Fast Optimization Methods for Model Predictive Control via Parallelization and Sparsity Exploitation / 並列化とスパース性の活用によるモデル予測制御の高速最適化手法

DENG, HAOYANG

23 September 2020

京都大学 / 0048 / 新制・課程博士 / 博士(情報学) / 甲第22808号 / 情博第738号 / 新制||情||126(附属図書館) / 京都大学大学院情報学研究科システム科学専攻 / (主査)教授 大塚 敏之, 教授 加納 学, 教授 太田 快人 / 学位規則第4条第1項該当 / Doctor of Informatics / Kyoto University / DFAM

Model predictive control

Real-time optimization

Large-scale systems

Parallel computing

Sparsity exploitation

007

Sustainable Travel Incentives Optimization in Multimodal Networks

Ghafourian, Hossein

29 October 2019

Tripod, an integrated bi-level transportation management system, is a smartphone application from the potential user’s point of view which would be instantly accessed prior to performing the trip. Since there are constantly several alternatives for any trip, Tripod considers a series and combination of various parameters, including departure time, mode and route, and rewards for each alternative with a number of redeemable points for goods and services called “Tokens”. The framework responsible for computing the optimized number of tokens awarded to the set of available alternatives in order to minimize the system-wide energy consumption under a constrained Token budget, is the System Optimization (SO) implemented in Tripod. To do so, a higher number of tokens would be awarded to the alternatives, guaranteeing a larger energy saving, less energy consumption, alternatively. SO is multimodal whereby public transit, private car, carpooling, etc. are being considered as the potential travel modes. Furthermore, SO is dynamic, predictive and personalized: the same alternative is rewarded differently, depending on the current and predicted future condition of the network and on the individual’s profile. In order to solve this problem, a multimodal simulation-based optimization model will be elaborated.

incentives

system optimization

energy

real-time optimization

prediction

personalization

Transportation Engineering

Generalizations of the Mandelstam-Tamm Quantum Speed Limit

Hörnedal, Niklas

January 2021

Quantum speed limits are lower bounds on the evolution time for quantum systems. In this thesis, we consider closed quantum systems. We investigate how different principal bundles offers a geometrical method for obtaining generalizations of the Mandelstam-Tamm quantum speed limit for mixed states. We look at three different principal bundles from which we derive two already known quantum speed limits, the Uhlmann and Andersson QSLs, and one which is new, the Grassmann QSL. We also investigate the tightness of these quantum speed limits and how they compare with each other.

Quantum Information

Quantum Speed Limits

Unitary Dynamics

Time-Optimization

Mandelstam-Tamm

Physical Sciences

Fysik

Design and Analysis of Dynamic Real-time Optimization Systems

Eskandari, Mahdi

30 November 2017

Process economic improvement subject to safety, operational and environmental constraints is an ultimate goal of using on-line process optimization and control techniques. The dynamic nature of present-day market conditions motivates the consideration of process dynamics within the economic optimization calculation. Two key paradigms for implementing real-time dynamic economic optimization are a dynamic real-time optimization (DRTO) and regulatory MPC two-layer architecture, and a single-level economic model predictive control (EMPC) con figuration. In the two-layer architecture, the economically optimal set-point trajectories computed in an upper DRTO layer are provided to the MPC layer, while in the single-layer EMPC con figuration the economics are incorporated within the MPC objective function. There are limited studies on a systematic performance comparison between these two approaches. Furthermore, these studies do not simultaneously consider the economic, disturbance rejection and computational performance criteria. Thus, it may not be clear under what conditions one particular method is preferable over the other. These reasons motivate a more comprehensive comparison between the two paradigms, with both open and closed-loop predictions considered in the DRTO calculations. In order to conduct this comparison, we utilize two process case studies for the economic analysis and performance comparison of on-line optimization systems. The first case study is a process involving two stirred-tank reactors in-series with an intermediate mixing point, and the second case study is a linear multi-input single-output (MISO) system. These processes are represented using a fi rst principles model in the form of differential-algebraic equations (DAEs) system for the first case study and a simplified linear model of a polymerization reactor for the second case study problem. Both of the case study processes include constraints associated with input variables, safety considerations, and output quality. In these case study problems, the objective of optimal process operation is net profit improvement. The following performance evaluation criteria are considered in this study: (I) optimal value of the economic objective function, (II) average run time (ART) over a same operating time interval, (III) cumulative output constraint violation (COCV) for each constraint. The update time of the single-layer approach is selected to be equal to that of the control layer in the two-layer formulations, while the update time of the economic layer in the two-layer formulation is bigger than that of the single-layer approach. The nonlinear programing (NLP) problems which result in the single-layer and two-layer formulations and the quadratic programing problem which corresponds to the MPC formulation are solved using the fmincon and quadprog optimization solvers in MATLAB. Performance assessment of the single-layer and two-layer formulations is evaluated in the presence of a variety of unknown disturbance scenarios for the first case study problem. The effect of a dynamic transition in the product quality is considered in the performance comparison of the single-layer and two-layer methods in the second case-study problem. The first case study problem results show that for all unknown disturbance scenarios, the economic performance of the single-layer approach is slightly higher than that of the two layer formulations. However, the average computation times for the DRTO-MPC two-layer formulations are at least one order of magnitude lower than that of the EMPC formulation. Also, comparison results of the COCV for the EMPC formulation for different sizes of update time intervals could justify the necessity of the MPC control layer to reduce the COCV for the economic optimization problems with update times larger than that of the MPC control layer. A similar computational advantage of the OL- and CL-DRTO-MPC over the EMPC is observed for the second case study problem. In particular, it is shown that increasing the economic horizon length in the EMPC formulation to a sufficiently large value may result a higher economic improvement. However, the increase in economic optimization horizon would increase the resulting NLP problem size. The computational burden could limit the use of the EMPC formulation with larger economic optimization horizons in real-time applications. The ART of the dual-layer methods is at least two orders of magnitude lower than that of the EMPC methods with an appropriate horizon length. The CL-DRTO-MPC economic performance is slightly less than that of the EMPC formulation with the same economic optimization horizon. In conclusion, the performance comparison on the basis of multiple criteria in this study demonstrates that the economic performance criterion is not necessarily the only important metric, and the operational constraint limitations and the optimization problem solution time could have an important impact on the selection of the most suitable real-time optimization approach. / Thesis / Master of Applied Science (MASc)

