Μελέτη προβλήματος κατανεμημένης παραγωγής στα συστήματα ηλεκτρικής ενέργειας

Λάμπρου, Λάζαρος, Σταφυλιάς, Σπυρίδων

28 August 2009

Σε αυτή τη διπλωματική εργασία διερευνούνται οι προδιαγραφές που πρέπει να ικανοποιούνται ώστε να είναι εφικτή η σύνδεση εγκαταστάσεων κατανεμημένης παραγωγής στα δίκτυα διανομής και η εφαρμογή τους σε ένα φωτοβολταϊκό σύστημα που συνδέεται στο δίκτυο χαμηλής τάσης. Στο πρώτο κεφάλαιο γίνεται μια επισκόπηση της παρούσας κατάστασης στην ηλεκτρική ενέργεια και αναλύονται οι λόγοι που οδήγησαν στην ανάπτυξη της κατανεμημένης παραγωγής οι οποίοι συνοψίζονται στους περιορισμούς στην κατασκευή νέων γραμμών μεταφοράς, στην αυξημένη ζήτηση παροχής ηλεκτρικής ενέργειας υψηλής αξιοπιστίας, στην απελευθέρωση της αγοράς ηλεκτρικής ενέργειας, στους προβληματισμούς για τις κλιματικές αλλαγές και στην εξάντληση των ορυκτών καυσίμων. Έπειτα αναλύεται ο ορισμός της κατανεμημένης παραγωγής σύμφωνα με τα διάφορα διεθνή ινστιτούτα ηλεκτρικής ενέργειας και αναπτύσσονται οι τεχνολογίες που περιλαμβάνει οι οποίες διαχωρίζονται σε τεχνολογίες φυσικού καυσίμου (fossil fuel technologies) και σε ανανεώσιμες πηγές ενέργειας. Στις πρώτες περιλαμβάνονται οι μηχανές εσωτερικής καύσης, οι αεριοστροβιλικοί σταθμοί, οι μικροστρόβιλοι ή μικροτουρμπίνες και οι σταθμοί συνδυασμένου κύκλου ενώ στις ανανεώσιμες πηγές ενέργειας περιλαμβάνονται οι ανεμογεννήτριες, τα κύτταρα καυσίμου (fuel cells), οι φωτοβολταϊκές γεννήτριες, τα μικρά υδροηλεκτρικά και οι μονάδες παραγωγής ηλεκτρικής ενέργειας από βιομάζα και φυσικό αέριο. Η λειτουργία ενός ηλεκτρικού δικτύου ελέγχεται από συσκευές προστασίας και ρύθµισης της τάσης, που έχουν σκοπό την παροχή προς τους καταναλωτές ηλεκτρικής ενέργειας αποδεκτής ποιότητας, ελαχιστοποιώντας τον αριθµό των σφαλµάτων και προσφέροντας υψηλό επίπεδο ασφάλειας. Η σύνδεση στο δίκτυο µονάδων κατανεμημένης παραγωγής πρέπει να συµβαδίζει µε αυτές τις γενικές αρχές, ώστε αφενός µεν να µην προκαλούνται ενοχλήσεις στους λοιπούς καταναλωτές και αφετέρου να υπάρχει συµβατότητα µεταξύ του δικτύου διανοµής και των εγκαταστάσεων των παραγωγών. Στο δεύτερο κεφάλαιο αναφέρονται οι προϋποθέσεις που πρέπει να ισχύουν για τη σύνδεση και παράλληλη λειτουργία των εγκαταστάσεων παραγωγής µε τα δίκτυα διανοµής, καθώς και