Επαγόμενες υπερτάσεις σε υπέργειο αγωγό μεταφοράς φυσικού αερίου/πετρελαίου από κεραυνικό πλήγμα σε παρακείμενη γραμμή μεταφοράς υψηλής τάσης

Παπαγιάννης, Μάριος-Παναγιώτης

14 October 2013

Τις τελευταίες δεκαετίες παρατηρείται σε παγκόσμιο επίπεδο τεράστια αύξηση των ενεργειακών απαιτήσεων για όλες τις κατηγορίες καταναλωτών. Η γιγάντωση της βιομηχανίας, η ανάπτυξη πρώην αναπτυσσόμενων χωρών με ραγδαίους ρυθμούς όπως η Κίνα, η Ινδία κλπ, η γενικότερη άνοδος του βιοτικού επιπέδου σε παγκόσμια κλίμακα, αλλά και η αύξηση του παγκόσμιου πληθυσμού, έχουν οδηγήσει σε εκθετική αύξηση των ενεργειακών ανάγκών του. Για την κάλυψη των αναγκών αυτών, μεγάλα έργα έχουν παραγματοποιηθεί με σκοπό την αποτελεσματικότερη εκμετάλλευση των καυσίμων και λοιπών ενεργειακών πόρων, αλλά και την γρηγορότερη και ασφαλέστερη μεταφορά τους από τα σημεία εξόρυξης και επεξεργασίας, στα κέντρα κατανάλωσης. Στο ευρύτερο αυτό πλαίσιο, η βιομηχανία της κατασκευής σωληναγωγών μεταφοράς υδρογονανθράκων γνωρίζει τεράστια ανάπτυξη τα τελευταία είκοσι χρόνια. Παράλληλα, την ίδια αν όχι μεγαλύτερη ανάπτυξη γνωρίζει και η βιομηχανία παραγωγής και μεταφοράς ηλεκτρικής ενέργειας. Για πολλούς λόγους η εξέλιξη των δύο αυτών βιομηχανικών τομέων είναι συνδεδεμένη και ακολουθεί κοινούς ενεργειακούς δρόμους. Έτσι, η επιλογή κοινών «οδών» διάβασης των υποδομών της βιομηχανίας ηλεκτρισμού και της πετρελαιοβιομηχανίας αποτελεί σήμερα πολύ συνηθισμένη πρακτική-αν όχι τον κανόνα. Κατά συνέπεια, οι περιπτώσεις παραλλήλισμού, έμμεσης προσέγγισης και διασταύρωσης γραμμών μεταφοράς υψηλής και υπερυψηλής τάσης, με αγωγούς μεταφοράς φυσικού αερίου ή πετρελαίου –υπέργειους και υπόγειους- είναι συχνή. Στις περιπτώσεις αυτές, η ηλεκτρομαγνητική επίδραση πάνω στον αγωγό μεταφοράς από την γραμμή Υ/Τ (ή ΥΥ/Τ) είναι ιδιαίτερα σημαντική. Σκοπός της παρούσας διπλωματικής εργασίας είναι η μελέτη αυτής ακριβώς της επίδρασης μιας γραμμής υψηλής τάσης πάνω σε έναν παρακείμενο υπέργειο αγωγό μεταφοράς υδρογονανθράκων, κατά την διάρκεια ενός κεραυνικού πλήγματος επί της γραμμής. Αρχικά, στα πρώτα έξι κεφάλαια έγινε μια παράθεση πληροφοριών και θεωρητική προσέγγιση όλων των επιμέρους τμημάτων που συνθέτουν τη συνολική διάταξη της μελέτης. Στο πρώτο κεφάλαιο δόθηκαν γενικές πληροφορίες για τα διάφορα είδη υπερτάσεων και την κατηγοριοποίησή τους. Στο δεύτερο κεφάλαιο διατυπώθηκαν τα βασικά χαρακτηριστικά του φαινομένου του κεραυνού, αποπειράθηκε η προσέγγιση της συμπεριφοράς του φυσικού αυτού φαινομένου, καθώς και διαπιστώθηκαν οι συνέπειες της ενέργειάς του. Στο τρίτο κεφάλαιο, έγινε μία συμπυκνωμένη παρουσίαση της θεωρητικής προσέγγισης των γραμμών μεταφοράς και δόθηκαν βασικά στοιχεία της θεωρίας για την μοντελόποίησή τους. Στο τέταρτο κεφάλαιο, παρουσιάστηκαν τα βασικά θεωρητικά στοιχεία για την μοντελοποίηση των πυλώνων και την επίδραση των κεραυνικών πληγμάτων σε αυτούς. Στο πέμπτο κεφάλαιο, δόθηκαν γενικές πληροφορίες για την ιστορία, την χρησιμότητα, την κατασκευή και τον έλεγχο των σωληναγωγών μεταφοράς αγαθών, που παίζουν πολύ σημαντικό ρόλο πρωτίστως στην παγκόσμια βιομηχανία πετρελαίου και ενέργειας. Στο έκτο κεφάλαιο, πραγματοποιήθηκε μια παρουσίαση των βασικών δομών και δυνατοτήτων του προγράμματος που χρησιμοποιήθηκε για την εκπόνηση της διπλωματικής αυτής εργασίας, του ATP-EMTP. Το κεφάλαιο επτά που ακολούθησε, αποτελεί τον πυρήνα αυτής της διπλωματικής εργασίας, καθώς σε αυτό περιγράφηκαν αναλυτικά τα μοντέλα που χρησιμοποιήθηκαν για την εξομοίωση όλων των συνιστωσών της διάταξης, δόθηκαν αναλυτικές πληροφορίες για τον τρόπο υπολογισμού των μοντέλων