of Science and Technology, Norveška Dimitris PAPASTEFANAKIS, Odeljenja za razvojne programe, Centre for Renewables Energy Sources and Savings, Grĉka Prof. dr Dušan PETROVAČKI, Fakultet tehniĉkih nauka, Novi Sad Prof. dr Jovan PETROVIĆ, Pokrajinski centar za energetsku efikasnost, Fakultet tehniĉkih nauka, Novi Sad
Prof. dr Ivanka POPOVIĆ, Univerzitet u Beogradu - Tehnološko-metalurški fakultet, Beograd
mr Slobodan PETROVIĆ, Udruţenje za energetiku i energetsko rudarstvo, Privredna komora Srbije, Beograd
Prof. dr Milan RADOVANOVIĆ, Univerzitet u Beogradu - Mašinski fakultet, Beograd
Corneliu RADULESCU, National Regulatory Authority for Energy, Rumunija
Prof. dr Miroslav STANOJEVIĆ, Univerzitet u Beogradu - Mašinski fakultet, Beograd
Prof. dr Dragoslava STOJILJKOVIĆ, Univerzitet u Beogradu - Mašinski fakultet, Beograd
Prof. dr Mladen STOJILJKOVIĆ, Regionalni centar za energetsku efikasnost, Niš Prof. dr Dragan ŠEŠLIJA, Fakultet tehniĉkih nauka, Novi Sad Prof. dr Dragoslav ŠUMARAC, Inţenjerska komora Srbije, Gradjevinski fakultet, Beogradu mr Biserka ŠVARC, Inţenjerska komora Srbije, Beograd Prof. dr Miloš TEŠIĆ, Fakultet tehniĉkih nauka, Novi Sad Daniela TOŠIĆ, Tigar, Pirot dr Vojislav VULETIĆ, Udruţenje za gas Srbije, Beograd
Prof. dr Titoslav ŢIVANOVIĆ, Univerzitet u Beogradu - Mašinski fakultet, Beograd
Prof. dr Branislav ŢIVKOVIĆ, Univerzitet u Beogradu - Mašinski fakultet, Beograd
ORGANIZACIONI ODBOR Predsednik:
Prof. dr Goran JANKES, Univerzitet u Beogradu - Mašinski fakultet, Beograd
Potpredsednik: mr Bojan KOVAČIĆ, Agencija za energetsku efikasnost Republike Srbije, Beograd Ĉlanovi: mr Mirjana STAMENIĆ, Mreţa za energetsku efikasnost u industriji Srbije, Inovacioni centar Mašinskog fakulteta, Beograd Vesna RODIĆ, Agencija za energetsku efikasnost Republike Srbije, Beograd mr Goran VUČKOVIĆ, Regionalni centar za energetsku efikasnost, Niš Dejan ĐUKANOVIĆ, Regionalni centar za energetsku efikasnost, Beograd Dubravka JELIĆ, Regionalni centar za energetsku efikasnost, Kragujevac Miroslav KLJAJIĆ, Pokrajinski centar za energetsku efikasnost, Novi Sad Rade KARAMARKOVIĆ, Regionalni centar za energetsku efikasnost, Kraljevo dr Aleksandar NIKOLIĆ, Institut ”Nikola Tesla”, Beograd mr Aleksandar ERIĆ, Institut za nuklearne nauke "Vinĉa", Beograd Marko POPOVIĆ, BBN Congress Management
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SATNICA Utorak, 21. jun 2011.
16:00-20:00 Registracija Kongresni centar Kopaonik 18:00-18:30 Svečano otvaranje Sala A
Zvanično otvaranje
19:30 Otvaranje izloţbe Kongresni centar Kopaonik Welcome cocktail
Sreda, 22. jun 2011.
09:00-11:00 Energetska politika, zakonodavstvo i programi energetske efikasnosti Sala A zemalja regiona
10:25-10:40 Break
12:15-13:00 Prezentacija zlatnog sponzora - AUSTROTHERM
13:00-15:00 Ručak
15:00-15:45 Prezentacija zlatnog sponzora - AUSTROTHERM
15:45-16:45 Energetska politika, zakonodavstvo i programi energetske efikasnosti Sala A zemalja regiona (nastavak)
16:45-17:00 Pauza
17:00-18:40 Energetska efikasnost u industriji Sala A
17:00-18:30 Energetska efikasnost u primeni električne energije Sala B
18:30-20:00 Prezentacije sponzora Sala A
Ĉetvrtak, 23. jun 2011.
09:00-10:10 Energetska efikasnost u zgradarstvu Sala A
09:00-10:00 Obnovljivi izvori energije – vetar i geotermalni Sala B
10:00-10:30 Break
10:30-11:30 Zaštita ţivotne sredine Sala A
11:00-12:30 Poster sesija Izloţbeni prostor
12:30-13:30 Prezentacija zlatnog sponzora - ABB Sala A
13:30-15:00 Ručak
15:00-20:00 Izlet
Petak, 24. jun 2011.
09:00-09:15 EBRD TAM/BAS Program Sala A
09:15-10:55 Obnovljivi izvori energije Sala A
10:55-11:05 Pauza
11:05-12:25 Obnovljivi izvori energije – biogoriva Sala A
11:05-13:15 Energetska efikasnost – industrija i zgradarstvo Sala B
13:15-15:00 Pauza za ručak
15:00-16:00 Obnovljivi izvori energije – sunčeva i geotermalna energija Sala A
15:00-16:00 Energetska efikasnost – različite oblasti Sala B
16:30-18:00 Porezentacije sponzora Sala A
21:00 Svečana večera Hotel GRAND
Subota 25.jun 2011.
10:00-11:30 Okrugli sto Sala A
11:30-12:30 Skupština Društva termičara Srbije Sala A
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PROGRAM Utorak, 21. jun 2011.
16:00-20:00 Registracija Kongresni centar Kopaonik 18:00-18:30 Svečano otvaranje Sala A
Prof. dr Milan RADOVANOVIĆ, predsednik Društva termiĉara Srbije
Prof. dr Goran JANKES, predsednik Organizacionog odbora
Dimitrije LILIĆ, Agencija za energetsku efikasnost Republike Srbije
Pozdrav predstavnika Elektroprivrede Srbije
Slav SLAVOV, World Energy Council, Engleska
Prof. dr Radivoje MITROVIĆ, drţavni sekretar u Ministarstvu prosvete i nauke Republike Srbije
Zvanično otvaranje predstavnik Vlade Republike Srbije
18:30-18:50 Dragomir MARKOVIĆ, Bratislav ČEPERKOVIĆ, Aleksandar VLAJČIĆ, Stephan RESSL „BELA KNJIGA“ JP Elektroprivrede Srbije
18:50-19:00 Milan RADOVANOVIĆ RACINALNO KORIŠĆENJE GORIVA U DOMAĆINSTVIMA, INSTITUT ZA TERMALNU EKONOMIJU,
IZDANJE MINISTARSTVA NACIONALNE EKONOMIJE, Beograd 1943. Godine
19:30 Otvaranje izloţbe Kongresni centar Kopaonik Welcome cocktail
Sreda, 22. jun 2011.
