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9 results on '"Power and Thermal Engineering"'

1. Gyvenamojo beveik nulinės energijos pastato Lietuvoje valandinių energijos poreikių profilių sudarymas

Author: Martinaitis, Vytautas, Motuzienė, Violeta, Misevičiūtė, Violeta, Vilnius Gediminas Technical University, Lipovec, Anastasija, Martinaitis, Vytautas, Motuzienė, Violeta, Misevičiūtė, Violeta, Vilnius Gediminas Technical University, and Lipovec, Anastasija
Abstract: Baigiamajame magistro darbe sudaryti ir nagrinėti valandiniai energijos poreikių profiliai beveik nulinės energijos pastate. Įvertinta pastato sienų inercijos, pastato naudojimo režimo, natūralaus vėdinimo, langų ir apsaugos nuo salės priemonių įtaka poreikių profilių formai. Parinktos pastato energijos generavimo iš atsinaujinančių energijos šaltinių sistemos. Gyvenamojo vienbučio beveik nulinės energijos namo ir energijos poreikių modeliavimas atliktas DesignBuilder modeliavimo priemone. Renkantis sienų konstrukcijas su geresnėmis akumuliacinėmis savybėmis galima sutaupyti iki 4 % šildymo ir iki 8 % vėsinimo energijos. Dėl aktyvesnio pastato naudojimo režimo 16 % padidėja pastato energijos poreikiai. Pritaikius natūralų vėdinimą patalpoms vėsinti, vėsos poreikiai sumažėjo 49 %. Elektrochrominiai langai sumažino metinį vėsos poreikį 7 %, o išorinės žaliuzės – 22 %. PolySun modeliavimo priemone sumodeliuotos energijos aprūpinimo sistemos, naudojančios atsinaujinančius energijos išteklius: šilumos siurblys, saulės kolektorius ir fotovoltiniai saulės elementai. Pasirinkti pagrindiniai rodikliai parenkant pastato aprūpinimo energija sistemos įrangos dydį – atskirų posistemių valandiniai galių maksimumai. Per metus saulės elementuose bus pagaminama 2444 kWh elektros energijos, o tai padengia visą pastatui reikiamą elektros poreikį. Pastato pirminės energijos poreikis per metus 79 kWh/m2. Naudojantis modeliavimo priemonėmis ir valandiniais energijos poreikių profiliais... [toliau žr. visą tekstą], In this master thesis the hourly energy demand profiles of nearly zero-energy building were made and examined. The change in energy demand profiles was estimated depending on thermal inertia of the walls, the building occupancy profiles, natural ventilation, windows type and protection from solar radiation. The building energy generation from renewable sources systems were selected. The modelling of almost zero energy single family house and energy demand conducted with DesignBuilder simulation tool. Wall structures with improved accumulation properties can save up to 4 % of the heating and up to 8 % of the cooling energy. Enlarged occupancy of the building increased annual energy demand by 16 %. Applying natural ventilation for space cooling, the cooling energy demand reduced by 49 %. Electrochromic windows reduced the annual cooling energy demand by 7 %, while the external blinds – 22 %. Energy supply systems the heat pump, solar panels and photovoltaic solar cells modelled with Polysun simulation tool. Selected key indicators of the building energy supply system equipment size - hourly maximum demand. Over the year, the solar cells will produce 2444 kWh of electricity, which covers the entire building need. The primary energy consumption of the building 79 kWh/m2 per year. Using modelling tools and hourly energy demand profiles give clue to the modern near-zero energy building modelling process. Work size: 58 p. without annexes, 42 illustrations, 5 tables, 37 literature... [to full text]
Published: 2014