αυτών αλλά και για την ενσωμάτωσή τους στο πρόγραμμα ATP-Draw του EMTP. Πιο συγκεκριμένα στο έβδομο κεφάλαιο περιέχονται τα εξής: Πρωταρχικά, δόθηκαν τα χαρακτηριστικά της γεννήτριας Heidler που εξομοίωσε το σήμα του κεραυνού, μαζί με όλες τις παραμέτρους για την ενσωμάτωση του μοντέλου στο πρόγραμμα. Ακολούθως, έγινε αναλυτική παρουσίαση της γραμμής μεταφοράς ηλεκτρικής ενέργειας των 400kV διπλού κυκλώματος, του ελληνικού ΣΗΕ. Υπολογίστηκαν όλα τα χαρακτηριστικά της γραμμής, συμπεριλαμβανομένου των μέσων υψών και των εμπεδήσεων προσαρμογής που της αντιστοιχούν, και παρουσιάστηκε αναλυτικά η ενσωμάτωση όλων των παραμέτρων της γραμμής στο πρόγραμμα της εξομοίωσης. Έπειτα, έγινε πλήρης ανάλυση του χρησιμοποιηθέντος μοντέλου για την εξομοίωση των πυλώνων της γραμμής και παρατέθηκαν τα χαρακτηριστικά που επιβάλλεται αυτό να πληροί. Ακόμη, εξετάστηκαν οι πιθανές προσεγγίσεις για την μοντελοποίηση της γείωσης των πυλώνων και επιλέχθηκε η χρήση της γείωσης ωμικού χαρακτήρα ως πιο γενικής. Τόσο για το μοντέλο του πυλώνα, όσο και για εκείνο της γείωσής του, δόθηκε με λεπτομέρια η εικόνα ενσωμάτωσής τους στο πρόγραμμα εξομοίωσης. Μετέπειτα, παρουσιάστηκε το μοντέλο εξομοίωσης του υπέργειου αγωγού μεταφοράς υδρογονανθράκων (φυσικού αερίου/πετρελαίου), υπολογίστηκαν οι ηλέκτρικές του παράμετροι και αποτυπώθηκε η ενσωμάτωσή τους στο EMTP. Αμέσως μετά εξετάστηκε ίσως το πιό σημαντικό και δύσκολο κομμάτι της παρούσας διπλωματικής εργασίας, που δεν ήταν άλλο από την εξακρίβωση της αλληλεπίδρασης μεταξύ της γραμμής των 400kV και του παρακείμενου αγωγού μεταφοράς υδρογονανθράκων. Στο κομμάτι αυτό, διαπιστώθηκε η ύπαρξη των εξής τριών συνιστωσών αλληλεπίδρασης: χωρητική, επαγωγική και ωμική. Και για τις τρείς αυτές συνιστώσες της αλληλεπίδρασης του συστήματος γραμμής-αγωγού ακολούθησε εις βάθος ανάλυση του τρόπου υπολογισμού τους, των παραγόμενων αποτελεσμάτων και της ενσωμάτωσής τους στη διάταξη της εξομοίωσης. Επιπρόσθετα, στο σημείο αυτό δόθηκαν και γενικότερες αριθμητικές πληροφορίες που αφορούν το υπο εξομοίωση σύστημα, συμπεριλαμβανομένων των επιλογών του ερευνητή σχετικά με τις προσεγγίσεις της εξομοίωσης. Κλείνοντας το κεφάλαιο επτά, παρουσιάστηκε με σαφήνεια ο τρόπος ενσωμάτωσης στο πρόγραμμα των τριών συνιστωσών αλληλεπίδρασης του συστήματος γραμμής-αγωγού, μία προς μία, αλλά και συνολικά. Η συνολική αυτή αποτύπωση εμφάνισε και την δομική μονάδα του κυκλωματικού ισοδύναμου της διάταξης, η οποία αποτέλεσε τον θεμέλιο λίθο της όλης εξομοίωσης. Τέλος, η παρούσα διπλωματική εργασία ολοκληρώνεται με το όγδοο κεφάλαιο. Στο κεφάλαιο αυτό γίνεται παράθεση των αποτελεσμάτων της έρευνας για την επαγόμενη τάση πάνω σε έναν αγωγό μεταφοράς φυσικού αερίου/πετρελαίου από παρακείμενη γραμμή μεταφοράς Υψηλής Τάσης, η οποία υφίσταται κεραυνικό πλήγμα. Η παρουσίαση των αποτελεσμάτων περιλαμβάνει όλα τα αριθμητικά αποτελέσματα αλλά και τις αντίστοιχες γραφικές παραστάσεις για τις επαγόμενες τάσεις, πάνω στον αγωγό μεταφοράς υδρογονανθράκων, αλλά και στους πυλώνες και τις φάσεις της γραμμής που δέχεται το κεραυνικό πλήγμα. Κλείνοντας το τελευταίο κεφάλαιο, διατυπώνεται σειρά παρατηρήσεων επί των αποτελεσμάτων και γίνεται απόπειρα εξαγωγής κάποιων συμπερασμάτων από την όλη μελέτη. Συγκεκριμένα, διαπιστώθηκε πως ο παραλληλισμός γραμμών μεταφοράς ηλεκτρικής ενέργειας Υ/Τ και αγωγών μεταφοράς υδρογονανθράκων δημιουργεί ένα σύστημα με έντονη αλληλεπίδραση κάτω από προϋποθέσεις. Οι τάσεις και τα ρεύματα που υφίστανται επί της γραμμής, ειδικά σε περιπτώσεις έντονων σφαλμάτων και κεραυνικών πληγμάτων, έχουν ως αποτέλεσμα την