Impact of electric vehicle loads on utility distribution network voltages

Dubey, Anamika

03 December 2013

This work evaluates the impact of electric vehicle loads (EVs) on utility distribution secondary networks and determines the factors affecting the network voltage quality. The study is conducted using two actual distribution circuits, residential and mix residential and industrial circuits. The study reveals the following. A distant secondary network experiences a greater steady-state voltage drop than a nearby secondary network. Location of EV loads relative to the service transformer affects the secondary voltage more significantly. An EV load installed on a distant load node from a service transformer causes comparatively higher undervoltage condition (about 1.5%) than an EV on a nearby load node from the service transformer (about 0.75%). Increasing the size of EV charger increases the severity of an undervoltage condition. A 240V/30A EV charging station causes undervoltage condition to double compared to that of a 240V/16A EV charger. Also installing an EV load adjacent to the existing EV load customer approximately doubles the undervoltage condition at the EV load nodes. / text

Electric vehicles

Distribution network

Power quality

Voltage quality

The economic and environmental analysis of a petrochemical distribution network

Treitl, Stefan, Jammernegg, Werner

January 2011

The structure of a company's distribution network is of vital importance for competitiveness but also involves considerable costs. In recent years, competitive pressure as well as regulatory measures, especially in the European Union, have also raised awareness towards the environmental impact of supply chain activities. However, activities associated with the distribution of products are not yet subject to environmental regulations but this might change in the near future. Therefore, companies will have to consider not only economic but also environmental aspects in the design of their supply chains. Based on a case study from the petrochemical industry we present a way to evaluate (strategic) distribution network design decisions, taking into account economic as well as environmental criteria. The results of the analysis show a clear trade-off between (distribution) costs and transport carbon emissions. (author's abstract)

Reactive Power Control for Voltage Management

Hasan, MD. Shakib

January 2017

This thesis presents methods for voltage management in distribution systems with high photovoltaic (PV) power production. The high PV penetration leads to both new challenges such as voltage profile violation and reverse power flow, and also new opportunities. Traditionally, the voltage control in the distribution network is achieved by common devices in the networks such as capacitor banks, static synchronous compensators (STATCOMs) and on-load tap changers (OLTCs). This thesis has considered existing reactive power capable solar PV inverters together with STATCOMs to provide voltage support for the distribution network. In this thesis, two effective coordination methods using the STATCOM and PV inverters are developed in order to study their interaction and how they together can stabilize the voltage level. Data from existing low-voltage (LV) and medium-voltage (MV) networks are used for a case study. The first control method is developed for LV network’s voltage control by means of PV inverter and STATCOM. The second control method is developed for both LV and MV networks’ voltage control, where reactive power control in PV inverters and STATCOMs are used in the LV network and only STATCOMs in the MV network. The control methods follow a hierarchical structure where reactive power compensation using PV inverters are prioritized. The STATCOMs, first in the LV and thereafter in the MV network in the second control method, are used only when the PV inverters are not able to provide or consume enough reactive power. This is beneficial due to the significant reduction in numbers of STATCOMs and their operation. The simulation results indicate that the proposed method is able to control both the over- and undervoltage situations for the test distribution networks. It is also shown that reactive power supply at night by the PV inverters can be an important resource for effective voltage regulation by using the proposed coordinated voltage control method.

STATCOM

PV inverters

LV and MV distribution network

Energy Engineering

Energiteknik

A strategy for the management of energy losses in a local electricity distribution network

Fourie, Johannes Wilhelmus

18 April 2006

This dissertation contains a strategy to minimize the non-technical electrical energy losses in an electrical distribution network. In order to develop the strategy, a model was constructed that simulates an electrical distribution network and includes different parameters that calculate the estimated technical losses in the electricity distribution network. The model was then used as the base to develop the strategy to minimize the electrical energy losses in an electrical distribution network. Increasing energy costs and environmentalists actions to protect the natural resources, force energy supply companies to conserve and reduce energy usage. Therefore the research focused on the reduction of electrical energy losses in distribution networks. The loss occurrences are divided into two categories: technical and non-technical losses. Reducing these losses ensure that the cost of electricity to customers will be reduced and in turn improve the efficiency of the distribution network. The model developed to calculate the non-technical losses in an electrical distribution network was tested at two different networks. Firstly at the University of Pretoria, where the network segment consisted of different network busses delivering electrical energy. Secondly results were obtained in a residential network of the Tshwane Metropolitan Council. In this network there was only one bus but various different time intervals were used to determine the time interval most suitable for determining the electrical energy losses in the electrical distribution network. The model was used primarily to quantify the technical losses as a base point towards determining the non-technical losses. Using the model one is able to forecast the technical energy losses of a section in the electricity distribution network and this enabled one to develop a strategy to minimize the energy losses in the distribution network. The model will enable municipalities or electricity distribution companies to estimate electrical energy losses in their electrical supply networks and facilitate the development of strategies to reduce electrical energy losses. / Dissertation (MEng (Electrical Engineering))--University of Pretoria, 2006. / Electrical, Electronic and Computer Engineering / unrestricted

Non-technical losses

Electrical distribution network

Technical losses

UCTD

DISTRIBUTION NETWORK DESIGN : Optimization & simulation of an international supply chain.