2. Vėdinimo įrenginių su integruotais šilumos siurbliais projektavimas, tyrimas ir analizė

Author: Biekša, Darius, Misevičiūtė, Violeta, Juodis, Egidijus Saulius, Šukys, Vytautas, Paulauskaitė, Sabina, Vilnius Gediminas Technical University, Bareika, Paulius, Biekša, Darius, Misevičiūtė, Violeta, Juodis, Egidijus Saulius, Šukys, Vytautas, Paulauskaitė, Sabina, Vilnius Gediminas Technical University, and Bareika, Paulius
Abstract: Magistro baigiamajame darbe nagrinėjami vėdinimo įrenginiai su integruotais šilumos siurbliais. Darbe atliekama tokios rūšies įrenginių literatūros apžvalga. Apžvelgiami šilumos siurblio komponentai, darantys didžiausią įtaką jo darbui. Darbo metu atlikti įrenginių projektavimo ir konstravimo darbai. Pateikiamos projektavimo rekomendacijos. Lyginami skirtingi kompresorių galios moduliacijos principai. Nagrinėjami įrenginių darbo režimai, kylančios problemos eksploatacijos metu, ieškomi problemų sprendimų būdai. Pateikiamos kintamo sukimosi greičio kompresorių galių moduliacijos ribos. Atliekamos energinė ir ekserginė analizės pagal eksperimentinio bandymo duomenis. Nustatomi realūs termodinaminio efektyvumo ir naudingumo koeficientai. Jautrumo analizės metu atliekami elektrinio šildytuvo efektyvumo ir naudingumo skaičiavimai. Pateikiami rezultatai, išvados ir rekomendacijos tokios rūšies įrenginių tobulinimui ir tolimesniam vystymui. Darbo apimtis – 94 psl. teksto be priedų, 66 iliustr., 7 lent., 43 bibliografiniai šaltiniai., Master's thesis examines air handling units with integrated air source heat pumps. Literature review about this type of units was carried out. An overview of mostly important heat pump‘s components are given. Thesis was an opportunity to design, construct and analyze these units. Different heat pump‘s operation modes examined and main issues turned out. Based on experimental data variable speed compressor's capacity modulation results defined. Moist air thermodynamic calculations have been made and air handling unit with integrated air source heat pump experimental energy and exergy efficiency was defined. Sensitivity evaluation changing heat pump with electric heater carried out. The main recommendation provided for units designing and further development. Thesis consist of 94 p. text without appendixes, 66 pictures, 7 tables, 43 bibliographical entries.
Published: 2013

3. Vėdinimo įrenginių su integruotais šilumos siurbliais projektavimas, tyrimas ir analizė

Author: Biekša, Darius, Misevičiūtė, Violeta, Juodis, Egidijus Saulius, Šukys, Vytautas, Paulauskaitė, Sabina, Vilnius Gediminas Technical University, Bareika, Paulius, Biekša, Darius, Misevičiūtė, Violeta, Juodis, Egidijus Saulius, Šukys, Vytautas, Paulauskaitė, Sabina, Vilnius Gediminas Technical University, and Bareika, Paulius
Abstract: Magistro baigiamajame darbe nagrinėjami vėdinimo įrenginiai su integruotais šilumos siurbliais. Darbe atliekama tokios rūšies įrenginių literatūros apžvalga. Apžvelgiami šilumos siurblio komponentai, darantys didžiausią įtaką jo darbui. Darbo metu atlikti įrenginių projektavimo ir konstravimo darbai. Pateikiamos projektavimo rekomendacijos. Lyginami skirtingi kompresorių galios moduliacijos principai. Nagrinėjami įrenginių darbo režimai, kylančios problemos eksploatacijos metu, ieškomi problemų sprendimų būdai. Pateikiamos kintamo sukimosi greičio kompresorių galių moduliacijos ribos. Atliekamos energinė ir ekserginė analizės pagal eksperimentinio bandymo duomenis. Nustatomi realūs termodinaminio efektyvumo ir naudingumo koeficientai. Jautrumo analizės metu atliekami elektrinio šildytuvo efektyvumo ir naudingumo skaičiavimai. Pateikiami rezultatai, išvados ir rekomendacijos tokios rūšies įrenginių tobulinimui ir tolimesniam vystymui. Darbo apimtis – 94 psl. teksto be priedų, 66 iliustr., 7 lent., 43 bibliografiniai šaltiniai., Master's thesis examines air handling units with integrated air source heat pumps. Literature review about this type of units was carried out. An overview of mostly important heat pump‘s components are given. Thesis was an opportunity to design, construct and analyze these units. Different heat pump‘s operation modes examined and main issues turned out. Based on experimental data variable speed compressor's capacity modulation results defined. Moist air thermodynamic calculations have been made and air handling unit with integrated air source heat pump experimental energy and exergy efficiency was defined. Sensitivity evaluation changing heat pump with electric heater carried out. The main recommendation provided for units designing and further development. Thesis consist of 94 p. text without appendixes, 66 pictures, 7 tables, 43 bibliographical entries.
Published: 2013