ηλεκτρομαγνητική και ηλεκτροστατική σύζευξη γραμμής και αγωγού. Προϊόν της σύζευξης αυτής είναι η επαγόμενη τάση στον αγωγό μεταφοράς υδρογονανθράκων, η οποία σε κατάλληλες συνθήκες μπορεί να καταστεί επικίνδυνη, τόσο για τον άνθρωπο, όσο και για την ασφάλεια του ίδιου του αγωγού. / Over the last few decades, a huge growth on energy demands for all consuming categories is observed in a global scale. The giant growth of overall global industry, the development of former developing countries such as China, and India, etc at a rapid pace, the increase of the planet’s total population and its overall living standard has led to an exponential growth of the planet’s energy needs. To satisfy those energy needs, huge projects have been realised worldwide, in order to maximise the effisient use of fuel and other natural energy resources, as well as their fast and secure transport from their mining and refinery points to the big consumption centres. Within this framework, the gas/petroleum pipeline industry has flourished for the past twenty years. At the same time, the electrical power industry has known similar, if not greater, growth. For a variety of reasons, the development of those two industries is significantly connected and they are following, systematically common energy routes. As a result, the selection of comon right-of-ways for the infrastructure of both the gas/oil pipeline and power industry is a common practise-if not the rule. Therefore, the situations of parallelism, oblique approach and crossing between High Voltage (or even Ultra High Voltage) transmission lines and gas/petroleum pipelines –either above or underground– have quite frequently happened. In those cases, the electromagnetic influence on the oil/gas pipeline near the transmission line becomes increasingly significant. The purpose of this diploma thesis is the study of the above stated effect of a High Voltage transmission line on a nearby above ground gas/oil pipeline, under lightning conditions affecting the transmission line itself. Initially, during the first six chapters a theoretical approach was attempted and information was displayed concerning each basic part, that the total –under study– layout consists of. In the first chapter, general information for the various categories of overvoltages were given. In the second chapter, the basic characteristics of lightning were presented, its behaviour as a natural phenomenon was approched and its disastrous effects were established. During the third chapter, a theoretical approach of transmission lines was attempted and basic elements of transmission line modeling theory were given. In chapter four, basic theoretical data concerning the modeling of transmission line towers were presented and the effect of lightning on them was examined. In the fifth chapter, general information about the history, use, construction and control of pipelines were presented. The vital role this infrastructure plays in the global gas/oil and power industry was ascertained. During the sixth chapter, basic structures and key sub-programs of the ATP-EMTP (ElectoMagnetic Transient Program) were presented, along with the capabilities of this powerful software tool, that was used to perform the simulations required for this diploma thesis. Chapter seven that followed next, represents the very core of this thesis. In that chapter, a detailed description of the models used to simulate the transmission line-oil/gas pipeline layout, was presented and specific information concerning the calculations of