Hultman, Gustav

January 2020

Höganäs AB's current distribution network for iron powder in the Asia Pacific (APAC) region is subject to high costs incurred by large inventories and high cost of capital. As a result of increasing demand and service level requirements from customers, inventories have steadily increased. Keeping a high inventory level has enabled high service levels irrespective of supply disruptions or changes in demand. It is important that the distribution network incorporates a balance between robustness and cost efficiency and not only focuses on one of these aspects. The purpose of this project is to provide Höganäs AB with scientific data on how the distribution network can be improved in terms of lowering the total cost of warehousing and distribution while maintaining or improving customer service. There are several goals for this project. The first goal is to optimize the flow of material in the distribution network given empirical data of customer demand. The intended model is a linear program. The linear program will solve a multi echelon, period, product, location and transportation mode instance of the distribution network design problem. The second goal is to test the robustness of the optimal solutions resulting from the linear program by stochastic simulation. The simulations utilize the optimal network designs generated by the linear program and is done for a set of possible scenarios where key parameters are changed. By adjusting key parameters and measuring the effect on cost and service level, the goal is to evaluate the robustness of each configuration. By keeping the existing nodes of the distribution network and changing the flow of material and distribution strategy, lower inventories can be maintained and service level kept high regardless of demand growth and supply disruption. The optimal distribution network design is one from the linear program, configured with a 14 day inventory level and 10 day reorder point for warehouses. The optimal design shows that distribution is made more robust and efficient by allowing for distribution between warehouses or supplying customers normally affiliated with other warehouses. It also suggests that a central redistribution warehouse is a possible improvement to the current network design. / Höganäs AB's nuvarande distributionsnätverket for järnpulver i Asien-Stillahavsregionen (APAC) är kostsamt till följd av höga lagernivåer och kapitalkostnader. Ökande efterfrågan och krav på hög servicenivå har inneburit en stadig ökning av lagernivåerna, vilket möjliggjort för företaget att upprätthålla servicenivån oberoende av störningar i leveranskedjan eller förändringar i efterfrågan. Det är viktigt att distributionsnätverket är balanserat avseende stabilitet och kostnadseffektivitet och inte endast optimeras avseende en av faktorerna. Syftet med projektet är förse Höganäs AB vetenskapligt understödd information om hur den totala kostnaden för distributionsnätverket kan sänkas samtidigt som kundservicen upprätthålls eller förbättras. Det finns flera mål för projektet. Det första målet är att optimera materialflödet i distributionsnätverket givet empiriska data över efterfrågan. Den avsedda modellen är ett linjärprogram som löser en instans av distributionsnätverkverksdesign-problemet med multipla lager, perioder, produkter, lokaliseringar och transportsätt. Det andra målet är att utvärdera stabiliteten hos de optimala lösningar som härrör från linjärprogrammet genom stokastisk simulering. Simuleringarna använder de optimala nätverksdesigner som genereras av det linjärprogrammet och genomförs för en uppsättning möjliga scenarier där nyckelparametrar ändras. Genom att justera nyckelparametrar och mäta effekten på kostnad och servicenivå är målet att utvärdera stabiliteten för varje konfiguration. Genom att behålla de befintliga noderna i distributionsnätverket och ändra materialflödet samt distributionsstrategin kan lägre lagernivåer uppnås och servicenivån hålls hög oavsett förändrad efterfrågan och störningar i leveranskedjan. Den optimala distributionsnätverkverksdesignen är en lösning från linjärprogrammet konfigurerat med 14 dagars lagernivå och 10 dagars beställningspunkt. Den optimala designen visar att distributionen görs mer stabil och effektiv genom att tillåta leveranser mellan lagerpunkterna eller att försörja kunder från andra lagerpunkter än de normalt försörjs från. Resultatet påvisar också att en strategiskt placerad omlastningscentral kan förbättra det nuvarande distributionsnätverket.