4. 10 kV tinklo elektros energijos nuostolių tyrimas

Author: Grigaitis, Arūnas, Smilgevičius, Algirdas, Butkevičius, Gintas, Buivis, Leonardas, Valiulis, Gediminas, Siauliai University, Žaluda, Audrius, Grigaitis, Arūnas, Smilgevičius, Algirdas, Butkevičius, Gintas, Buivis, Leonardas, Valiulis, Gediminas, Siauliai University, and Žaluda, Audrius
Abstract: Šiame darbe nagrinėjama skirstomojo 10 kV tinklo komercinių nuostolių kilmė tinkle, jų atsiradimo priežastys. Apskaičiuojami 10 kV linijų nuostoliai, kurie yra nagrinėjami pagal atsiradimo pobūdį – nuostolius perdavimo linijose ir galios transformatoriuose. Apskaičiuojamas transformatorių apkrovimas, teikiami pasiūlymai kaip galėtų sumažinti technologines sąnaudas., In this research Work analized the Source of Electricity Losses in 10 kV distribution Electricity Network, their causes. Calculated the Losses, the Losses according to the nature of the occurance – Losses in transmission Lines and Power Transformers. Calculated the Load of power transformators, proposals to mitigate the technological costs.
Published: 2013

5. Gedimų elektros tinklų 0,4-10 kV linijose tyrimas

Author: Šulčius, Nerijus, Smilgevičius, Algirdas, Buivis, Leonardas, Butkevičius, Gintas, Nevardauskas, Enrikas Vilimantas, Šimkevičius, Teodoras, Valiulis, Gediminas, Siauliai University, Blėdis, Donatas, Šulčius, Nerijus, Smilgevičius, Algirdas, Buivis, Leonardas, Butkevičius, Gintas, Nevardauskas, Enrikas Vilimantas, Šimkevičius, Teodoras, Valiulis, Gediminas, Siauliai University, and Blėdis, Donatas
Abstract: Šiame darbe nagrinėjamos skirstomojo tinklo 0,4- 10 kV linijų gedimų problemos, remiantis mokslinės literatūros analize ir praktinio darbo patirties apibendrinimu. Nustatomi Šiaulių regiono kiekvieno rajono elektros tinklų 0,4-10 kV linijų gedimų skaičius, atjungtų vartotojų skaičius, atjungimų trukmės ir priežastys. Apskaičiuojami Šiaulių regiono kiekvieno rajono elektros tinklo patikimumo rodikliai, daugiausiai gendančios elektros linijos parengties ir priverstinės prastovos koeficientai bei veikimo ir gedimo tikimybės per 12 mėnesių., This paper deals with the distribution network of 0.4 and 10 kV line fault problems based on the scientific literature and practical experience. The number of faults, the number of disconnections, the disconnections times and reasons of 0.4-10 kV grid lines of Šiauliai region have been investigated. Reliability indicators of electrical network of Šiauliai region have been calculated. Working and failure probabilities of the electrical network during 12 months have been calculated.
Published: 2012