09:00-11:00 Energetska politika, zakonodavstvo i programi energetske efikasnosti Sala A zemalja regiona
Uvodno izlaganje:
09:00-09:20 Miloš BANJAC, pomoćnik ministra u Ministarstvu za infrastrukturu i energetiku Republike Srbije POLITIKA ENERGETSKE EFIKASNOSTI U REPUBLICI SRBIJI, STANJE I BUDUĆI PRAVCI
Uvodno izlaganje:
09:20-09:40 Slav SLAVOV, World Energy Council, Engleska MAPA PUTA ZA KONKURENTNO ENERGETSKO TRŢIŠTE EVROPE
09:40-09:55 Miodrag MESAROVIĆ, Energoprojekt – ENTEL, Srbija KLIMATSKA POLITIKA ENERGETSKI EFIKASNE EVROPE
09:55-10:10 Konstantinos PATLITZIANAS, Stefanos NTOULAS, Lisa PANOPOULOS, Dimitris PAPASTEFANAKIS, Centre of Renewable Energy Sources and Savings, Grĉka
RAZVOJ ZELENE ENERGIJE U REPUBLICI SRBIJI: OTVARANJE NOVIH ZNAĈAJNIH MOGUĆNOST
10:10-10:25 Kolio KOLEV, Agencija za energetsku efikasnost, Bugarska ENERGETSKA EFIKASNOST U BUGARSKOJ – AKTUELNO STANJE
10:25-10:40 Break
10:40-10:55 Konstantin DIMITROV, Mašinski fakultet, Makedonija, Ognen DIMITROV, Ekonomsko odeljenje, Sektor za energetsku efikasnost, Ameriĉki koledţ u Skoplju, Makedonija
PRVI NACIONALNI AKCIONI PLAN REPUBLIKE MAKEDONIJE VEZAN ZA ENERGETSKU EFIKASNOST: CILJEVI I REALIZACIJA
10:55-11:10 Wim P.M. van SWAAIJ, G. van ROSSUM, S.R.A. KERSTEN, Faculty of Science and Technology, University of Twente, Holandija
KORIŠĆENJE BIOMASE KAO GORIVO ZA KLASIĈNU RAFINERIJU NAFTE – POSTUPAK I PRIPREMA SIROVINE
11:10-11:25 Miroslav KUKOBAT, Savet za regionalnu saradnju, Sarajevo, Bosna i Hercegovina SAVET ZA REGIONALNU SARADNJU – ULOGA U RAZVOJU REGIONALNE SARADNJE SA
FOKUSOM NA ENERGETSKI SEKTOR
11:25-11:40 Aleksandar KNEŢEVIĆ, Azrudin HUSIKA, Mašinski fakultet u Sarajevu, Bosna i Hercegovina DEMISTIFIKACIJA PODSTICAJA NEKARBONSKE ENERGIJE
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11:40-11:55 Ana S. TRBOVIĆ, Fakultet za ekonomiju, finansije i administraciju (FEFA), Srbija POLITIKA RAZVOJA OBNOVLJIVE ENERGIJE U SRBIJI
11:55-12:10 Nenad DEBRECIN, Slavko KRAJCAR, Fakultet elektrotehnike i raĉunarstva, Sveuĉilište u Zagrebu, Hrvatska
ENERGETSKA EFIKASNOST U DOKUMENTIMA I ENERGETSKOJ POLITICI EU I OBAVEZE I UTICAJI NA ZEMLJE REGIONA
12:15-13:00 Prezentacija zlatnog sponzora - AUSTROTHERM
13:00-15:00 Ručak
15:00-15:45 Prezentacija zlatnog sponzora - AUSTROTHERM
15:45-16:45 Energetska politika, zakonodavstvo i programi energetske efikasnosti Sala A zemalja regiona (nastavak)
15:45-16:00 Jurgen ANGLEITNER, GEO PARTNER AG, Švajcarska POTENCIJALI OBNOVLJIVIH ENERGETSKIH IZVORA U EKONOMIJI TRANZICIJE I ISTRAŢIVANJE
INDUSTRIJSKIH PROCESA U SRBIJI
16:00-16:15 Jovan PETROVIĆ, Fakultet tehniĉkih nauka u Novom Sadu, Srbija DEKADA AKTIVNOSTI POKRAJINSKOG CENTRA ZA ENERGETSKU EFIKASNOST U NOVOM SADU
16:15-16:30 Ćemal DOLIĆANIN, Drţavni univerzitet u Novom Pazaru, Novi Pazar, Srbija, Sašo MEDVED, Univerza v Ljubljani, Fakulteta za stojništvo, Ljubljana, Slovenia, Boţidar STANIĆ, Drţavni univerzitet u Novom Pazaru, Novi Pazar, Srbija , Ciril ARKAR, Univerza v Ljubljani, Fakulteta za stojništvo, Ljubljana, Slovenia, Vera NIKOLIĆ-STANOJEVIĆ, Drţavni univerzitet u novom Pazaru, Novi Pazar, Srbija, Peter Op'T VELD, Cauberg-Huygen Raadgevende Ingenieurs, Maastricht, Holandija
MASTER STUDIJISKI PROGRAMI IZ ENERGETSKE EFIKASNOSTI U ZGRADARSTVU NA UNIVERZITETIMA U SRBIJI I SLOVENIJI
16:30-16:45 Dragoljub ŢIVKOVIĆ, Mašinski fakultet u Nišu, Srbija, Dragan ŢIVKOVIĆ, Inţenjerska komora Srbije, Tatjana PANIĆ – ŢIVKOVIĆ, Centar za razvoj Jablanice i Pĉinje, Srbija
AKCIONI PLAN ZA RAZVOJ ENERGETSKE EFIKASNOSTI I INTELIGENTNE UPOTREBE ENERGIJE U JABLANICI I PĈINJSKOM OKRUGU JUŢNE SRBIJE
16:45-17:00 Pauza
17:00-18:40 Energetska efikasnost u industriji Sala A
Uvodno izlaganje:
17:00-17:20 Dušan GVOZDENAC, Jovan PETROVIĆ, Fakultet tehniĉkih nauka u Novom Sadu, Srbija O ENERGETSKOJ EFIKASNOSTI U SRBIJI
Uvodno izlaganje:
17:20-17:40 Nenad ĐAJIĆ, Rudarsko-geološki fakultet u Beogradu, Srbija, Vojislav VULETIĆ, Udruţenje za gas, Srbija
PRIRODNI GAS U INDUSTRIJSKIM KOGENERACIONIM POSTROJENJIMA
17:40-17:55 Mirjana STAMENIĆ, Univerzitet u Beogradu - Mašinski fakultet, Srbija, Aleksandar NIKOLIĆ,
Elektrotehniĉki institut Nikola Tesla, Beograd, Srbija, Nikola TANASIĆ, Univerzitet u Beogradu - Mašinski fakultet, Srbija, Jelena DELIĆ, Elektrotehniĉki institut Nikola Tesla, Beograd, Srbija, Goran
JANKES, Univerzitet u Beogradu - Mašinski fakultet, Srbija
SISTEM ENERGETSKOG MENADŢMENTA U INDUSTRIJI - PREDUSLOV ZA POVEĆANJE ENERGETSKE EFIKASNOSTI
17:55-18:10 Bratislav DŢOMBIĆ, Srbija KOLIKO JE EFIKASNA EFIKASNOST?