model parameters and their implementation in ATP-Draw of EMTP was given. More specificly, the seventh chapter of the thesis contains the following: First of all, the characteristics of the Heidler generator -used to simulate the lightning strike- were given, along with all the respective parameters for its implementation in the EMTP. After that, a detailed presentation of the double-circuit 400kV transmission power line of the Greek Power Network was made. All its parameters were calculated, including average heights and matching impdendances, and their implementation in the EMTP was specified. Next, the line’s tower model that was used in the simulation was analysed and its specific critiria that needed to be met were indicated. Different possible approaches for the modeling of the tower’s footing groung were also examined, resulting in the selection of the resistive grounding electrode as the most general case. For both the tower model and the footing resistance, the implementation in the EMTP was made clear. Afterwards, the simulation model of the aboveground gas/oil pipeline was presented, its parameters were calculated and their implementation in the EMTP was depicted. Right after that, the most significant and at the same time difficult part of this study was examined: the verification of the coupling between the 400kV transmission line and the nearby gas/oil pipeline. In this part of the study, the existance of the following three coupling types was identified: capacitive, inductive and resistive coupling. For all three types of coupling between the transmission line and the pipeline, an in-depth calculative analysis was carried out, followed by representation of the produced results and their implementation in the program. Furthermore, general numerical data concerning the simulation was presented at this point, along with the researcher’s selected approximations for modeling the transmission line-gas/oil pipeline layout. Closing this chapter, the implementation in the EMTP of all three types of coupling was illustrated, both in overall and one-by-one. This overall illustration of the layout’s coupling, revealed the basic structure block of the simulation. This diploma thesis is completed in the eighth and final chapter. In that part of the study, the final simulation results are presented, concerning the induced voltage on the gas/oil pipeline from the nearby transmission power line that suffers a lightning strike. This presentation includes all numerical data and respective graphs (graphic displays) of the induced voltages on the pipeline itself, as well as the towers and the 6 phases of the transmission line. Winding up the last chapter, a series of observations on the results is made, and an attempt to reach some conclusions based on the specific study is carried out. More specifically, it was established that situations of parallelism, oblique approach and crossing between High Voltage (or even Ultra High Voltage) transmission lines and gas/petroleum pipelines –either above or underground– can create a system prone to intense coupling under certain circumstances. Strong currents and voltages circulating on the transmission line, especially during faulty and lightning conditions, result in the electromagnetic and electrostatic coupling between the line and the nearby gas/oil pipeline. Direct result of this coupling is the induced voltage upon the gas/oil pipeline, which can -under proper conditions- become a hazard for both the human factor and the safety of the pipeline itself.