ο απαιτούµενος εξοπλισµός ζεύξης και προστασίας, µε στόχο την αποτελεσµατική αντιµετώπιση της πλειονότητας των περιπτώσεων. Οι τεχνικές προδιαγραφές που περιγράφονται αφορούν στη σύνδεση παραγωγών στο δίκτυο µέσης τάσης (ΜΤ) ή χαµηλής τάσης (ΧΤ). Βασικά κριτήρια και προϋποθέσεις που εξετάζονται προκειµένου να επιτραπεί η σύνδεση νέων εγκαταστάσεων παραγωγής είναι η επάρκεια του δικτύου (γραμμών, μετασχηματιστών κλπ.), η συµβολή στη στάθµη βραχυκύκλωσης, οι αργές µεταβολές της τάσης (µόνιµης κατάστασης), οι ταχείες µεταβολές της τάσης, οι εκποµπές flicker, οι εκπομπές αρμονικών, η διαµόρφωση των προστασιών της διασύνδεσης εγκαταστάσεων-δικτύου και η επίπτωση στη λειτουργία συστηµάτων Τηλεχειρισµού Ακουστικής Συχνότητας (ΤΑΣ). Τα κριτήρια και οι µέθοδοι εξέτασης που περιγράφονται στηρίζονται κατά κύριο λόγο στη σειρά προτύπων 61000 της IEC (International Electrotechnical Commission) και εξασφαλίζουν την ικανοποίηση των απαιτήσεων του ευρωπαϊκού προτύπου ΕΝ 50160 (πρότυπο ΕΛΟΤ ΕΝ 50160 και Οδηγία διανοµής 120 της ΔΕΗ Α.Ε.). Στο τρίτο κεφάλαιο πραγματοποιείται μια μελέτη εφαρμογής των παραπάνω προδιαγραφών σε ένα σύστημα που εξομοιώθηκε με χρήση του προγράμματος PSCAD. Το σύστημα αποτελείται από μια φωτοβολταϊκή συστοιχία μέγιστης ισχύος 4,8 kW, έναν μετατροπέα συνεχούς/εναλλασσόμενης τάσης ή αντιστροφέα (DC to AC converter) που λειτουργεί με τη μέθοδο PWM (Pulse Width Modulation ή διαμόρφωση εύρους παλμού), ένα σύστημα παρακολούθησης του σημείου μέγιστης ισχύος που αποδίδει η συστοιχία (MPPT Maximum Power Point Tracker), ένα μετασχηματιστή 150V/380V για την ανύψωση της τάσης στην έξοδο του αντιστροφέα στα επίπεδα τάσης του δικτύου, ένα δίκτυο χαμηλής τάσης και δύο φορτία RL. Εκτενής αναφορά γίνεται στις εκπομπές αρμονικών που παρουσιάζονται στο σύστημα στην έξοδο του αντιστροφέα. Αρχικά γίνεται μελέτη χωρίς φίλτρο LC στην έξοδο του αντιστροφέα και στη συνέχεια παρατηρούμε τον τρόπο με τον οποίο το φίλτρο LC επιδρά στη μείωση των αρμονικών σε επιτρεπτά πλαίσια. Τέλος διερευνούνται οι διακυμάνσεις τάσης του δικτύου κατά τη ζεύξη του φωτοβολταϊκού συστήματος με το δίκτυο, πραγματοποιείται μια μελέτη του συστήματος σε περίπτωση βραχυκυκλωμάτων και διερευνάται η επίπτωση σε συστήματα τηλεχειρισμού ακουστικής συχνότητας. / -