18:10-18:25 Dušan GOLUBOVIĆ, Mašinski fakultet u Istoĉnom Sarajevu, Bosna i Hercegovina, Dušica GOLUBOVIĆ, BeoHAMEX doo Beograd, Srbija
AERODINAMIĈKI PRORAĈUN HIPERBOLIĈKE RASHLADNE KULE
18:25-18:40 Miroslav KLJAJIĆ, Fakultet tehniĉkih nauka u Novom Sadu, Srbija PODRŠKA ODLUĈIVANJU ZA PROJEKTE ENERGETSKE EFIKASNOSTI PRIMENOM ANALITIĈKOG
HIJERARHIJSKOG PROCESA
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17:00-18:30 Energetska efikasnost u primeni električne energije Sala B
17:00-17:15 Dragana BJEKIĆ, Miroslav BJEKIĆ, Miloš BOŢIĆ, Marko ROSIĆ, Tehniĉki fakultet u Ĉaĉku, Univerzitet u Kragujevcu, Srbija
UPRAVLJANJE ODNOSIMA S JAVNOŠĆU U OKVIRU PROMOCIJE POLITIKE ENERGETSKE EFIKASNOSTI ELEKTROMOTORNIH POGONA
17:15-17:30 Maja GRBIĆ, Aleksandar PAVLOVIĆ, Dejan HRVIĆ, Momčilo PETROVIĆ, Elektrotehniĉki institut „Nikola Tesla”, Srbija
PROCENA MAKSIMALNE VREDNOSTI MAGNETNE INDUKCIJE NA OSNOVU MERENJA TRENUTNIH OPTEREĆENJA TRANSFORMATORA
17:30-17:45 Radislav MILANKOV, Jovan ČARNIĆ, Elektrovojvodina, Elektrodistribucija „Zrenjanin“, Pogon „Kikinda“, Srbija
UTICAJ JEDNOG FAKTORA KVALITETA ELEKTRIĈNE ENERGIJE
17:45-18:00 Srđan VUKMIROVIĆ, Fakultet tehniĉkih nauka, Novi Sad, Srbija, Duško LUKAČ, University of Applied Sciences, Köln, Nemaĉka, Aleksandar ERDELJAN, Darko ČAPKO, Imre LENDAK, Fakultet tehniĉkih nauka, Novi Sad, Srbija
ANALIZE ENERGETSKIH GUBITAKA U CILJU VEĆE EFIKASNOSTI U ELEKTRODISTRIBUCIJI
18:00-18:15 Slobodan BJELIĆ, Fakultet tehniĉkih nauka Kosovska Mitrovica, Srbija, Nenad MARKOVIĆ, Uroš JAKŠIĆ, Visoka tehniĉka škola strukovnih studija iz Uroševca, Zveĉan, Srbija
UPROŠĆENI POSTUPAK ZA PRORAĈUN UTICAJA TERMIĈKIH GUBITAKA NA SMANJENJE TEHNIĈKOG VEKA ELEKTRIĈNE OPREME
18:15-18:30 Milorad RANČIĆ, ELDI korporacija, Niš, Srbija NIZAK MREŢNI NAPON, TARIFNE ZONE I ZAŠTITA ŢIVOTNE SREDINE
18:30-20:00 Prezentacije sponzora Sala A
Ĉetvrtak, 23. jun 2011.
09:00-10:10 Energetska efikasnost u zgradarstvu Sala A
Uvodno izlaganje:
09:00-09:20 Dragoslav ŠUMARAC, Univerzitet u Beogradu - GraĊevinski fakultet, Srbija, Maja ĐUROVIĆ-
PETROVIĆ, Fakultet meĊunarodnog menadţmenta u inţenjerstvu, Evropski Univerzitet, Beograd, Srbija,
Stanko ĆORIĆ, Zoran PEROVIĆ, Svetlana KOSTIĆ, Univerzitet u Beogradu - GraĊevinski fakultet,
Srbija ANALIZA SRPSKE RURALNE PLANINSKE KUĆE SA ASPEKTA ENERGETSKE EFIKASNOSTI
09:20-09:30 Dragoslav ŠUMARAC, Univerzitet u Beogradu - GraĊevinski fakultet, Srbija, Maja TODOROVIĆ,
Univerzitet u Beogradu - Mašinski fakultet, Srbija, Zoran PEROVIĆ, Univerzitet u Beogradu - GraĊevinski fakultet, Srbija, Vlasimir RADONJANIN, Mirijana MALEŠEV, Toša NINKOV, Tehniĉki fakultet u Novom Sadu, Srbija
ENERGETSKA EFIKASNOST TIPIĈNE VOJVOĐANSKE KUĆE
09:30-09:40 Maja TODOROVIĆ, Tamara BAJC, Univerzitet u Beogradu - Mašinski fakultet, Srbija
UTICAJ REŢIMA KORIŠĆENJA ZGRADA NA UKUPNU ENERGETSKU POTROŠNJU ZGRADA
09:40-09:50 Aleksandra KRSTIĆ-FURUNDŢIĆ, Milica VUJOŠEVIĆ, Jelena BRAJKOVIĆ, Univerzitet u Beogradu - Arhitektonski fakultet, Srbija
ANALIZA I POREĐENJE NACIONALNIH I REGIONALNIH PROGRAMA I PODSTICAJNE MERE ZA POSTIZANJE VEĆE ENERGETSKE EFIKASNOSTI U ZGRADAMA (OBJEKTIMA)
09:50-10:00 Goran KRSTOVIĆ, Minela HUREMOVIĆ, Fethi SILAJDZIĆ, Mašinski fakultet, Bosna i Hercegovina ENERGETSKA EFIKASNOST U ŠKOLAMA I ZDRAVSTVENIM USTANOVAMA U BOSNI I
HERCEGOVINI
10:00-10:10 Sanjin AVDIĆ, Samra PRAŠOVIĆ, CETEOR d.o.o. Sarajevo, Bosna i Hercegovina ENERGETSKA EFIKASNOST I PROJEKTI OBNOVLJIVE ENERGIJE U SEKTORU DALJINSKOG
GREJANJA U BIH
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09:00-10:00 Obnovljivi izvori energije – vetar i geotermalni Sala B
Uvodno izlaganje:
09:00-09:20 Ţarko STEVANOVIĆ, Institut za nuklearne nauke Vinĉa, Srbija DRUŠTVENA PRIHVATLJIVOST ENERGIJE VETRA U SRBIJI – KONCEPCIJA I NJENA PRIMENA U
SRBIJI
09:20-09:30 Dragan BATAVELJIĆ, Visoka zdravstveno-sanitarna škola strukovnih studija "VISAN", Srbija ZAKONSKA REGULATIVA U VEZI IZGRADNJE VETRO-PARKOVA U REPUBLICI SRBIJI
09:30-09:40 Ţana STEVANOVIĆ, Borislav GRUBOR, Institut za nuklearne nauke Vinĉa, Srbija IZBOR TURBOGENERATORA NA VETAR NA OSNOVU PODATAKA O LOKACIJI I OBJEKTU
09:40-09:50 Zoran MARKOVIĆ, KRUŠIK, Valjevo, Srbija HIDROGEOTERMALNA ISTRAŢIVANJA NA PODRUĈJU GRADA VALJEVA
09:50-10:00 Ivan JOJIĆ, Dragan SPASOJEVIĆ, Miodrag ISAKOV, Slobodan MOLEROVIĆ, Vojin NESTOROVIĆ, Sneţana MRMAK, Branko ALEKSIĆ, Ana VUKOJEVIĆ, Dušan GAJIĆ, Institut „Kirilo Savić“ a.d., Srbija
PRIKAZ TEHNIĈKOG REŠENJA SISTEMA ZA KORIŠĆENJE GEOTERMALNE ENERGIJE ZA GREJANJE OSNOVNE ŠKOLE „GRABOVAC” U GRABOVCU SA TEHNOEKONOMSKOM ANALIZOM
10:00-10:30 Break
10:30-11:50 Zaštita ţivotne sredine Sala A
Uvodno izlaganje:
10.30-10:50 Aleksandar JOVOVIĆ, Univerzitet u Beogradu - Mašinski fakultet, Srbija
SPREĈAVANJE I KONTROLA INDUSTRIJSKIH ZAGAĐENJA U AKTUELNOM PRAVU EU - NOVE OBAVEZE DOMAĆE INDUSTRIJE