Επαγόμενες τάσεις

621.319 21

Induced voltage

Gas/petroleum pipeline

Study of New Miniaturized Microwave Devices based on Ratchet Effect in an Environment of Asymmetric Nano-Scatterers / Etude de nouveaux dispositifs miniaturisés micro-ondes basés sur l'effet Ratchet dans un environnement de nano diffuseurs asymétriques

Medhat Abdel Maksoud, Dina

15 October 2012

La nanotechnologie est un domaine en voie d'expansion qui a attiré l'attention de la recherche en raison de ses applications potentielles illimitées. La technologie des ondes millimétriques est un autre domaine intéressant qui joue un rôle de premier plan dans le développement des systèmes de communications sans fil. La combinaison de ces deux champs de recherche avancée, donne naissance à l'innovation du Dispositif Ratchet qui est une nouvelle application qui représente un vrai défi. Ce dispositif est de taille nanométrique et son concept d'opération consiste à générer une tension DC lorsque le dispositif, basé sur le gaz d'électron bidimensionnel, est rayonné par l'énergie des micro-ondes. L'objectif de cette thèse est d'essayer d'améliorer la réponse du dispositif, ce qui ouvre de nouvelles perspectives dans la fabrication des détecteurs de champ à haute fréquence et à l'échelle nanométrique. Malheureusement, les Dispositifs Ratchet actuels, basés sur des hétérostructures de semiconducteurs, réalisés jusqu'à présent fonctionnent à basse température pour assurer une grande mobilité électronique. Cette condition nécessite l'utilisation d'un setup expérimental complexe qui a un grand impact sur la tension induite et sur la reproductibilité du phénomène Ratchet observé. Dans ce contexte, le travail effectué dans le cadre de cette thèse a abordé ce problème en deux parties. La première partie concerne l'analyse électromagnétique du setup expérimental. Ceci a été réalisé par la mise en oeuvre des simulations électromagnétiques intenses. D'autre part, différentes solutions ont été proposées afin d'optimiser le setup et ainsi améliorer la tension Ratchet produite. Outre l'étude électromagnétique, certaines mesures de modulation ont été réalisées pour tester la faisabilité du Dispositif Ratchet comme un démodulateur d'amplitude. La deuxième partie de cette thèse traite l'étude de la matière qui compose le Dispositif Ratchet. Récemment, le graphène commence à envahir le monde scientifique et technologique avec ses fascinantes propriétés électroniques, tels que sa mobilité d'électrons élevée à température ambiante, où les matériaux conventionnels sont en train de confronter des obstacles. En conséquence, l'idée de fabriquer un Dispositif Ratchet à base de graphène au lieu des hétérojonctions de semiconducteurs, a été introduite. Plusieurs modèles de conception, caractérisation et mesures RF ont été accomplis en vue d'obtenir un Dispositif Ratchet fiable approprié pour de nombreuses applications pratiques à la température ambiante, dans la gamme de fréquences micro-ondes et pourraient s'étendre à la bande térahertz. / Nanotechnology is a growing field that has attracted significant research attention due to its unlimited potential applications. Millimeter wave technology is another interesting field that plays a leading role in the development of wireless communications systems. Combining these two advanced research fields together, has given rise to the innovation of the Ratchet Device which is now a new challenging application. This device has a nanoscale size and its concept of operation consists of generating a DC voltage when radiating a two-dimensional electron gas based device with microwave energy. The aim of this thesis is in trying to improve the device response and hence opening new perspectives in the fabrication of high frequency field detectors on the nanoscale level. Unfortunately, the current Ratchet Devices, based on semiconductor heterostructures, realized till now, operate at low temperatures to ensure high electron mobility. This condition necessitates the use of a complex experimental setup that has a great impact on the induced voltage and on the reproducibility of the observed Ratchet phenomenon. In this context, the work performed within the framework of this thesis has addressed this problem in two parts. The first part concerns the electromagnetic analysis of the experimental setup behavior. This has been achieved by implementing intensive full wave electromagnetic simulations. Different solutions have been proposed to optimize the setup and thus enhance the Ratchet voltage produced. In addition to the electromagnetic study, some modulation measurements have been performed to test the feasibility of the Ratchet Device as an amplitude demodulator. The second part of this thesis deals with the study of the material composing the Ratchet Device. Recently, graphene has started to invade the scientific and the technological world with its fascinating electronic properties, such as its high electron mobility at room temperature, which distinguishes it from conventional materials that typically collide with obstacles. As a result, the idea of fabricating a Ratchet Device based on graphene instead of semiconductor heterojunctions has been introduced. Several design models, characterizations and RF measurements have been performed in order to obtain a reliable Ratchet Device suitable for many practical applications at room temperature. This has been done in the microwave frequency range and can also extend to the terahertz band.