6. Mažaenerginio administracinio pastato sezoninės energijos poreikių ypatybės

Author: Martinaitis, Vytautas, Jaraminienė, Eglė, Paulauskaitė, Sabina, Valančius, Kęstutis, Kveselis, Vaclovas, Rynkun, Genrika, Rogoža, Artur, Vilnius Gediminas Technical University, Subačiūtė, Ieva, Martinaitis, Vytautas, Jaraminienė, Eglė, Paulauskaitė, Sabina, Valančius, Kęstutis, Kveselis, Vaclovas, Rynkun, Genrika, Rogoža, Artur, Vilnius Gediminas Technical University, and Subačiūtė, Ieva
Abstract: Baigiamajame magistro darbe nagrinėjamas mažaenergis administracinis pastatas ir AEI panaudojimo jame galimybės Lietuvos meteorologinėmis sąlygomis. Naudojant modeliavimo priemonę TRNSYS sukuriami mažaenerginio administracinio pastato bei AEI sistemų skaičiavimo – valdymo modeliai: saulės kolektoriai, foto elementai, vėjo jėgainės, šilumos siurbliai, imantys šilumą iš grunto bei oro. Atlikus modeliavimą gauti pastato energijos suvartojimai šildymui (54 kWh/m2), vėsinimui (20 kWh/m2) bei elektros (48 kWh/m2). Metiniame pastato energijos balanse, energija pagaminta iš AEI gali padengti 56,6% reikalingos šiluminės energijos, 102,9 % energijos reikalingos vėsinimui ir 4,5 % reikalingo elektros kiekio. Pastato energijos poreikių jautrumo analizė atliekiama 3 pastato variantams. Pastebėta, kad esant didesniam stiklinių atitvarų plotui pietinėje pastato pusėje pagamintas šilumos kiekis iš AEI gali padengti net 85 % pastatui reikalingo šilumos kiekio. Tačiau beveik du kartus išaugo energijos poreikis pastato vėsinimui. Mažiausias vėsinimo kiekis reikalingas stačiakampio ploto pastatui. Apibendrinus rezultatus, pateiktos išvados ir rekomendacijos. Darbą sudaro 5 dalys: įvadas, 5 skyriai, išvados ir rekomendacijos, literatūros sąrašas. Darbo apimtis – 63 p. teksto be priedų, 31 iliustr., 16 lent., 27 bibliografiniai šaltiniai. Atskirai pridedami darbo priedai., Thesis examined low energy office building and possibilities of renewable energy use in it by Lithuanian meteorology conditions. Using TRNSYS simulation tool the computing-control models for low energy office building and renewable energy systems (RES) (solar collectors, photovoltaic, wind turbines and heat pumps taking the heat from the soil and air) are created. After the simulation buildings’ energy consumption for heating (54kWh/m2), cooling (20 kWh/m2) and electricity (48 kWh/m2) were obtained. The annual building energy balance: an energy produced from RES can cover 56.6 % of the necessary thermal energy, 102.9 % of the energy required for cooling and 4.5 % required for electricity generation. The buildings’ energy demand sensitivity analysis is performed for three buildings’ variants. It is observed that of a larger area of the glass envelope of the building in southern direction the amount of heat produced from RES can cover up to 85% of the building required heat. However, almost twice rises electricity demand in cooling of the building. The minimum amount of cooling is required for a rectangular area building. Summarizing the results, conclusions and recommendations are presented. The work consists of 5 parts: introduction, 5 chapters, conclusions and recommendations, references. Work size – 63 pages without appendices, 31 figures, 16 tables, 27 references. Appendices.
Published: 2012

7. Mažaenerginio administracinio pastato sezoninės energijos poreikių ypatybės

Author: Martinaitis, Vytautas, Jaraminienė, Eglė, Paulauskaitė, Sabina, Valančius, Kęstutis, Kveselis, Vaclovas, Rynkun, Genrika, Rogoža, Artur, Vilnius Gediminas Technical University, Subačiūtė, Ieva, Martinaitis, Vytautas, Jaraminienė, Eglė, Paulauskaitė, Sabina, Valančius, Kęstutis, Kveselis, Vaclovas, Rynkun, Genrika, Rogoža, Artur, Vilnius Gediminas Technical University, and Subačiūtė, Ieva
Abstract: Baigiamajame magistro darbe nagrinėjamas mažaenergis administracinis pastatas ir AEI panaudojimo jame galimybės Lietuvos meteorologinėmis sąlygomis. Naudojant modeliavimo priemonę TRNSYS sukuriami mažaenerginio administracinio pastato bei AEI sistemų skaičiavimo – valdymo modeliai: saulės kolektoriai, foto elementai, vėjo jėgainės, šilumos siurbliai, imantys šilumą iš grunto bei oro. Atlikus modeliavimą gauti pastato energijos suvartojimai šildymui (54 kWh/m2), vėsinimui (20 kWh/m2) bei elektros (48 kWh/m2). Metiniame pastato energijos balanse, energija pagaminta iš AEI gali padengti 56,6% reikalingos šiluminės energijos, 102,9 % energijos reikalingos vėsinimui ir 4,5 % reikalingo elektros kiekio. Pastato energijos poreikių jautrumo analizė atliekiama 3 pastato variantams. Pastebėta, kad esant didesniam stiklinių atitvarų plotui pietinėje pastato pusėje pagamintas šilumos kiekis iš AEI gali padengti net 85 % pastatui reikalingo šilumos kiekio. Tačiau beveik du kartus išaugo energijos poreikis pastato vėsinimui. Mažiausias vėsinimo kiekis reikalingas stačiakampio ploto pastatui. Apibendrinus rezultatus, pateiktos išvados ir rekomendacijos. Darbą sudaro 5 dalys: įvadas, 5 skyriai, išvados ir rekomendacijos, literatūros sąrašas. Darbo apimtis – 63 p. teksto be priedų, 31 iliustr., 16 lent., 27 bibliografiniai šaltiniai. Atskirai pridedami darbo priedai., Thesis examined low energy office building and possibilities of renewable energy use in it by Lithuanian meteorology conditions. Using TRNSYS simulation tool the computing-control models for low energy office building and renewable energy systems (RES) (solar collectors, photovoltaic, wind turbines and heat pumps taking the heat from the soil and air) are created. After the simulation buildings’ energy consumption for heating (54kWh/m2), cooling (20 kWh/m2) and electricity (48 kWh/m2) were obtained. The annual building energy balance: an energy produced from RES can cover 56.6 % of the necessary thermal energy, 102.9 % of the energy required for cooling and 4.5 % required for electricity generation. The buildings’ energy demand sensitivity analysis is performed for three buildings’ variants. It is observed that of a larger area of the glass envelope of the building in southern direction the amount of heat produced from RES can cover up to 85% of the building required heat. However, almost twice rises electricity demand in cooling of the building. The minimum amount of cooling is required for a rectangular area building. Summarizing the results, conclusions and recommendations are presented. The work consists of 5 parts: introduction, 5 chapters, conclusions and recommendations, references. Work size – 63 pages without appendices, 31 figures, 16 tables, 27 references. Appendices.
Published: 2012