Δίκτυα χαμηλής τάσης

621.312 1

Photovoltaic systems

Power distribution systems

Distributed generation of electric power

Incorporating distributed generation into distribution network planning : the challenges and opportunities for distribution network operators

Wang, David Tse-Chi

January 2010

Diversification of the energy mix is one of the main challenges in the energy agenda of governments worldwide. Technology advances together with environmental concerns have paved the way for the increasing integration of Distributed Generation (DG) seen over recent years. Combined heat and power and renewable technologies are being encouraged and their penetration in distribution networks is increasing. This scenario presents Distribution Network Operators (DNOs) with several technical challenges in order to properly accommodate DG developments. However, depending on various factors, such as location, size, technology and robustness of the network, DG might also be beneficial to DNOs. In this thesis, the impact of DG on network planning is analysed and the implications for DNOs in incorporating DG within the network planning process are identified. In the first part, various impacts of DG to the network, such as network thermal capacity release, security of supply and on voltage, are quantified through network planning by using a modified successive elimination method and voltage sensitivity analysis. The results would potentially assist DNOs in assessing the possibilities and effort required to utilise privately-owned DG to improve network efficiency and save investment. The quantified values would also act as a fundamental element in deriving effective distribution network charging schemes. In the second part, a novel balanced genetic algorithm is introduced as an efficient means of tackling the problem of optimum network planning considering future uncertainties. The approach is used to analyse the possibilities, potential benefits and challenges to strategic network planning by considering the presence of DG in the future when the characteristics of DG are uncertain.

621.3121

Increasing distributed generation penetration when limited by voltage regulation

Nye, Jonathan Mark

04 1900

Thesis (MEng)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: This work investigated the influence of photo-voltaic generators on the voltage control of distribution feeders and the methods that can be used to increase the maximum penetration levels of these feeders. Initially, a brief overview of the reasons why it is necessary to increase the generation penetration levels on distribution feeders was provided. A review of various issues associated with connecting generation to the distribution network; methods and technologies that can be used to increase penetration levels; and ways to improve voltage regulation on MV feeders was given. The grid code for renewable power plants and the voltage apportionment standard were reviewed to determine what limits penetration levels and what can be done to increase them. The operation and control of a typical distribution network, without any connected generation, was initially investigated. A control strategy was implemented that provided suitable voltage regulation on the feeder during both high and low load. The influence of connecting generation to this typical distribution network, without making any modifications to the control of the feeder, was investigated. Base penetration levels, for various generation connection cases, were found. It was shown that the penetration is limited by the rapid voltage change or voltage rise. The base penetration levels were compared to the optimal amount of generation that provides the lowest losses. It was shown that the penetration needs to be increased by between 100% and 200% for the feeder’s losses to be minimised. Voltage regulator and capacitor control was influenced by the generation and they could not function as expected. It was shown that flicker will not be an issue, even with penetration limits well above the current allowable limits. Various methods that can be used to increase the amount of generation that is connected to the typical network were investigated. On-load tap changer setpoint reduction, reactive power control and electronic voltage regulators are some of the methods or technologies that can be used to increase penetration levels. It was shown that each of the technologies can assist, depending on the circumstance, in increasing penetration. The individual modifications can increase penetration up to 100% at the cost of increased tap changes and in some cases losses. Two proposed control strategies were assessed, that combine the investigated technologies. The results showed that it is possible to increase penetration levels by 50-80%, while improving power quality and reducing losses when compared to the base generation connection case. / AFRIKAANSE OPSOMMING: Hierdie werk ondersoek die invloed van die foto- voltaïes kragopwekkers op die spanning beheer van die verspreiding voerder asook die metodes wat gebruik kan word om die maksimum penetrasie vlakke van hierdie voerders te verhoog. Aanvanklik is 'n kort oorsig van die redes waarom dit nodig is om die opwekking penetrasie vlakke op die verspreiding voerders, te verhoog voorsien . Eerstens word 'n hersiening van verskeie kwessies wat verband hou met die koppeling van generasie na die verspreidingsnetwerk gegee. Tweedens word metodes en tegnologie wat gebruik kan word om penetrasie te verhoog gegee en laastens word maniere om spanning regulasie op medium spanning voerders te verbeter, gegee. Die rooster kode "grid code => probeer liewer netwerk regulasies" vir hernubare krag aanlegte en die spanning toedeling standaard is hersien om te bepaal wat beperk die penetrasie vlakke en wat gedoen kan word om dit te verhoog. Die werking en beheer van 'n tipiese verspreiding netwerk, sonder enige verbonde generasie, is aanvanklik ondersoek. 'n Beheer-strategie is toe geïmplementeer wat geskikte spanning regulasie op die voerder tydens beide hoë en lae belasting verskaf. Die invloed van die koppeling van opwekking tot hierdie tipiese verspreiding netwerk, sonder om enige veranderinge aan die beheer van die voerder, is ondersoek. Basis penetrasie vlakke, vir verskeie generasie verband gevalle, is gevind. Daar is bewys dat die penetrasie word beperk deur die vinnige spanning verandering of spanning styging. Die basis penetrasie vlakke word vergelyking met die optimale aantal generasie wat die laagste verliese bied. Daar is bewys dat die penetrasie moet met tussen 100% en 200% verhoog word sodat die voerder se verliese beperk kan word. Die spanning reguleerder en kapasitor beheer is beïnvloed deur die opwekking en hulle kon nie reageer soos verwag nie. Daar is getoon dat flikker nie 'n probleem sal wees nie; selfs al is die penetrasie vlakke ver bo die huidige toelaatbare grense. Verskillende metodes wat gebruik kan word om die aantal generasie wat gekoppel is aan die tipiese netwerk te verhoog is ondersoek. Aan-las tap wisselaar vermindering, reaktiewe krag beheer en elektroniese spanning reguleerders is 'n paar van die tegnieke wat gebruik kan word om penetrasie te verhoog. Daar is bewys dat elkeen van die tegnologieë kan help, afhangende van die omstandighede, vir toenemende penetrasie. Die individuele veranderinge kan penetrasie verhoog tot 100% by die koste van 'n verhoogde tap veranderinge en in sommige gevalle verliese. Twee voorgestelde beheer strategieë is beoordeel, wat die ondersoek tegnologie kombineer. Die resultate het getoon dat dit moontlik is om penetrasie te verhoog met 50% tot 80%, terwyl die verbetering van gehalte en die vermindering van krag verliese in vergelyking met die basis generasie verband hou.