Effet Ratchet

Radiation micro-ondes

Tension DC induite

Modélisation électromagnétique

Graphène

Détecteur de champ électromagnétique

Ratchet Effect

Microwave radiation

DC induced voltage

Electromagnetic modeling

Graphene

Electromagnetic field detector

Aplicação do  método dos elementos finitos na análise de tensões induzidas em cabos umbilicais. / Application of finite element method on analysis of induced voltage on umbilical cables.

Marzo, Giuseppe Renato Di

23 September 2010

O presente trabalho visa à aplicação de metodologias de análise de tensões induzidas em cabos de sinal de cabos umbilicais a partir da utilização do Método dos Elementos Finitos. A aplicação consiste na avaliação de tensões induzidas nos condutores de sinal, a partir do acoplamento mútuo de fluxo magnético originado das correntes dos circuitos de potência do cabo umbilical. Para tanto, são aplicadas técnicas de fatiamento e transposição para a geometria do cabo concomitantemente às técnicas de acoplamento com circuito elétrico. São apresentados modelos de condutores elétricos com ênfase no detalhamento geométrico, simplificações consideradas, adoção de parâmetros de suporte e condições de contorno. A avaliação das tensões induzidas nos condutores de sinal é realizada tanto para simulações bidimensionais, pelos métodos de fatiamento e transposição, como para simulações tridimensionais. / The aim of this work is apply the methodologies of induced voltage in signal cables inside umbilical cables through application of Finite Elements Method. The application is made by the evaluation of the induced voltage on signal cables through the coupling of magnetic fields generated by the power cables. Therefore slice and transposition techniques are applied to the cable geometry with electrical circuit coupling techniques. One presents electrical conductor modeling focused on geometric detailing and simplifications, support parameters and boundary conditions. The evaluation of induced voltages on signal cables is made through the application of bidimensional method, using slices and transposition techniques and also tridimensional simulations.

Cabos umbilicais

Finite element method

Induced voltage

Método de fatiamento

Método de transposição

Método dos elementos finitos

Slices methodology

Tensão induzida

Transposition methodology

Umbilical cables

Aplicação do  método dos elementos finitos na análise de tensões induzidas em cabos umbilicais. / Application of finite element method on analysis of induced voltage on umbilical cables.

Giuseppe Renato Di Marzo

23 September 2010

O presente trabalho visa à aplicação de metodologias de análise de tensões induzidas em cabos de sinal de cabos umbilicais a partir da utilização do Método dos Elementos Finitos. A aplicação consiste na avaliação de tensões induzidas nos condutores de sinal, a partir do acoplamento mútuo de fluxo magnético originado das correntes dos circuitos de potência do cabo umbilical. Para tanto, são aplicadas técnicas de fatiamento e transposição para a geometria do cabo concomitantemente às técnicas de acoplamento com circuito elétrico. São apresentados modelos de condutores elétricos com ênfase no detalhamento geométrico, simplificações consideradas, adoção de parâmetros de suporte e condições de contorno. A avaliação das tensões induzidas nos condutores de sinal é realizada tanto para simulações bidimensionais, pelos métodos de fatiamento e transposição, como para simulações tridimensionais. / The aim of this work is apply the methodologies of induced voltage in signal cables inside umbilical cables through application of Finite Elements Method. The application is made by the evaluation of the induced voltage on signal cables through the coupling of magnetic fields generated by the power cables. Therefore slice and transposition techniques are applied to the cable geometry with electrical circuit coupling techniques. One presents electrical conductor modeling focused on geometric detailing and simplifications, support parameters and boundary conditions. The evaluation of induced voltages on signal cables is made through the application of bidimensional method, using slices and transposition techniques and also tridimensional simulations.