10:50-11:00 Dejan VELIČKOVIĆ, Jugoistok Niš, Srbija PRIMENA KJOTO PROTOKOLA
11:00-11:10 Dragan ADAMOVIĆ, Jelena KIURŠKI, Savka ADAMOVIĆ, Maja TURK-SEKULIĆ, Fakultet tehniĉkih nauka u Novom Sadu, Srbija
IZLOŢENOST ORGANSKIM RASTVARAĈIMA U ŠTAMPARIJAMA
11:10-11:20 Janko MIKIĆ, Fabrika glinice „Biraĉ'' AD, Bosna i Hercegovina, Dragica LAZIĆ, Tehnološki fakultet Istoĉno Sarajevo, Zvornik, Bosna i Hercegovina, Dušanka MIKIĆ, Fabrika glinice „Biraĉ“ AD Zvornik, Bosna i Hercegovina, Ljubica VASILJEVIĆ, Dragana KEŠELJ, Tehnološki fakultet Istoĉno Sarajevo, Zvornik, Bosna i Hercegovina
MOGUĆNOSTI PROIZVODNJE EKOLOŠKIH GRAĐEVINSKIH BLOKOVA
11:20-11:30 Dečan IVANOVIĆ, Goran SEKULIĆ, Vladan IVANOVIĆ, Univerzitet u Podgorici, Crna Gora, Darko NOVAKOVIĆ, Hidrometerološki zavod Podgorica, Crna Gora
MOGUĆNOSTI ZAŠTITE ŢIVOTNE SREDINE OD POPLAVNIH TALASA PRI NEUSTALJENOM TEĈENJU U KANALU IZAZVANIH VREMENSKOM PROMJENOM ULAZNOG PROTICAJA SA PRIMJENOM NA MODELU KORITA RIJEKE BOJANE
11:00-12:30 Poster sesija Izloţbeni prostor
1 Milorad RANČIĆ, ELDI korporacija, Niš, Srbija PREDLOG ZA UKIDANJE TARIFNIH ZONA KOD NAPLATE POTROŠNJE EL.ENERGIJE NA NAPONU
0,4 KV
2 Dragoljub ŢIVKOVIĆ, Peđa MILOSAVLJEVIĆ, Dragan MILČIĆ, Mašinski fakultet u Nišu, Srbija ASPEKTI ENERGETSKOG MENADŢMENTA U INDUSTRIJI AUTOMOBILSKIH GUMA
3 Slobodanka MARINKOVIĆ, Prvoslav TRIFUNOVIĆ, Rade TOKALIĆ, Univerzitet u Beogradu - Rudarsko-geološki fakultet, Srbija
PRIMENLJIVOST OTPADA IZ ELEKTRANA KAO MATERIJAL ZA PUTEVE
4 Slobodan GAJIN, Univerzitet u Beogradu - Mašinski fakultet, Srbija
ENERGETSKA EFIKASNOST KOTLOVA NA BALIRANU PŠENIĈNU SLAMU I NJIHOV UTICAJ NA KVALITET VAZDUHA
10
5 Marta TRNINIĆ, Goran JANKES, Mirjana STAMENIĆ, Tomislav SIMONOVIĆ, Univerzitet u Beogradu - Mašinski fakultet, Srbija
GASIFIKACIJA BIOMASE KAO TEHNOLOGIJA ZA KORIŠĆENJE ENERGIJE BIOMASE ZA KOMBINOVANI PROCES PROIZVODNJE TOPLOTNE I ELEKTRIĈNE ENERGIJE
6 Dijana DUKIĆ, Marko RUNJIĆ, Novi Sad, Srbija IZGRADNJA SOLARNE ELEKTRANE
7 Dušan ĐURĐEVIĆ, Fakultet tehniĉkih nauka, Kosovska Mitrovica, Srbija KORISNI PARAMETRI ZA INVESTIRANJE U SOLARNU TEHNIKU FOTOELEKTRIĈNOG NAPONA U
SRBIJI
8 Goran PANČIĆ, Beograd, Srbija PRETVARANJE ENERGIJE VETRA U ELEKTRIĈNU ENERGIJU POMOĆU VETROGENERATORA
9 Vladimir DUBOKA, Lazarevac, Zdravko ĐURIĆ, Beograd, Srbija ISPITIVANJE I PODEŠAVANJE VENTILA SIGURNOSTI NA MESTU UGRADNJE
12:30-13:30 Prezentacija zlatnog sponzora - ABB Sala A
13:30-15:00 Ručak
15:00-20:00 Izlet
Petak, 24. jun 2011.
09:00-09:15 EBRD TAM/BAS Program Sala A
Bojana VUKOSAVLJEVIĆ, EBRD-TAM/BAS Program PODRŠKA EBRD BAS SRBIJA PROJEKTIMA IZ OBLASTI ENERGETSKE EFIKASNOSTI I ZAŠTITE
ŢIVOTNE SREDINE
09:15-10:55 Obnovljivi izvori energije Sala A
Uvodno izlaganje:
09:15-09:35 Petar M. GVERO, Mašinski fakultet Banja Luka, Bosna i Hercegovina, A. STANIVUKOVIĆ, GFA Consulting Group, Banja Luka, Bosna i Hercegovina, V. ĆURIN, Dvokut pro Sarajevo, Bosna i Hercegovina, B. KALANJ, ESCO Control Project d.o.o, Beograd, Srbija, J. TAIS, Dvokut pro Sarajevo, Bosna i Hercegovina
ODRŢIVOST PROJEKATA BAZIRANIH NA BIOMASI
Uvodno izlaganje:
09:35-09:55 Dragoslava STOJILJKOVIĆ, Univerzitet u Beogradu - Mašinski fakultet, Srbija, Branislava LEPOTIĆ
KOVAČEVIĆ, JP Transnafta, Srbija DUGOROĈNI UGOVOR O ISPORUCI/PRODAJI BIOMASE NAMENJENE PROIZVODNJI ENERGIJE
09:55-10:05 Aleksandar DEDIĆ, Univerzitet u Beogradu - Šumarski fakultet u Beogradu, Srbija
KOLIĈINE I KORIŠĆENJE BIOMASE IZ ŠUMSKE SEĈE I PRERADE DRVETA U SRBIJI
10:05-10:15 Aleksandra ČENEJAC, Vlastimir RADONJANIN, Mirjana MALEŠEV, Fakultet tehniĉkih nauka u
Novom Sadu, Srbija, Dragoslav ŠUMARAC, Univerzitet u Beogradu - GraĊevinski fakultet, Srbija,
Radivoje BJELAKOVIĆ, Fakultet tehniĉkih nauka u Novom Sadu, Srbija ANALIZA MOGUĆNOSTI UPOTREBE OBNOVLJIVIH IZVORA ENERGIJE ZA GREJANJE
INDUSTRIJSKIH HALA
10:15-10:25 Ismar JAMAKOVIĆ, Elvedin ADŢEM, Nihad HARBAŠ, CETEOR d.o.o. Sarajevo, Bosna i Hercegovina ENERGETSKA POTROŠNJA U INDUSTRIJI SARAJEVSKOG OKRUGA
10:25-10:35 Branislav ŢIVKOVIĆ, Aleksandra SRETENOVIĆ, Ljubiša TANIĆ, Biserka ŠVARC, Univerzitet u Beogradu - Mašinski fakultet, Srbija, Vikor RADIĆ, Predstavništvo „Herz” Beograd, Srbija, Dejan
JOVANOVIĆ, Zavod za udţbenike i nastavna sredstva Beograd, Srbija ANALIZA PRIMENE BIOMASE U HOTELU „TERMAG” NA JAHORINI
10:35-10:45 Dragoljub ŢIVKOVIĆ, Velimir STEFANOVIĆ, Marko MANČIĆ, Saša PAVLOVIĆ, Mašinski fakultet u Nišu, Srbija
ENERGETSKI POTENCIJAL BIOMASE I BARIJERE ZA NJENU PRIMENU U SRBIJI
10:45-10:55 Jelena POPOVIĆ, Zavod za intelektualnu svojinu, Beograd, Srbija UPOTREBA BIOMASE POSMATRANA KROZ PATENTNU DOKUMENTACIJU
11
10:55-11:05 Pauza
11:05-12:25 Obnovljivi izvori energije – biogoriva Sala A
Uvodno izlaganje: 11:05-11:25 Dragan STEVANOVIĆ, Nemaĉka BIO-GORIVA: DRUGA GENERACIJA
Uvodno izlaganje:
11:25-11:45 Branko GLAVONJIC, Univerzitet u Beogradu - Sumarski fakultet, Dragoslava STOJILJKOVIĆ,