Dynamic Real-time Optimization

Economic Model Predictive Control

MPC

Process Automation Architecture

Control Performance

High Efficiency Optimization of LLC Resonant Converter for Wide Load Range

Liu, Ya

13 February 2008

As information technology advances, so does the demand for power management of telecom and computing equipment. High efficiency and high power density are still the key technology drivers for power management for these applications. In order to save energy, in 2005, the U.S. Environmental Protection Agency (EPA) announced the first draft of its proposed revision to its ENERGY STAR specification for computers. The draft specification separately addresses efficiency requirements for laptop, desktop, workstation and server computers. The draft specification also proposes a minimum power supply efficiency of 80% for PCs and 75% to 83% for desktop derived servers, depending on loading condition and server type. Furthermore, recently some industry companies came out with a much higher efficiency target for the whole AC/DC front-end converter over a wide load range. Distributed power systems are widely adopted in the telecom and computing applications for the reason of high performance and high reliability. As one of the key building blocks in distributed power systems, DC/DC converters in the front-end converter are also under the pressure of increasing efficiency and power density. Due to the hold-up time requirement, PWM DC/DC converters cannot achieve high efficiency for well known reasons when they are designed for wide input voltage range. As a promising topology for this application, LLC resonant converters can achieve both high efficiency and wide input voltage range capability because of its voltage gain characteristics and small switching loss. However, the efficiency of LLC resonant converter with diode rectifier still cannot meet the recent efficiency target from industry. In order to further improve efficiency of LLC resonant converters, synchronous rectification must be used. The complete solution of synchronous rectification of LLC resonant converters is discussed in this thesis. The driving of the synchronous rectifier can be realized by sensing the voltage Vds of the SR. The turn-on of the SR can be triggered by the body-diode conduction of the SR. With the Vds compensation network, the precise voltage drop on Rds_on can be achieved, thus the SR can be turned off at the right time. Moreover, efficiency optimization at normal operation over wide load range is discussed. It is revealed that power loss at normal operation is solely determined by the magnetizing inductance while the magnetizing inductor is designed according to dead-time td selection. The mathematic equations for the relationship between power loss and dead-time are developed. For the first time, the relationship between power loss and dead-time is used as a tool for efficiency optimization. With this tool, the efficiency optimization of the LLC resonant converter can be made according to efficiency requirement over a wide load range. With the expectation to achieve high efficiency at ultra-light load, the green mode operation of LLC resonant converters is addressed. The rationale of the issue with the conventional control algorithm is revealed and a preliminary solution is proposed. / Master of Science

Light Load Efficiency

DC/DC

LLC resonant converter

Synchronous rectification

Dead-time Optimization

Implementação industrial de um otimizador em tempo real. / Industrial implementation of a real time optimizer.