Distributed generation

Voltage regulators

Electric power production

Distribution feeders (Electric networks)

Electric power distribution

UCTD

Modeling Satellite District Heating and Cooling Networks

Rulff, David

20 December 2011

Satellite District Heating and Cooling (DHC) systems offer an alternative structure to conventional, centralized DHC networks. Both use a piping network carrying steam or water to connect disparate building heating and cooling loads together, providing a platform for improving energy efficiency, reducing emissions, and incorporating alternative means of energy generation. However, satellite DHC networks incorporate thermal production units that are distributed amongst the buildings nodes, which offers greater operational flexibility and reduced capital cost savings for applications using existing building stock. This study was focused on the development of the methodology behind a comprehensive energy model that can assess the practical and financial viability of satellite DHC network scenarios. A detailed scenario application of the model demonstrated significant energy savings and investment potential. Additionally, environmental assessment methods and alternative generation technology were explored in supplementary studies of Deep Lake Water Cooling (DLWC) and building-scale Combined Heat and Power (CHP).

district energy

distributed generation

HVAC

energy modeling

CHP

operations optimization

building science

heating

cooling

thermal energy

hydraulic networks

environment

economic

satellite DHC

0543

Modeling Satellite District Heating and Cooling Networks

Rulff, David

20 December 2011

Satellite District Heating and Cooling (DHC) systems offer an alternative structure to conventional, centralized DHC networks. Both use a piping network carrying steam or water to connect disparate building heating and cooling loads together, providing a platform for improving energy efficiency, reducing emissions, and incorporating alternative means of energy generation. However, satellite DHC networks incorporate thermal production units that are distributed amongst the buildings nodes, which offers greater operational flexibility and reduced capital cost savings for applications using existing building stock. This study was focused on the development of the methodology behind a comprehensive energy model that can assess the practical and financial viability of satellite DHC network scenarios. A detailed scenario application of the model demonstrated significant energy savings and investment potential. Additionally, environmental assessment methods and alternative generation technology were explored in supplementary studies of Deep Lake Water Cooling (DLWC) and building-scale Combined Heat and Power (CHP).

district energy

distributed generation

HVAC

energy modeling

CHP

operations optimization

building science

heating

cooling

thermal energy

hydraulic networks

environment

economic

satellite DHC

0543

Development of three-phase continuation power flow for voltage stability analysis of distribution systems

Khaniya, Dina,

January 2008

Thesis (M.S.)--Mississippi State University. Department of Electrical and Computer Engineering. / Title from title screen. Includes bibliographical references.