Univerzitet u Beogradu - Mašinski fakultet, Srbija
PROIZVODNJA I KVALITET DRVENOG UGLJA U SRBIJI: SOCIOEKONOMSKI I EKOLOŠKI ASPEKTI
11:45-11:55 Roland SIEMONS, Loek BAAIJENS, Clean Fuels b.v., Enschede, Holandija THE HEAT-BUFFERED BATCH OPERATED CARBONISATION RETORT: TECHNOLOGY AND
ENVIRONMENTAL IMPACT
11:55-12:05 Nebojša MANIĆ, Dragoslava STOJILJKOVIĆ, Vladimir JOVANOVIĆ Univerzitet u Beogradu - Mašinski fakultet, Srbija
UTICAJ SIROVINE ZA PALETE NA ENERGETSKE I EKOLOŠKE KARAKTERISTIKE PEĆI MALE SNAGE ZA DOMAĆINSTVO
12:05-12:15 Maria ICHIM, Liviu ICHIM, Institute of Bioengineering, Biotechnology and Environmental Protection, S.C. BIOING S.A. Bucharest, Rumunija, Nicolae CORNEA, Paul VASILESCU, Frumuzache BARCA, University “Politehnica” Bucharest, Chemical Engineering Department Bucharest, Rumunija
PROCES SAGOREVANJA ĈVRSTIH GORIVA
12:15-12:25 Stevan RAUSAVLJEVIĆ, Novi Sad, Srbija BIOMASA KAO IZVORA ENERGIJE ZA DOBIJANJE TEHNOLOŠKE PARE U FABRICI SOJAPROTEIN
IZ BEĈEJA
11:05-13:15 Energetska efikasnost – industrija i zgradarstvo Sala B
Uvodno predavanje:
11:05-11:25 Goran JANKES, Mirjana STAMENIĆ, Univerzitet u Beogradu - Mašinski fakultet, Srbija EFIKASNOST PROIZVODNJE TOPLOTNE ENERGIJE U INDUSTRIJI SRBIJE
11:25-11:35 Florin NITU, Attila CSUKA, Elcoteq Magyarország Kft., MaĊarska UTICAJ POVEĆANJA PRODUKTIVNOSTI NA ENERGETSKU EFIKASNOST – STUDIJA SLUĈAJA
11:35-11:45 Antonio LETO, Bosna i Hercegovina NOVI SISTEMI ENERGETSKE EFIKASNOSTI U SEKTORU RASHLADE
11:45-11:55 Bojan SLAVKOVIC, “Knjaz Miloš“, Srbija, Nikola MARKOVIC, Bojan SOKCIC, "Ogiterm", Beograd, Srbija, Zoran GOLUBOVIC, Univerzitet u Beogradu - Mašinski fakultet, Srbija
KORIŠĆENJE OTPADNE TOPLOTE SA RASHLADNIH KOMPRESORA KAO IZVORA ENERGIJE ZA GREJANJE
11:55-12:05 Slobodan PEJKOVIC, “Filterfrigo“, Beograd, Srbija VEOMA EFIKASNO HLAĐENJE CENTRA SA BAZOM PODATAKA KORIŠĆENJEM VIŠESTRUKOG
RASHLADNOG SISTEMA SA BEZULJNIM TURBOKOMPRESORIMA PROMENLJIVE BRZINE
12:05-12:15 Dimitrije LILIC, Agencija za energetsku efikasnost Republike Srbije PROJEKAT ENERGETSKE EFIKASNOSTI U SRBIJI IDA KREDIT 3870 YF KOMPONENTA B: JAVNE
ZGRADE – ŠKOLE I BOLNICE - FINALNI REZULTATI PROJEKTA
12:15-12:25 Gordana STOJANOVIC, Agencija za energetsku efikasnost Republike Srbije 3M – MERA I MONITOR ZA UPRAVLJANJE – ODRŢIVI REZULTATI U ENERGETSKI EFIKASNIM
JAVNIM ZGRADAMA SA UGRAĐENIM DODATNIM UREĐAJIMA ZA ENERGETSKU EFIKASNOST
12:25-12:35 Dijana DUKIC, Novi Sad, Srbija DOPRINOS STUDIJI ENERGETSKIH PERFORMANSI ZGRADA-SOFTVERSKE PODRŠKE ZA
PRORAĈUN
12:35-12:45 Dijana DUKIC, Novi Sad, Srbija, Fionna MOON, Australija KORIŠĆENJE HEED SOFTVERA U ANALIZI ENERGETSKIH PERFORMANSI ZGRADA
12:45-12:55 Marija ŢIVKOVIĆ, Ţarko STEVANOVIĆ, Institut nuklernih nauka „Vinĉa“, Srbija VREDNOVANJE SKRINING STRATEGIJA (EKRANIZACIJE) ZA OCENU KVALITETA VAZDUHA U ZATVORENOM PROSTORU KOD ZGRADA SA KLIMATIZACIJOM
12
12:55-13:05 Sladjana JEVREMOVIC, Opštinska uprava Varvarin, Srbija IZRADA ENERGETSKOG BILANSA I USPOSTAVLJANJE ENERGETSKOG MENADŢMENTA JAVNIH
OBJEKATA
13:05-13:15 Nebojsa MIŠIĆ, Zoran BISERČIĆ, Vaillant, Srbija DECENTRALIZOVANA PROIZVODNJA ELEKTRIĈNE I TOPLOTNE ENERGIJE – MIKRO
KOGENERACIJA
13:15-15:00 Pauza za ručak
15:00-16:00 Obnovljivi izvori energije – sunčeva i geotermalna energija Sala A
15:00-15:10 Rastislav KRAGIĆ, Agencija za energetsku efikasnost Republike Srbije REZULTATI PROJEKTA "RAZVOJ KAPACITETA ZA KORIŠĆENJE I PROMOCIJU SOLARNE
ENERGIJE U SRBIJI"
15:10-15:20 Ţeljko ĐURIŠIĆ, Univerzitet u Beogradu - Elektrotehniĉki fakultet, Srbija, Maja GRBIĆ, Elektrotehniĉki
institut „Nikola Tesla”, Beograd, Srbija ANALIZA EFIKASNOSTI FOTONAPONSKIH SISTEMA U SRBIJI U REALNIM USLOVIMA
EKSPLOATACIJE
15:20-15:30 Aleksandra GRUJIĆ, Visoka škola elektrotehnike i raĉunarstva, Beograd, Srbija, Dragan BELJIĆ, Kolubara metal d.o.o, Vreoci, Srbija
DIMENZIONISANJE SOLARNIH KOLEKTORA POMOĆU PROGRAMA SOLARBERATER
15:30-15:40 Dušan ĐURĐEVIĆ, Fakultet tehniĉkih nauka, Kosovska Mitrovica, Srbija PREGLED MODERNIH FOTONAPONSKIH TEHNOLOGIJA I NJIHOVIH PRAKTIĈNIH PRIMENA
15:40-15:50 Milan KEKANOVIĆ, GraĊevinski fakultet Subotica, Srbija, Dragoslav ŠUMARAC, GraĊevisnki fakultet u Beogradu, Srbija, Arpad ČEH, GraĊevinski fakultet Subotica, Srbija, Stanko ĆORIĆ, GraĊevisnki fakultet u Beogradu, Srbija,
AKUMULACIJA SUNĈEVE ENERGIJE OKO IZMENJIVAĈA TOPLOTE SA SILAZNIM OTVOROM
15:50-16:00 Predrag M. VULETIĆ, Krušik akumulatori, Valjevo, Srbija NEKA RAZMATRANJA KONSTRUKCIONO – TEHNOLOŠKIH PARAMETARA NI-CD AKUMULATORA
ZA OPTIMALNO SKLADIŠTENJE ENERGIJE SUNCA I VETRA
15:00-16:00 Energetska efikasnost – različite oblasti Sala B
15:00-15:10 Boţidar ŢAKULA, Nebojša ŢAKULA, Beograd, Srbija ZAKONI EVOLUCIJE TEHNIKE I REŠAVANJE PROBLEMA ENERGETSKE EFIKASNOSTI
15:10-15:20 Damir ĐAKOVIĆ, Fakultet tehniĉkih nauka Novi Sad, Srbija KAKO BIOT BROJ MOŢE DA UTIĈE NA ANALIZU PROCESA SUŠENJA ZRNASTIH MATERIJALA?