Supply Chain management

Distribution Network Design

Simulation

Optimization

Mathematics

Matematik

Impacto de microrredes sobre o sistema de proteção de redes de distribuição /

Gifalli, André

January 2019

Orientador: André Nunes de Souza / Resumo: A crescente demanda por energia elétrica, combinada com questões ambientais e financeiras, vem promovendo a integração de unidades geradoras distribuídas nas redes de distribuição. Essa configuração topológica, construída próxima aos consumidores, consiste em um conceito chamado de microgrid, desenvolvido nos últimos anos. Esse modelo é caracterizado por um conjunto de pequenas unidades geradoras, cargas e dispositivos de armazenamento de energia, capazes de operar em modo paralelo ou isolado, em relação à rede existente. Vários estudos apontam que as microrredes influenciam o planejamento, operação e manutenção da rede de distribuição elétrica, principalmente porque as microrredes funcionam em um fluxo de energia bidirecional em vez do modo unidirecional convencional. Essa topologia de rede pode influenciar significativamente o perfil de tensão, estabilidade, qualidade de energia e comportamento de proteção do sistema elétrico. Em relação ao esquema de proteção, esses sistemas podem interferir na coordenação e seletividade dos equipamentos que constituem a rede. Nesse sentido, o objetivo desta dissertação é analisar o impacto da contribuição da corrente de curto-circuito das conexões de microrrede no sistema de proteção de sobrecorrente nas redes de distribuição convencionais. A análise é desenvolvida modelando uma rede de distribuição IEEE de 34 barras. O software OpenDss é usado em conjunto com um aplicativo Python desenvolvido para avaliar os impactos na coordenação e sel... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The growing demand for electricity, combined with environmental and financial issues, fostered the integration of distributed generating units into distribution networks. This topological configuration, build up nearby the consumers, consist of a concept called microgrid, which has been developed in recent years. This model is characterized by a set of small generating units, loads and energy store devices, capable of operating in a parallel or isolated mode, concerning the existing network. Several studies point out that the microgrids influence the planning, operation, and maintenance of the electrical distribution network, mainly because of microgrids woks with a bidirectional power flow rather than the conventional unidirectional mode. This network topology can significantly influence the voltage profile, stability, power quality, and electrical system protection behavior. Regarding the protection scheme, these systems can interfere with the coordination and selectivity of the equipment that constitutes the network. In this sense, the purpose of this dissertation is to analyze the impact of the short circuit current contribution from the micro-network connections in the overcurrent protection system in the conventional distribution networks. The analysis is developed by modeling an IEEE 34-bar distribution network. The OpenDss software is used in conjunction with a developed Python application to assess the impacts on coordination and selectivity of the overcurrent protec... (Complete abstract click electronic access below) / Mestre

Microrredes

Proteção Proteção.

Rede de Distribuição

Microgrids

Protection

Distribution Network

Distributed Energy Storage Systems: Microgrid Application, Market-Based Optimal Operation and Harmonic Analysis

Arghandeh Jouneghani, Reza

03 May 2013

The need for modern electricity infrastructures and more capable grid components brings attention to distributed energy storage systems because of their bidirectional power flow capability. This dissertation focuses on three different aspects of distributed energy storage system applications in distribution networks. It starts with flywheel energy storage system modeling and analysis for application in microgrid facilities. Then, a market-based optimal controller is proposed to enhance the operational profit of distributed energy storage devices in distribution networks. Finally, impact of multiple distributed energy storage devices on harmonic propagation in distribution networks is investigated. This dissertation provides a comparison between batteries and flywheels for the ride-through application in critical microgrid facilities like data centers. In comparison with batteries, the application of FES for power security is new. This limits the availability of experimental data. The software tool developed in this dissertation enables analysis of short-term, ride-through applications of FES during an islanded operation of a facility microgrid. As a result, it can provide a guideline for facility engineers in data centers or other types of facility microgrids to design backup power systems based on FES technology. This dissertation also presents a real-time control scheme that maximizes the revenue attainable by distributed energy storage systems without sacrificing the benefits related to improvements in reliability and reduction in peak feeder loading. This optimal control algorithm provides a means for realizing additional benefits by utilities by taking advantage of the fluctuating cost of energy in competitive energy markets. The key drivers of the economic optimization problem for distributed energy storage systems are discussed. In this dissertation, the impact of distribution network topology on harmonic propagation due to the interaction of multiple harmonic sources is investigated. Understanding how multiple harmonic sources interact to increase or decrease the harmonic distortion is crucial in distribution networks with a large number of Distributed Energy Resources. A new index, Index of Phasor Harmonics (IPH), is proposed for harmonic quantization in multiple harmonic source cases. The proposed IPH index presents more information than commonly used indices. With the help of the detailed distribution network model, topological impacts of harmonic propagation are investigated. In particular, effects of mutual coupling, phase balance, three phase harmonic sources, and single phase harmonic sources are considered. / Ph. D.

Distribution Network

Optimization

Control

Microgrid

Energy Storage

Harmonics

Economical Operation

Optimal siting and sizing of wind turbines based on genetic algorithm and optimal power flow

Mokryani, Geev, Siano, P.

