Gerenciamento pelo lado da demanda em sistemas elétricos industriais utilizando algoritmos genéticos

Cortez, Victor Hugo Neto

January 2017

Submitted by Renata Lopes (renatasil82@gmail.com) on 2017-11-07T10:48:05Z No. of bitstreams: 1 victorhugonetocortez.pdf: 3818044 bytes, checksum: a304eae89e97b941ff18b7233b80be9e (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2017-11-09T14:32:54Z (GMT) No. of bitstreams: 1 victorhugonetocortez.pdf: 3818044 bytes, checksum: a304eae89e97b941ff18b7233b80be9e (MD5) / Made available in DSpace on 2017-11-09T14:32:54Z (GMT). No. of bitstreams: 1 victorhugonetocortez.pdf: 3818044 bytes, checksum: a304eae89e97b941ff18b7233b80be9e (MD5) Previous issue date: 2017 / Grandes indústrias e parques industriais estão entre os maiores consumidores de energia de um país e sendo assim é interessante do ponto de vista do sistema elétrico fazer com que a energia utilizada por estes consumidores seja consumida de forma eficiente. Também é do interesse dos consumidores buscar a otimização do uso da energia, principalmente pela ótica da economia que pode ser alcançada nos custos e tarifas com energia elétrica. Uma das maneiras de se atingir este objetivo é através do Gerenciamento pelo Lado da Demanda onde se pode remanejar cargas de acordo com um objetivo preestabelecido, como por exemplo, a diminuição de custos com energia elétrica. Neste trabalho é apresentada uma metodologia para realocação de cargas em sistemas industriais. Esta metodologia utiliza cargas que estejam dentro de programas de controle direto de carga e busca encontrar um horário de alocação que traga a maior economia. A realocação é realizada através do uso de um algoritmo genético que tem como resultado final o horário otimizado de alocação de todas as cargas e consequentemente a curva de carga resultante. / Large industries and industrial parks are one of the largest energy consumers in a country and therefore it is essential to encourage that the energy consumed by those industries is done so efficiently. It is also in the best interest of the consumers to encourage those changes, especially regarding the economy that can be achieved by the embedded costs and tariffs. One of the ways to achieve this goal is to use a demand side management technique where loads can be shifted according to pre-determined objectives such as reducing the costs with electrical energy. In this thesis, a methodology for load shifting is presented for use in industrial systems. This methodology utilizes loads that are in direct load control programmes and aims to find the connection time that brings the most economical benefit. The reallocation is realized through the use of a genetic algorithm that has the best allocated time and load curve as a result.

CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA

Gerenciamento pelo lado da demanda

Sistemas industriais

Realocação de carga

Algoritmo genético

Controle direto de carga

Demand side management

Industrial systems

Load shifting

Genetic algorithms

Direct load control

Optimal sizing and operation of pumping systems to achieve energy efficiency and load shifting