15:20-15:30 Davor VUJANOVIĆ, Vladimir MOMČILOVIĆ, Vladimir PAPIĆ, Nebojša BOJOVIĆ, Univerzitet u Beogradu - Saobraćajni fakultet u Beogradu, Srbija
UTICAJ UPRAVLJANJA PROCESOM ODRŢAVANJA VOZNIH PARKOVA NA ENERGETSKU EFIKASNOST
15:30-15:40 Dragan RISTIVOJEVIĆ, Zoran MILOSAVLJEVIĆ, PD. RB. Kolubara-Površinski kopovi, Srbija POUZDANOST RADA USMERENE ZEMLJOSPOJNE ZAŠTITE U 35KV-TNOJ UZEMLJENOJ MREŢI
P.K. “TAMNAVA – ZAPADNO POLJE “ PRI POVEĆANJU DUŢINE KABLOVSKE TRASE
15:40-15:50 Igor HUT, Dejan NINKOVIĆ, Inovacioni centar Mašinskog fakulteta u Beogradu, Srbija PRIMENA NANOTEHNOLOGIJE ZA ODRŢIVU ENERGETSKU PROIZVODNJU – AKTUELNI
TRENDOVI I BUDUĆI RAZVOJNI PRAVCI
15:50-16:00 Mirjana LAKOVIĆ, Mladen STOJILJKOVIĆ, Slobodan LAKOVIĆ, Mašinski fakultet Niš, Srbija KOMPARATIVNA ANALIZA ENERGETSKE EFIKASNOSTI TERMOELEKTRANA SA OTVORENIM I
ZATVORENIM RASHLADNIM SISTEMOM
16:00-16:30 Pauza
16:30-18:00 Prezentacije sponzora Sala A
21:00 Svečana večera Hotel GRAND
Subota 25.jun 2011.
10:00-11:30 Okrugli sto Sala A
11:30-12:30 Skupština Društva termičara Srbije Sala A
TREĆA REGIONALNA KONFERENCIJA INDUSTRIJSKA ENERGETIKA I ZAŠTITA ŽIVOTNE SREDINE U ZEMLJAMA JUGOISTOČNE EVROPE – IEEP 2011, Srbija - Kopaonik, 21-25. jun 2011.
THIRD REGIONAL CONFERENCE IDUSTRIAL ENERGY AND ENVIRONMENTAL PROTECTION IN SOUTH EASTERN EUROPEAN COUNTRIES – IEEP 2011, Kopaonik - Serbia June 21-25, 2011
ZBORNIK RADOVA – CONFERENCE PROCEEDINGS / ZBORNIK APSTRAKATA – BOOK OF ABSTRACTS
Izdavanje Zbornika apstrakata i CD sa radovima in extenso pomoglo je Ministarstvo za prosvetu i nauku Republike Srbije. / The publishing of this book and CD with papers in extensor was made possible by the support of the Ministry of Education and Science of the Republic of Serbia.
Sve apstrakte su pregledali članovi Međunarodnog Programskog odbora. / All abstracts have been reviewed by the members of the International Program Committee.
Svi radovi su objavljeni onako kako su dostavljeni, bez dorade. / All papers are published as they are delivered, without any corrections.
Izdavač / Publisher Društvo termičara Srbije, Kraljice Marije 16, 11000 Beograd Glavni i odgovorni urednik / Chief Editor Prof. dr Milan Radovanović Priprema i tehnička obrada / Prepres and Technical Editor: BBN Congress Management d.o.o., Deligradska 9, 11000 Beograd Tel/faks: +38111/2682318, 3629405, 3629402, fax: 3629406 E-mail: [email protected], Web: www.bbn.co.rs Dizajn korica / Cover Design: Marija Marković Štampa / Printing Office: Štamparija Radunić, Beograd Tiraž / Circulation: 180
CIP - Каталогизација у публикацији Народна библиотека Србије, Београд 620.9(082)(0.034.2) 502/504(082)(0.034.2) РЕГИОНАЛНА конференција Индустријска енергетика и заштита животне средине у земљама југоисточне Европе (3 ; 2011 ; Копаоник) Zbornik radova [Elektronski izvor] = Proceedings ; Knjiga apstrakata = Book of Apstracts / Treća regionalna konferencija Industrijska energetika i zaštita životne sredine u zemljama jugoistočne Evrope - IEEP '11, 21-25 jun 2011, Kopaonik, Srbija = Third Regional Conference Industrial Energy and Environmental Protection South Eastern European Countries, June 21-25, 2011, Kopaonik Serbia ; [organizatori Društvo termičara Srbije [i] Republika Srbija, Agencija za energetsku efikasnost = oraganizers Society of Thermal Engineers of Serbia [and] Republik of Serbia, Energy Efficiency Agency ; glavni i odgovorni urednik, chief editor Milan Radovanović]. - Beograd : Društvo termičara Srbije, 2011 (Beograd : Radunić). - 1 elektronski optički disk (CD-ROM) ; 12 cm Sistemski zahtevi: Nisu navedeni. - Nasl. sa naslovnog ekrana. - Radovi na srp. i engl. jeziku. - Tiraž 180. - Bibliografija uz svaki rad. - - Zbornik apstrakata / Treća regionalna konferencija Industrijska energetika i zaštita životne sredine u zemljama jugoistočne Evrope - IEEP '11, 21-25 jun 2011., Kopaonik, Srbija = Book of Apstracts / Third Regional Conference Industrial Energy and Environmental Protection South Eastern European Countries, June 21-25, 2011, Kopaonik Serbia. - 59 str. ; 30 cm ISBN 978-86-7877-022-7 1. Радовановић, Милан [главни и одговорни уредник] 2. Друштво термичара Србије (Београд) 3. Агенција за енергетску ефикасност (Београд) a) Енергетика - Зборници b) Животна средина - Заштита - Зборници COBISS.SR-ID 184481804
1
THE PUBLIC RELATIO� MA�AGEME�T I� THE PROMOTIO�
OF ELECTRIC DRIVES E�ERGY EFFICIE�CY POLICY1
Dragana BJEKIĆ, Technical faculty Čačak – Kragujevac University, Čačak, Serbia Miroslav BJEKIĆ, Technical faculty Čačak – Kragujevac University, Čačak, Serbia
Miloš BOŽIĆ, Technical faculty Čačak – Kragujevac University, Čačak, Serbia Marko ROSIĆ, Technical faculty Čačak – Kragujevac University, Čačak, Serbia
1. I�TRODUCTIO�
Many scientific studies on energy efficiency show that electric motor drives (EMD) consume less than 60% of total electrical energy in industry, both in developed and developing countries. Many electric motor drives enable great electrical energy savings (up to 60%) with very short investment payback periods. The realization of the idea concerning the savings of electrical energy in electric motor drives is the subject of a great number of programmes and measures that are being undertaken by many countries in the world, especially EU countries. There is no unique programme for energy efficiency that would cover all EMD types. The users’ behaviour must be the framework for any successful energy efficiency programme. Energy efficient behaviour has become part of the national energy efficiency strategies and policy. Energy efficient behaviour is the framework (and one of the important agents) to the implementation of the concept of electric drives energy efficiency policy (EDEEP), too. In order to develop a positive awareness of the importance of energy efficiency, the education in this field should be implemented at higher electric engineering education institutions, policy makers’ institutions and industrial/work organizations. The public relations activities are the supporting activities of the implementation of energy efficient electric motors and drives. Development of the energy efficiency awareness and behaviour in the field of the electric drive energy efficiency is important aspect of the promotion EEED.