8. Geoterminės energijos panaudojimas pastatų grupės energijos poreikiams tenkinti

Author: Biekša, Darius, Paulauskaitė, Sabina, Lukoševičius, Valdas, Šukys, Vytautas, Jaraminienė, Eglė, Valančius, Kęstutis, Vaitiekūnas, Petras, Vilnius Gediminas Technical University, Poškaitė, Viktorija, Biekša, Darius, Paulauskaitė, Sabina, Lukoševičius, Valdas, Šukys, Vytautas, Jaraminienė, Eglė, Valančius, Kęstutis, Vaitiekūnas, Petras, Vilnius Gediminas Technical University, and Poškaitė, Viktorija
Abstract: Darbe projektuojama geoterminė jėgainė, kuri tiekia šiluminę energiją pastatų grupei. Darbą sudaro įvadas, keturi skyriai, išvados ir rekomendacijos bei literatūros sąrašas. Įvade pateikta nagrinėjamos temos problema, aktualumas, darbo tikslai ir uždaviniai bei praktinė darbo vertė. Pirmajame skyriuje pateikiami projektiniai duomenys pastatų grupei Tauragės miesto pavyzdžiu, aprašomi geoterminės energijos tipai bei jos panaudojimas pasaulyje ir Lietuvoje. Antrajame skyriuje analizuojamas Lietuvos geoterminis laukas bei parenkama projektuojamos geoterminės stoties vieta. Analizuojamos UAB „Geoterma“ iškilusios problemos ir nustatomos jų priežastys. Trečiajame skyriuje atliekamas metinio šilumos poreikio modeliavimas bei trijų energijos šaltinių techninis vertinimas kompiuterine programa EnergyPRO. Ketvirtajame skyriuje energijos šaltiniai vertinami ekonominiu ir aplinkosauginiu požiūriu, taip pat atliekama jautrumo analizė bei aprašomos prielaidos, naudotos darbe. Išanalizavus pastatų grupės energijos poreikius, atlikus techninius energijos šaltinių vertinimus ir reikalingus skaičiavimus šilumos gamybos galimybėms įvertinti, teikiamos išvados ir rekomendacijos. Pridedama: trijų energijos šaltinių schemos. Darbo apimtis – 65 p. be priedų, 35 pav., 15 lent., 19 literatūros šaltinių., There is designed geothermal power plant that supplies thermal energy group of buildings in this paper. The work consists of four chapters, conclusions, recommendations and references. The introduction is about the problem of the topic, the relevance, the work goals, objectives and the practical value of the work. The first chapter provides design details of buildings group using Taurage's city example, describes the types of geothermal energy and its use in the world and in Lithuania. The second chapter analyzes the Lithuanian geothermal area, also the place for designed geothermal station is selected. Analyze the problems encountered in Geoterma company and identify their causes. There is modeling an annual heat demand and performed the three technical evaluation of energy sources with a computer program EnergyPRO. There is assessed the economic sources from energy and environmental point of view in the fourth chapter. As well sensitivity analysis is produced and description of the assumptions used in the workplace. After the analysis of the building group's energy needs and performed technical evaluations and calculations of energy sources necessary to evaluate the heat generation ability, findings and recommendations are provided. Enclosure: energy sources schemes. Working volume - 65 pages without additives, 35 pic., 15 tables, 19 references.
Published: 2011