Cabos umbilicais

Método de fatiamento

Método de transposição

Método dos elementos finitos

Tensão induzida

Finite element method

Induced voltage

Slices methodology

Transposition methodology

Umbilical cables

A Study On High Voltage AC Power Transmission Line Electric And Magnetic Field Coupling With Nearby Metallic Pipelines

Gupta, Abhishek

08 1900

In the recent years, there has been a trend to run metallic pipelines carrying petroleum products and high voltage AC power lines parallel to each other in a relatively narrow strip of land. The case of electromagnetic interference between high voltage transmission lines and metallic pipelines has been a topic of major concern since the early 60’s. The main reasons for that are: • The ever increasing cost of right-of-ways, suitable for power lines and pipelines, along with recent environmental regulations, aiming to protect nature and wildlife, has forced various utilities to share common corridors for both high voltage power lines and pipelines. Therefore, situations where a pipeline is laid at close distance from a transmission line for several kilometers have become very frequent. • The rapid increase in energy consumption, which has led to the adoption of higher load and short circuit current levels, thus making the problem more acute. Due to this sharing of the right-of-way, overhead AC power line field may induce voltages on the metallic pipelines running in close vicinity leading to serious adverse effects. This electromagnetic interference is present both during normal operating conditions as well as during faults. The coupling of the field with the pipeline takes place either through the capacitive path or through the inductive or conductive paths. In the present work, the induced voltages due to capacitive and inductive coupling on metallic pipelines running in close vicinity of high voltage power transmission lines have been computed.The conductor surface field gradients calculated for the various phaseconfigurations have been presented in the thesis. Also the electric fields under transmission lines, for both single circuit and double circuit (various phase arrangements) have been analysed. Based on the above results, an optimum configuration giving the lowest field under the power line as well as the lowest conductor surface gradient has been arrived at and for this configuration induced voltage on the pipeline has been computed using the Charge Simulation Method (CSM). For comparison, induced voltages on the pipeline have been computed for the various other phase configurations also. A very interesting result is that the induced voltage on the pipeline becomes almost negligible at a critical lateral distance from the center of the powerline and beyond which the induced voltage again increases.This critical distance depends on the conductor configuration. Hence it is suggested that the pipeline be located close to the critical distance so that the induced voltage would be close to zero. For calculating the induced voltage due to the inductive coupling, electromotive force (EMF),induced along the pipeline due to the magnetic field created by the transmission line has been calculated. The potential difference between the pipeline and the earth, due to the above induced EMFs, is then calculated. As the zones of influence are generally formed by parallelism, approaches, crossings as well as removals, the computation involves subdividing the zone into several sections corresponding to these zones. The calculation of voltages is carried out at both the ends of the sections. Each section is represented by an equivalent π electrical network, which is influenced by the induced EMF. The induced EMF is calculated during faulted conditions as well as during steady state conditions. Inductive coupling calculations have been carried out for the following cases: •Perfect parallelism between powerline and pipeline. •zone of influences formed by parallelism, approaches, crossings and removals. It has been observed that when the pipeline is approaching the HV transmission line at an angle, then running parallel for certain distance and finally deviating away, the induced voltage is maximum at the point of approach or removal of the pipeline from the transmission line corridor.The induced voltage is almost negligible near to the midpoint of the zone of influence. The profile of the induced voltage also depend on whether the pipeline is grounded or left open circuited at the extremities of the zone of influence. Effect of earth resistivity and anti-corrosive coatings on induced voltage has also been studied. For mitigating the induced voltage on the pipeline,numerous low resistive earthings have been suggested. Results show that significant reduction in induced voltage can be achieved as the number of earth points is increased.