1 The paper is developed as a part of the project TR33016.
2
2. CO�CEPT OF E�ERGY EFFICIE�CY OF ELECTRIC DRIVES (EEED)
According to new researches, about 40% of total electric energy consumption and over 60% of electric energy in the industry is used in electric drives systems [Jacob, 1], [2], [3], [Ryan, 4]. For example, about 70% of the electricity consumed in Danish factories goes to motor-driven systems. Several studies estimate potential levels of saving electric energy in electric drives between 5% to 30% [2]. In the world, about 46% of the global electricity demands by electric motor systems [1], (table 2.1., fig. 2.1.). These facts emphasise the concept of the electric drives energy efficiency, and activities and measures to improve it.
Table 2.1. Electricity consumption in the world, 2006 Unit Value Electricity production global TWh/a 19.000 Electricity for industrial motors (40% of total consumption)
TWh/a 7.400
Capacity for electric motors (peak)
TWe 1.6 to 2.3
Motor electricity, greenhouse gas emissions
Mt CO2/a
4.300
Motor system energy efficiency improvement potential (average within life cycle 10..20 years)
Range 20-30%
25%
Electricity saving potential TWh/a 1.850 Greenhouse gas emission reductions potential
M t CO2/a
1.250
Electricity cost savings potential (industrial end-users)
Billion Euro/a
100 Fig. 2.1. Consumption of electric energy in the
world 2006 [1]
The main categories of electric energy consumers in Serbia: industry, traffic (vehicles with electric traction), agriculture, commercial and public sector, residential consumption etc. For example, there is the review of the great consumers of the electric energy in Belgrade [5] (table 2.2, fig. 2.2)
Table 2.2. Great electric energy consumers in Belgrade
Consumer sector 2005 2006 Industry 18% 18% Traffic 1% 1% Agriculture 1% 1% Commercial and public sector 19% 20% Residential consumption 46% 45% Neto consumption 84% 85% Losses 16% 15% Total energy from system 100% 100%
Fig. 2.2. Consumption of electric energy in
Belgrade 2006 [5] 2.1. Implementation of energy efficient electric motor drives
The industrial electric drives, most frequently used in pumps, fans and compressors, are combined with some other components. Optimization of energy consumption is only efficient at the system level when all its components, not only the electric drive, are taken into consideration. In most cases the performance of EMD is not static but dynamic. Therefore, it is necessary to optimize the system in order to satisfy different performing conditions.
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The analysis of programmes in different world countries shows that the key measure is to satisfy the Minimum Energy Performance Standards (MEPS) concerning electric motors as key components in EMD [De Almeida, 6]. What is a possibility to improve energy efficiency of electric motor? The efficiency of electric motors can be improved by [De Keluenaer et al, 7]: reducing the losses in the windings; using better magnetic steel; improving the aerodynamics of the motor; improving manufacturing tolerances. Objectives of the electric motor energy efficiency policy are: reducing maximal engaged energy; reducing power losses and consumption of active power, and reducing reactive load and consumption of reactive power (excessively reactive power compensation) [Kostic, 8]. What is the field of energy efficient electric motors implementations? The Electric Motor Systems Annex (EMSA), the document of International Energy Agency, bundles best technical practice and policy know-how in order to stimulate market transformation towards energy efficiency in the field of electric motor systems and their applications in industry, infrastructure and large buildings [2]. The project deals with pumps, fans, compressors, industrial handling & processing. The range of electric motor systems to be treated in EMSA is clearly defined. Major focus are the poly-phase electric motors between 0.5 and 500 kW that carry the bulk of the load to drive pumps, fans, compressors and mechanical drives. These machines are produced worldwide in large quantities and are used globally. The majority of the motors are AC, 2-, 4- and 6-pole and with 200 V to 1000 V. The scope of EMSA also includes new emerging motor technologies with higher efficiencies and motor controls [2]. What are the effects of implementation of energy efficient electric motors in industry, infrastructure and large buildings? Some of effects are [4], [9]: saving energy and saving money; reducing consumption of primary energy sources; indirectly reducing greenhouse gas emissions; generating less internal heat; prolonging the life of electric motors and drives; reducing process downtime, reducing maintenance requirements etc. Great consumers of electricity with great electric motors and drives, such as industry, mines, thermal power plant, commercial consumptions, are interested to the measures of rational use of electric energy.
2.2. Barriers to EEED implementation
The saving potential of energy efficient motor drive systems is very important, but the implementation of the energy efficient drive systems hasn’t enough. There are lot of barriers to realization of electric drives energy efficiency concept, especially in market field [7]:
� Major barriers: pay-back time is too long due to low electricity prices; reluctance to change a working process; split budgets;
� Medium barriers: not all parties in the supply chain are motivated; lack of correct definitions of motor system efficiency; oversizing due to lack of knowledge of mechanical characteristics of load; lack of management time;
� Moderate barriers: shortage of capital; other functional specifications conflict with energy efficiency.
The most important actions to overcome the barriers and achieve success (adapted from [7]): 1. regulation: creating efficiency classes, licensing of motor systems etc.; 2. information and education: providing publications and seminars, tackling issues from
the point of view of the target audience; 3. shop floor assistance – decision-support tools (electronic databases, energy savings
calculators, education of personnel on the job and, above all, energy audits);
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4. financial support – kick-start promotional debates, support of distributors, enhanced capital allowances, special elasing constracts and trading of emission credits;
5. working with suppliers: the ideal partners of distributing information, but a perceived loss of independence should be avoided.
6. environmental standards: accreditations as a framework to promote efficiency; 7. support of designing and manufacturing more energy efficient products; 8. procurement and life cycle costing – a proven technique to increase business and
environmental performance at the same time; 9. integrated approach (integration of the above solutions).
3. E�ERGY EFFICIE�T BEHAVIOUR OF ELECTRIC DRIVE USERS
Most of energy efficiency programmes and projects have focused primary on physical upgrades, technologies, and purchasing habits, or administrative and operational areas of energy use [McMakin, 10]. The energy-related groups’, organizational and individual behaviours of electric drives energy efficiency have received little formal attention. Behaviour-based change is challenging, but potentially fruitful area for energy efficiency and energy conversation programmes [10]. Efforts to change behaviours involve links with values, social networks and organizations, and new ways of thinking about energy efficiency concept. Development of energy efficiency awareness, and behaviour based on it, are complex processes, which are circularly linked with the energy resource management [Mohammed et al, 12]. Understanding of environmental demands, and the other inputs, is important to change behaviour. Development of energy awareness is the individual and social process. The social impact from energy efficiency organizations and management is formative to individual energy saving awareness. It is the basic energy awareness stimuli. At the strategic level, country’s and government organizations and agencies give directions and organize the energy efficiency education. Canadian Office of energy efficiency [8] has developed a step-by-step program to improve energy efficiency awareness. According to the programme, a comprehensive awareness programme can support and reinforce the overall objectives of energy efficiency initiative. Implementation of this program in the field of development awareness of electricity saving, brings about the following goals:
� to increase understanding of electricity saving benefits; � to create the link between individual actions and behaviour, at the one side, and energy
use and potential saving in the company, at the other side; � to motivate consumers and decision-makers to modify own behaviour that affects
energy consumption; � to reduce electricity consumption and save money.