9. Kintamosios struktūros reguliatorių taikymo elektromechaninėse vykdymo sistemose tyrimas

Author: Smilgevičius, Algirdas, Šulčius, Nerijus, Vrubliauskas, Rimantas, Šimkevičius, Teodoras, Nevardauskas, Enrikas Vilimantas, Buivis, Leonardas, Turauskas, Zigmantas, Valiulis , Gediminas, Siauliai University, Mikulskis, Andrius, Smilgevičius, Algirdas, Šulčius, Nerijus, Vrubliauskas, Rimantas, Šimkevičius, Teodoras, Nevardauskas, Enrikas Vilimantas, Buivis, Leonardas, Turauskas, Zigmantas, Valiulis , Gediminas, Siauliai University, and Mikulskis, Andrius
Abstract: Įprasti elektromechaninių vykdymo sistemų dinamikos optimizavimo metodai – kiekybinis ir simetrinis optimumai turi savų privalumų bei trūkumų ir yra pagrįsti pastovios struktūros greičio reguliatoriais: proporciniu (P) ir proporciniu integruojančiu (PI). Siekiant suderinti kiekybinio ir simetrinio optimumų tiekiamus privalumus bei pašalinti jų trūkumus, užtikrindamas elektromechaninės vykdymo sistemos greičio dinaminį nuokrypį neviršijantį 5 % ir nulinį greičio statinį nuokrypį ištirtas P-PI valdymo dėsnio kintamos struktūros reguliatorius. Remiantis ITAE integraliniu kokybės rodikliu nustatyta geriausią elektromechaninės vykdymo sistemos dinamikos kokybę užtikrinanti greičio reguliatoriaus valdymo dėsnio perjungimo parametro priklausomybė nuo statinės apkrovos. Atlikti elektros pavaros su kintamos struktūros greičio reguliatoriumi veikimo imitacijos tyrimai MATLAB/Simulink programa. Nustatyta, kad P-PI kintamos struktūros reguliatorius užtikrina nuo 60,7 % iki 83,15 % geresnę elektromechaninės vykdymo sistemos dinamikos kokybę nei pastovios struktūros simetrinio optimumo reguliatorius (PI). Tačiau naudojant P-PI kintamos struktūros reguliatorių gaunama nuo 2,76 % iki 13,67 % blogesnė sistemos dinamikos kokybė nei PI-P-PI kintamos struktūros reguliatoriaus atveju., Classical dynamics optimization methods of the electromechanical servo drives are the quantitative and symmetrical optimums. These methods have advantages and disadvantages and are based on the fixed structure velocity controllers – proportional (P) and proportional-integrating (PI). In order to coordinate the advantages and eliminate disadvantages of the quantitative and symmetrical optimum methods have been investigated the P-PI variable structure velocity controller in the electromechanical servo drive. The P-PI variable structure velocity controller ensures that the dynamic error does not exceed 5 % and enables avoiding the static velocity error. According to the ITAE (Integral of Time multiplied by Absolute Error) quality indicator it was determined the control law switching parameter dependence on the static load ensuring the best dynamical quality of the electromechanical servo system. The investigations have been accomplished simulating the electromechanical servo system with P-PI variable structure velocity controller using MATLAB/Simulink program. It has been determined that P-PI variable structure velocity controller ensures from 60,7 % to 83,15 % better dynamical quality of the electromechanical servo system compared to the fixed structure controller (PI) of the symmetrical optimum. But using P-PI variable structure velocity controller the dynamical quality declines from 2,76 % to 13,67 % compared to the PI-P-PI variable structure velocity controller.
Published: 2009

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9 results on '"Power and Thermal Engineering"'

1. Gyvenamojo beveik nulinės energijos pastato Lietuvoje valandinių energijos poreikių profilių sudarymas

2. Vėdinimo įrenginių su integruotais šilumos siurbliais projektavimas, tyrimas ir analizė

3. Vėdinimo įrenginių su integruotais šilumos siurbliais projektavimas, tyrimas ir analizė

4. 10 kV tinklo elektros energijos nuostolių tyrimas

5. Gedimų elektros tinklų 0,4-10 kV linijose tyrimas

6. Mažaenerginio administracinio pastato sezoninės energijos poreikių ypatybės

7. Mažaenerginio administracinio pastato sezoninės energijos poreikių ypatybės

8. Geoterminės energijos panaudojimas pastatų grupės energijos poreikiams tenkinti

9. Kintamosios struktūros reguliatorių taikymo elektromechaninėse vykdymo sistemose tyrimas

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9 results on '"Power and Thermal Engineering"'

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