Zhang, He

22 September 2011

This dissertation presents a pumping system operation efficiency improvement solution that includes optimal selection and control of the water pump. This solution is formulated based on the performance, operation, equipment and technology (POET) framework. The focus is on the minimization of the operational energy cost. This efficiency improvement solution is divided into three stages in accordance with the operation category of the POET framework. The first stage is to select the optimal pump capacity by considering both energy efficiency and load shifting requirements. The second stage is to develop a flexible pump controlling strategy that combines and balances the contributions from energy efficiency and load shifting. The last stage is to improve the robustness of the control system using the closed-loop model predictive control approach. An optimal pump capacity selection model is formulated. In this model, additional capacity requirements for load shifting are considered along with the traditional energy efficiency requirements. By balancing the contributions from load shifting and energy efficiency, the operational energy cost can be reduced by up to 37%. An optimal pump control is formulated. The objective of this control model is to balance the energy efficiency and load shifting contributions during the operation and minimize the operational energy cost. This control model is tested under different operational conditions and it is compared to other existing control strategies. The simulation and comparison results show that the proposed control strategy achieves the lowest operational energy cost in comparison to other strategies. This optimal pump control model is further modified into the closed-loop model predictive control format to increase the robustness of the control system under operation uncertainties. A mixed integer particle swarm optimization algorithms is employed to solve the optimization problems in this research. AFRIKAANS : Hierdie verhandeling bied ’n verbeterde oplossing vir die operasionele doeltreffendheid van pompstelsels wat die optimale keuse en beheer van die waterpomp insluit. Hierdie oplossing is geformuleer op ’n raamwerk wat werkverrigting, bedryf, toerusting en tegnologie in ag neem. Die oplossing fokus op die vermindering van bedryfsenergie koste. Hierdie oplossing is onderverdeel in drie fases soos bepaal deur die bedryfskategorie gegrond op die bogenoemde raamwerk: Die eerste fase is die keuse van die optimale pompkapasiteit deur beide energiedoeltreffendheid en lasverskuiwing in ag te neem. Die tweede fase is om ’n buigbare pompbeheer strategie te ontwikkel wat ’n goeie balans handhaaf tussen die onderskeie bydraes van energiedoeltreffendheid en lasverskuiwing. Die derde fase is om die stabiliteit van die beheerstelsel te verbeter deur gebruik te maak van ’n geslote-lus beheermodel met voorspellende beheer (Predictive Control). ’n Model vir die keuse van optimale pompkapasiteit is geformuleer. In hierdie model word vereistes vir addisionele pompkapasiteit vir lasverskuiwing sowel as vereistes in terme tradisionele energiedoeltreffendheid in ag geneem. Deur die regte verhouding tussen die onderskeie bydraes van energiedoeltreffendheid en lasverskuiwing te vind kan ’n besparing van tot 37% op die energiekoste verkry word. Optimale pompbeheer is geformuleer. Die doel van die beheermodel is om die bydraes van energiedoeltreffendheid en lasverskuiwing te balanseer en om die bedryfsenergie koste te minimiseer. Hierdie beheermodel is getoets onder verskillende bedryfstoestande en dit is vergelyk met ander bestaande beheerstrategiee. Die simulasie en vergelyking van resultate toon dat die voorgestelde beheerstrategie die laagste bedryfsenergie koste behaal in vergelyking met ander strategiee. Hierdie optimale pomp beheermodel is verder aangepas in ’n geslote beheermodel met voorspellende beheerformaat om die stabiliteit van die beheerstelsel te verbeter onder onsekere bedryfstoestande. ’n Gemende heelgetal partikel swerm optimisasie (Mixed interger particle swarm optimization) algoritme is gebruik om die optimiseringsprobleme op te los tydens hierdie navorsingsoefening. / Dissertation (MEng)--University of Pretoria, 2011. / Electrical, Electronic and Computer Engineering / Unrestricted

Pump

Load shifting

Energy efficiency

Poet

Operational cost

Optimal capacity selection

Mpc

Optimal control

Variable speed drive

Lasverskuiwing

Energiedoeltreffendheid

Pomp

Mixed integer pso

Gemengde heelgetal pso

Optimale kapasiteit

Veranderlike spoed motor

Optimale beheer

Bedryfskoste

UCTD

Techno-economic Potential of Customer Flexibility : A Case Study

Bouraleh, Maryan

January 2020

District heating plays a major role in the Swedish energy system. It is deemed a renewable energy source and is the main provider for multi-family dwellings with 90 %. Although the district heating fuel mix consists of majority renewables, a share of 5 % is provided from fossil fuels. To reduce fossil fuel usage and eradicate CO2-emissions from the district heating system new solutions are sought after. In this project, the potential for shortterm thermal energy storage in buildings is investigated. This concept is referred to as customer flexibility. Demand flexibility is created in the district heating system (DHS) by varying the indoor temperature in 50 multi-family dwellings with maximum 1◦C, without jeopardizing the thermal comfort for the tenants. The flexible load makes it possible to store energy shortterm in the building’ envelope. Consequently, heat load curves are evened in production. This leads to a reduction of the peak load in the DHS. Peaks are associated with high costs and environmental impact. Therefore, the potential benefits of customer flexibility are reduced peak production, fuel costs, and CO2-emissions, depending on the fuel mix in the DHS. The project objective is to examine the techno-economic potential of customer flexibility in a specific DHS. The case study is made in a DHS owned by the company Vattenfall, located in the Stockholm area. To evaluate the potential benefits of implementing the concept, seven key performance indicators are chosen. They are peak power, peak fuel usage, produced volume, total fuel cost, fuel cost per produced MWh, climate footprint, and primary energy. Moreover, an in-house optimization model is used to simulate multiple scenarios of the district heating DHS. Different sets of assumptions about the available flexibility in the DHS and the thermal characteristics of the buildings are made. Customer flexibility is modeled as virtual heat storage that can be charged up or down depending on the speed and size of the available storage at a specific outdoor temperature. Simulation results give a maximum peak power reduction of 10.9 % and annual fuel cost reduction between 0.9-3.6 % depending on the scenario. The results found are comparable to values found in similar studies. However, the environmental key performance indicators generated an increase in CO2-emissions and primary energy compared to the baseline scenarios. The result would have looked different if fossil fuels were used in peak production instead of biofuels. The master thesis also aimed to validate assumptions and parameters made in the input data to the optimization model. This was achieved by using results attained from a pilot in the specific DHS. Therefore results generated from the simulations are deemed accurate and confirm that customer flexibility leads to reduced peak production and DHS optimization. / Se filen