Some kinds of reinforcement are needed for permanent acquisition and applicable energy saving awareness. Electric rates, which are one of the information of electricity consumption, are stimulator to less energy use. But, the price of electric energy in Serbia is low, and it is a factor of destimulation of energy efficient electric drives implementation. What kind of information is effective to develop electricity saving behaviour? These are [Bjekic et al, 13]:
� periodical and/or continual information about the electric energy consumption; relevant feedback can improve electricity saving, because the successful feedback has to capture the consumers’ attention, to link specific action to their effects and to activate various motives;
� information about energy effective electric motors: � information about the electric motor / electric drives comparisons;
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� information about the energy efficiency behaviour, � information about the local and global effects of electricity saving, etc.
Different population have different trust to sources of information, and different kind of message is formative for different employers and users of electric drive in industry and in the other context.
4. PUBLIC RELATIO�S MA�AGEME�T OF E�ERGY EFFICIE�T ELECTRIC
DRIVES IMPLEME�TATIO�
Strategies of energy efficient behaviour are based on education, marketing and market transformation, public relations procedures etc. The public is the group of people or group of organizations which are linked by the same problems, interests, needs. The public opinion is a characteristic of the public. It is a dominant set of attitudes of some groups to some phenomena. What public is relevant to implementation EEED concept? Industrial companies and producers as industrial public, financial organization as financial public, government institutions and government supported organizations and agencies are immediately/directly relevant public to implementation EEED concept. Analysis of public relations strategies and procedures, their impact on energy efficient attitudes and behaviour, is the basis to development of adequate procedures to establish electric drives energy efficiency in the industrial surrounding [Stanić, 14], [Rezessy et al. 15], [Marinković et al, 16], [Pješivac, 17]. 4.1. Public relation strategy in EEED promotion
Public relation activities make impact on changing, creating or reinforcing public opinion. Public relation strategy is the general longitudinal plan of goals and activities. Tactics of the public relation consists of the operacionalized activities in the relatively short term. Strategic function of public relation is developing the relationship and connections with strategically important target groups [14], and developing agreed commitments to relevant themes. Some strategies and methods of public relation management are applicable for improving EEED. Systematic approach to public relation is the activity of the organization’s or project’s top manager. The systematic strategic approach consists of:
� setting goals of EEED promotion and implementation; � analyzing the structure, characteristics and needs of efficient electric drives users; � defining strategy and tactics of public relation activities; � creating messages in the form suited to the characteristics of target groups; � defining the most appropriate communication channels and means; � defining the budget to the realization of public relation programmes; � planning the evaluation of public relation activities.
Processes of information and dissemination are the fundamental processes of public relations in the field of EEEE. Impact on public opinion creators and public opinion leaders is the important aspect of public relation in the field of promotion and implementation concept of electric drives energy efficiency. Public opinion creators and public opinion leaders are: managers in the field of energy efficiency, leaders of top electric motor and electric drives industry and manufacturing, leaders of commercial teams in trade companies (distributors and sellers of efficient electric motors), top manager in industry, and scientist and teachers.
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Operazionalized activities of designing and executing public relations of EDEE practical activities [10]:
� establish goals, or desired outcomes; � establish objectives to achieve goals; � set a budget that covers all labour, materials, production, distribution, activities, and
monetary incentives; � set a schedule to keep the work on track and to include time-specific events; the
schedule may be influenced by the availability of energy-use data and the time required for behaviour change;
� understand base setting by talking with constructors, producers, users and consumers of electric drives systems; use input from them to design a campaign that is tailored to the site; use focus groups and interviews to learn what employers and responsible officials are interested in and willing to do; talk with base communication personnel to learn about their requirements, deadlines, and approval processes;
� consider a pre-survey: it can be used to design campaign, select logos, slogans, and incentives, form a baseline for later comparison and evaluation, and begin introducing the target actions;
� identify desired behaviours: choose actions that are available, feasible, and reasonable; emphasize the actions with the greatest potential for savings;
� select themes, messages, and visual support; � choose communication channels, use a variety of channels and repeat information for
best coverage; � identify motivators and incentives to prompt behaviour change; emphasize gain rather
than deprivation; use personal, interactive contact; use feedback to show how much energy the system (users of electric drive) have saved over time; work with reference professional groups and decision-makers; make information vivid, relevant, and personalized;
� produce and distribute information about the campaign itself, the targeted behaviours, progress, and final results and rewards;
� conduct activities and involve representatives of target groups; use interactive activities to share information and invite participation;
� educate future engineers, producers of energy efficient electric motor and users of energy efficient electric motors to stand their mission, clarify each others’ roles, and be prepared to provide tailored information materials.
Based on the review and analysis of realization public relation activities in the field of energy efficiency [13], [14], [15], [16], [17], we suggest some methods, activities and communication network to use in cooperation with target groups that are responsible to realize the concept of electric drives energy efficiency What public relation activities are relevant to the promotion and implementation of EEED? Depending on a target group, public relations of EEED include:
� symposia for researchers, scientist, top engineers, teachers of electric drives, teachers of energy efficiency, the main producers of electric drive/motor, and the other specialists in this field;
� fair promotion for representatives of industry, managers of industry, managers of public sector and media, sales managers;
� promotion on WWW (energy efficiency web page [18], EEED web page, portal of EEED laboratory [19] etc.), professional discussion groups, networking of specialists and users;
� special events: producers’ presentations, press conference; � special editions of EEED and EEED web portals with interactive capacities for target
groups participation etc.
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4.2. Campaign in the promotion of EEED
Public relation activities in the field of EEED usually start with the information and dissemination campaign (like the other PR oriented activities of energy efficiency policy implementation) by introducing the problem and focusing the target group’s attention, educating target group, motivating them, and influencing to their attitudes and behaviours [Pješivac, 17]. Campaign is a common method of public relations. It consists of a set of sequential activities focused on the special target groups, with goals to promote and implement the concept of energy efficiency electric motor drives in short time, or limited period. This text uses the term “campaign” to represent all energy-efficiency communication efforts of limited duration. An important part of energy efficiency campaign is the enthusiasm of a person or people who can pull together resources and get things done at the site The following elements should be in place for an effective campaign [10]:
- supporting and approving of energy manager; - funding and providing of incentives; - developing of a team with specialized skills - a team must have: adequate time and
resources available to design and execute the campaign, developed communication skills, experience in research field, conducting focus groups and interviews, developing activities, producing targeted information materials, and evaluating results; some of members should be experienced in graphic design, some of consulting;
- accessing to communication channels and production capabilities and resources; some of them should be experienced to producing printed materials, video materials etc;
- linking with institutional groups; - evaluating campaign procedures and effects.
An energy-efficiency effort can take on three approaches: a short-term campaign, a kick-off campaign as part of a longer effort, and an ongoing endeavour [10].
- Short-term campaign is a limited-term campaign of less than one year; it is useful when testing approaches and activities specific to a particular context;
- Kick-off campaign or relatively longer campaign: kick-off campaign raises awareness and attention to start a more sustained effort.
- Ongoing effort is focused on the persuading people to change their behaviour, selection and use of electric motors both in industry, infrastructure systems and infra-structure objects, large building, and small consumers (small pumps, compressors etc).
The important part of the energy efficiency promotion, especially in the field of the electric drives energy efficiency promotion in the industrial context, is evaluation of public relations procedures implementation [Bosseboeuf et al. 20], [Stojanović, 21]. CO�CLUSIO�
Electric motor drives (EMD) consume less than 60% of total electrical energy in industry, both in developed and developing countries. The analysis of energy efficiency programmes in different countries shows that the key measure is to satisfy the Minimum Energy Performance Standards (MEPS) concerning electric motors as key components in EMD. Energy efficient behaviour is the framework (and one of the important agents) to the implementation concept of electric drives energy efficiency policy. There are more barriers to implementation of energy efficient electric drives. But, the communication approach and public relations strategies and procedures should be able to support development the energy efficient behaviour in the field of electric drive energy efficiency. Campaign is usefulness public relations procedure. Some activities of public relations procedures and campaign are listed in the paper.
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