Electromagnetic Interference

Transients (Electric)

High Voltages

Electric Power Transmission

Power Lines - Coupling

Pipelines - Induced Voltages - Computing

Metallic Pipelines

Coupling

Charge Simulation Method (CSM)

Induced Voltage

Electrical Engineering

Dynamický model synchronního stroje s využitím magnetických ekvivalentních obvodů / Dynamic model of synchronous machine with magnetic equivalent circuit

Svetlík, Martin

January 2011

The thesis focuses on constructing dynamic model - synchronous generator with using magnetic equivalent circuit diagrams. The model construction is based on knowledge of geometric parameters, magnetic characteristic of used material and fyzical deployment of vindings placed in stator slots. Computed reults are compared with results optained from model created with finite element method.

Sensing and Energy Harvesting of Fluidic Flow by InAs Nanowires, Carbon Nanotubes and Graphene

Chen, Ying

11 June 2014

No description available.

Mechanical Engineering

energy harvesting

sensor

flow induced voltage

fluid flow

stagnation type flow

energy conversion

nanowire

nanotube

graphene

indium arsenide

carbon

Quadratic power system modeling and simulation with application to voltage recovery and optimal allocation of VAr support

Stefopoulos, Georgios Konstantinos

02 July 2009

The main objectives of this research are (a) to develop advanced simulation methods for voltage-recovery phenomena using improved, realistic system models and accurate solution techniques and (b) to develop methods for the mitigation of problems related to slow voltage recovery. Therefore, this work concentrates on the areas of voltage-recovery analysis in electric power systems, dynamic load modeling with emphasis on induction-motor models, dynamic simulation with emphasis on the numerical integration methods, and optimal allocation and operation of static and dynamic VAr resources. In the first part of this work, a general framework for power-system analysis is presented the main characteristics of which are (a) the utilization of full three-phase models and (b) the use of a "quadratized" mathematical formulation, which models the system under study as a set of mathematical equations of order no more than two. The modeling approach is essentially the same for steady-state, quasi-steady-state, and dynamic analysis. Furthermore, a new approach for time-domain transient simulation of electric power systems and dynamical systems, in general, is introduced in this research. The new methodology has been named quadratic integration method. The method is based on a numerical integration scheme that assumes that the system states vary quadraticaly within an integration time step. Accurate modeling and simulation of voltage-recovery phenomena allows the development of mitigation methodologies via the optimal allocation and operation of static and dynamic VAr resources over the planning horizon. This problem is solved with successive dynamic programming techniques with the following two innovations: (a) the states at each stage (candidate solutions) are obtained with static and dynamic (trajectory) sensitivity analysis and (b) each candidate solution is evaluated by considering the optimal operation of installed static and dynamic VAr sources utilizing concepts from the theory of applied optimal control and trajectory optimization.

Power-system analysis

Solution techniques

Sensitivity analysis

Reactive-resource optimization

Numerical integration

Fault-induced voltage recovery

Electric power system stability

Model synchronního stroje s PM založeného na ekvivalentní reluktanční síti / Model of synchronous PM machine based on equivalent reluctance network

Sporni, Peter

January 2010

Táto práca pojednáva o problematike vytvárania a simulácie reluktančnej sieti synchrónneho stroja s V tvarovanými permanentnými magnetmi v programe PSpice. Na začiatku sa oboznámime s konštrukciou a parametrami stroja a potom vyvodíme základné rovnice na výpočet každého prvku siete. Vypočítame každý prvok tohto stroja a potom vytvoríme túto sieť v PSpice. Na začiatku je simulovaná sieť statická a všetky magnetické odpory sú lineárne. Neskôr nahradíme lineárne odpory reprezentujúce plechy nelineárnymi a počítame s precovnou teplotou permanentných magnetov. Potom porovnáme naše výsledky s FEM metódou počítanými hodnotami a vypočítame indukované napätie v jednej cievke stroja. Na záver vypočítame výkonovú a momentovú charakteristiku stroja.

Elektromagnetický tlumič / Electromagnetic damper

Mikyska, Jan

January 2014

This master´s thesis is focused on obtaining electrical energy from vibration control car using electromagnetic dampers. The primary use of the electromagnetic damper is the production of electrical energy, which can then be used to power electrical appliances in your car or battery charging. The thesis is divided into six main parts: a literature review of possible ways of getting electricity from the car damping, theoretical and mathematical analysis of problems, the choice of design with computational analysis of dampers and power calculation.