January 2014

No

Impact and Adoption of Flexibility in a Rigid and Centralized Distribution Network : A Case Study on a Global Manufacturing Company

SÖDERBERG, ANTON, WALLENBERG, ALEXANDER

January 2016

For manufacturing firms to succeed in the global marketplace it is important that they have an efficient supply chain that is well adapted to the characteristics of the products. This thesis explore the companies' challenge to adapt its supply chain to the characteristics of  heir products. A case study has been conducted on a global manufacturing company's distribution network. The company, which is in focus of the study, has conducted extensive effort with standardization and centralization of the distribution network to improve the performance indicators. Consequently, the study focuses on examining how the factors, standardization and centralization, impact the performance indicators in the distribution network. The empirical results show that the company's distribution network is designed to operate efficiently for Make-To-Stock (MTS)  products.  Nonetheless,  the  network  does  not  work as efficiently for Make-To-Order (MTO) products. These products are forced through a  series of non-value activities. The lack of flexibility in the network leads to manually bypasses, which increases both the workload and risk. Therefore, the performance  indicators are improved  by  a  more  flexible  design  adapted  to  the  product  characteristics and customer needs. The study identifies four barriers preventing the company to adapt its distribution network to a more flexible design An excessive focus on economies of scale Imbalance between central and regional capabilities in the organization Rigid processes and lack of software support Complexity in transfer pricing and revenue sharing between entities Finally, the study contributes with suggested actions aimed to increase the flexibility of the company's distribution network.

Manufacturing and Distribution Network

Standardization

Centralization

Economics and Business

Ekonomi och näringsliv

Power Line Communications over Power Distribution Networks of Microprocessors - Feasibility Study, Channel Modeling, and a Circuit Design Approach

Thirugnanam, Rajesh

24 January 2008

Power line communications (PLC) has been considered by utility companies for over a half century and for home networking in recent years. However, PLC at the IC level, or even at the PCB level, has not been investigated outside Dr. Ha's research group. This thesis investigates the feasibility of PLC over power distribution networks (PDNs) of advanced microprocessors. A PDN in an integrated circuit (IC) is ubiquitous as seen by the internal logic, i.e., a power line is accessible to any internal node. This suggests the possibility of monitoring or controlling the logic value of any internal node through a power line by attaching a simple sensing/control circuit to the node. Routing the data through a power line avoids the necessity of preplanning the routing of a data path between the node and an external data pin. PLC over microprocessor PDNs also provide a viable means for "run-time testing" as well as for monitoring the so called "large time-constant errors" resulting from aging and temperature variations. In this thesis, we considered impulse-based ultra wideband (I-UWB) communication technology for PLC over PDNs of microprocessors. I-UWB has several advantages for PLC over PDNs due to its robustness to multipath effects, simple hardware for transmission and reception of pulses and, more importantly, reduced interference to the normal operation of microprocessors. A microprocessor PDN is heavily decoupled to damp the resonances in the power supply impedance as well as to reduce the slew rate of current variations by locally supplying (sinking) currents to (from) the switching nodes. Consequently, a PDN behaves like a bulky lowpass filter for high frequency signals. However, the inductance component of decoupling capacitors becomes more significant beyond the self resonant frequency (SRF) of the capacitors. So, a PDN becomes essentially a distributed circuit beyond the SRF and is no longer a lowpass filter. Indeed, high frequency PDN models developed earlier at Dr. Ha's group show that there exist multiple frequency bands where high frequency signals can propagate through the PDN with relatively low attenuation [3] [4]. The major contributions of our research lie in three areas. First, we verified existence of passbands on PDN's transfer characteristics through measurements. We carried out high frequency measurements on the PDN of Intel's 65 nm Pentium processor and 45 nm Core 2 Duo processor. We measured PDN transfer characteristics up to several GHz from a core power pin on a tester board to an on-chip power node for both active and cold microprocessor dies. The measurements show the existence of narrow, sporadic and migratory passbands i.e. location of passbands change from one generation of processor to the next. The migratory nature of passbands requires the I-UWB receiver and a transmitter to cover a wide range of frequencies rather than a specific passband. Second, we have developed a PDN communication channel model for system level study. To develop the channel model, we also performed noise measurements on Intel microprocessors. The link budget was calculated based on the channel model and appropriate modulation schemes were suggested through the system level study. Third, we investigated design of an I-UWB receiver and a transmitter, which cover a wide bandwidth. The proposed receiver and transmitter designs were evaluated through simulations in TSMC 0.18 μm CMOS process. Our simulation indicates that the PLC over a PDN is feasible with a relatively simple digital-process friendly I-UWB receiver and a transmitter. / Ph. D.

Ultra Wideband

Microprocessor

Power Distribution Network

Power Line Communications