Modeling and control of fuel cell based distributed generation systems

Jung, Jin Woo,

January 2005

Thesis (Ph. D.)--Ohio State University, 2005. / Title from first page of PDF file. Document formatted into pages; contains xvi, 209 p.; also includes graphics. Includes bibliographical references (p. 202-209). Available online via OhioLINK's ETD Center

Distributed generation impact on fault response of a distrubution [i.e., distribution] network

Kanduri, Venkata Ramanujam.

January 2004

Thesis (M.S.) -- Mississippi State University. Department of Electrical and Computer Engineering. / Title from title screen. Includes bibliographical references.

Control of power converters for distributed generation applications

Dai, Min.

January 2005

Thesis (Ph. D.)--Ohio State University, 2005. / Available online via OhioLINK's ETD Center; full text release delayed at author's request until 2006 Aug 15.

Solução baseada em programação estocástica para a gestão de redes de distribuição ativas considerando eficiência energética /

Quijano Rodezno, Darwin Alexis.

January 2018

Orientador: Antonio Padilha Feltrin / Resumo: Atualmente, existe uma tendência para aumentar a participação da Geração Distribuída (GD) baseada em Fontes de Energia Renováveis (FER) no suprimento do consumo global de energia elétrica. Esta tendência está sendo impulsionada principalmente por iniciativas governamentais destinadas a aumentar a eficiência energética, aumentar o uso da energia proveniente das FER e reduzir as emissões de gases de efeito estufa. No entanto, à medida que seu nível de penetração aumenta, a GD pode dar origem a um sistema incapaz de fornecer energia de forma confiável e de acordo com os padrões de qualidade. Nesse cenário, a Gestão de Redes Ativas (GRA) surge como uma alternativa para a integração de grandes montantes de GD. A GRA promove a disponibilização de instrumentos comerciais e regulatórios, e o fornecimento das redes de distribuição com tecnologias de automação para procurar serviços ancilares e flexibilidade a partir da GD. A GRA requer o desenvolvimento de ferramentas computacionais para coordenar a implementação de esquemas de controle inteligentes, chamados de esquemas de GRA, a fim de otimizar a utilização e operação das redes. Neste trabalho, são propostos modelos de otimização e técnicas de solução para a GRA considerando a integração de GD solar fotovoltaica e eólica e a eficiência energética. O primeiro modelo é desenvolvido para determinar a capacidade máxima de GD que pode ser alocada em uma rede de distribuição quando se considera o efeito da tensão na eficiência das cargas.... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Nowadays, there is a trend to increase the participation of distributed generation (DG) based on renewable energy sources in supplying the global electricity consumption. This trend is being driven mainly by government initiatives to increase energy efficiency, convert the energy use to renewable sources and reduce greenhouse gas emissions. However, as its penetration level increases, the DG can give rise to a system unable to deliver energy reliably and according to quality standards. In this scenario, active network management (ANM) emerges as an alternative for the integration of large amounts of DG. ANM promotes the availability of commercial and regulatory instruments and the provision of distribution networks with automation technologies for procuring ancillary services and flexibility from the DG. ANM requires the development of computational tools to coordinate the implementation of intelligent control schemes, called ANM schemes, in order to optimize the utilization and operation of distribution networks. In this work, optimization models and solution techniques are proposed for ANM considering the integration of solar and wind-based DG and energy efficiency. The first model is developed to determine the maximum capacity of DG that can be allocated in a distribution network when considering the effect of voltage on load efficiency. In the second model, the procedure of controlling the voltage levels to reduce the load demand is implemented for energy saving and for b... (Complete abstract click electronic access below) / Doutor

Conservation voltage reduction

Energy efficiency

Distributed generation

Active network management

Stochastic optimization

Eficiência energética

Geração distribuída

Gestão de redes ativas

Otimização estocástica