district heating

demand-side management

customer flexibility

thermal inertia

virtual storage

thermal energy storage

load shifting

space heating

multi-family dwellings

demand response

fjärrvärme

efterfrågesidahantering

kundflexibilitet

termisk tröghet

virtuell lagring

v¨armeenergilagring

lastförskjutning

byggnadsuppvärmning

flerfamiljshus

demand response

Energy Engineering

Energiteknik

Optimum water distribution between pumping stations of multiple mine shafts / Nicolas Laurens Oosthuizen.

Oosthuizen, Nicolas Laurens

January 2012

In 2011 the mining industry purchased 14.5% of the electrical energy generated by Eskom. During 2011 in South Africa, dewatering pump systems on gold mines were the fourth largest electrical energy consumer on South African mines therefor making dewatering pumps ideal candidates to generate significant financial savings. These savings can be realised by controlling time-of-use (TOU) schedules. Previous studies concentrated on the impact of improving a pumping scheme of a single mineshaft. This dissertation will focus on the operations of a complete dewatering system consisting of multiple mineshafts. The case study will consist of a gold mine complex comprising of five different shafts - each with its own reticulation system – as well as the larger interconnected water reticulation system. Various pumping options were investigated, simulated and verified. The interaction between shafts was determined when load-shifting was scheduled for all the shafts taking each shaft’s particular infrastructure into account. The underground dewatering system was automated and optimised based on the simulation results. Mine safety protocols were adhered to while optimal pump operational schedules were introduced. / Thesis (MIng (Electrical and Electronic Engineering))--North-West University, Potchefstroom Campus, 2013.

Mining industry

underground dewatering pump systems

gold mines

electrical energy

financial savings

time-of-use (TOU) schedules

improving a pumping scheme

multiple mineshafts

water reticulation system

load-shifting

Mynbedryf

ondergrondse pompstelsels

goudmyne

elektriese energie

finansiële besparing

piektye

optimering van pompskemas

verskeie mynskagte

retikulasiestelsel

lasskuif

Optimum water distribution between pumping stations of multiple mine shafts / Nicolas Laurens Oosthuizen.

Oosthuizen, Nicolas Laurens

January 2012

In 2011 the mining industry purchased 14.5% of the electrical energy generated by Eskom. During 2011 in South Africa, dewatering pump systems on gold mines were the fourth largest electrical energy consumer on South African mines therefor making dewatering pumps ideal candidates to generate significant financial savings. These savings can be realised by controlling time-of-use (TOU) schedules. Previous studies concentrated on the impact of improving a pumping scheme of a single mineshaft. This dissertation will focus on the operations of a complete dewatering system consisting of multiple mineshafts. The case study will consist of a gold mine complex comprising of five different shafts - each with its own reticulation system – as well as the larger interconnected water reticulation system. Various pumping options were investigated, simulated and verified. The interaction between shafts was determined when load-shifting was scheduled for all the shafts taking each shaft’s particular infrastructure into account. The underground dewatering system was automated and optimised based on the simulation results. Mine safety protocols were adhered to while optimal pump operational schedules were introduced. / Thesis (MIng (Electrical and Electronic Engineering))--North-West University, Potchefstroom Campus, 2013.

Mining industry

underground dewatering pump systems

gold mines

electrical energy

financial savings

time-of-use (TOU) schedules

improving a pumping scheme

multiple mineshafts

water reticulation system

load-shifting

Mynbedryf

ondergrondse pompstelsels

goudmyne

elektriese energie

finansiële besparing

piektye

optimering van pompskemas

verskeie mynskagte

retikulasiestelsel

lasskuif