Zanin, Antônio Carlos

18 April 2001

Esta tese descreve o desenvolvimento e implementação de um otimizador em tempo real da operação do conversor da unidade de craqueamento catalítico em leito fluidizado (FCC) da refinaria Henrique Lage localizada em São José dos Campos. É desenvolvida uma estratégia de otimização integrada ao controlador preditivo cuja função objetivo e restrições incorporam componentes dinâmicos e estáticos. Os problemas de controle multivariável e otimização econômica são resolvidos simultaneamente num mesmo algoritmo. É utilizado um modelo rigoroso do processo para determinar as condições econômicas ótimas do estado estacionário do conversor. Por intermédio do modelo dinâmico, obtido através de testes em degrau na planta, é determinada a melhor trajetória para conduzir o processo para o seu ponto de maior lucratividade, sem violar as suas restrições operacionais durante as transições. As variáveis controladas e manipuladas possuem restrições tanto no transiente como no estado estacionário. O problema de otimização não linear resultante é resolvido através de um algoritmo SQP. A nova estratégia de otimização forneceu excelentes resultados nas simulações com as condições normais de operação e as perturbações típicas da unidade. Na comparação desta estratégia com a convencional, cujas funções de controle e otimização estão separadas, a mesma mostrou um melhor desempenho por manter o processo mais estável. Na fase de implementação do otimizador, o controlador preditivo multivariável existente no conversor foi adaptado para a nova estrutura de otimização através da inclusão das funções de otimização que envolvem o modelo rigoroso do estado estacionário do processo. O controlador/otimizador foi inserido no software da Petrobras denominado SICON, o qual já era utilizado como plataforma de sintonia e manutenção do controlador multivariável linear do conversor. Esse software tem facilidades para desenvolvimento e implementação de estratégias de controle avançado. Neste trabalho são apresentados os aspectos mais importantes da integração do otimizador na estrutura de automação da refinaria e o seu comissionamento. Estão também relacionadas as principais dificuldades encontradas na implementação do otimizador e a forma que as mesmas foram solucionadas. Os resultados obtidos na planta mostram um bom desempenho do novo algoritmo tanto em relação aos benefícios econômicos como na estabilização da unidade. / This thesis describes the development and implementation of a real time optimizer of the operation of a fluid catalytic cracking (FCC) converter in the Henrique Lage refinery located in São José dos Campos. It is developed an optimization strategy integrated into the predictive controller whose objective function and constraints incorporate dynamic and static components. The multivariable control and the economic optimization problems are solved simultaneously by the same algorithm. A rigorous process model is used to determine the converter steady-state optimum economic operating conditions. By utilizing a dynamic model, obtained through step tests in the plant, calculations are carried out in order to determine the best path to drive the process to its more profitable operating point, without violating operational constraints during the transient modes. All controlled and manipulated variables are constrained, both in the steady-state and in the dynamic states. The resulting optimization problem is nonlinear and is solved by an SQP algorithm. The new optimization strategy has provided excellent results in the simulations performed at normal operating conditions and typical disturbances. Comparing to the conventional strategy, whose control and optimization functions are separated, the new one has shown a better performance by maintaining a smoother operation of the process. In the optimizer implementation phase, the existent predictive linear controller was adapted to the new optimization structure by including the optimization function that involves the rigorous steady-state model of the process. The optimizing controller was inserted in Petrobras SICON software, which was already being used as a tuning and maintenance platform of the linear multivariable controller of the converter. This software has nice features for the development and implementation of advanced process control strategies. In this work it is presented the more important aspects of the optimizer integration into the refinery automation structure and its commissioning. The main difficulties of the optimizer implementation and the way how they were solved are also related. Plant results show a good performance of the new algorithm in terms of economic benefits and unit stabilization.

aplicação industrial de otimização

FCC optimization

optimizing controller

otimização de FCC

otimização de processo

otimização em tempo real

otimização integrada ao controle

process optimization

real time optimization

Implementação industrial de um otimizador em tempo real. / Industrial implementation of a real time optimizer.

Antônio Carlos Zanin

18 April 2001

Esta tese descreve o desenvolvimento e implementação de um otimizador em tempo real da operação do conversor da unidade de craqueamento catalítico em leito fluidizado (FCC) da refinaria Henrique Lage localizada em São José dos Campos. É desenvolvida uma estratégia de otimização integrada ao controlador preditivo cuja função objetivo e restrições incorporam componentes dinâmicos e estáticos. Os problemas de controle multivariável e otimização econômica são resolvidos simultaneamente num mesmo algoritmo. É utilizado um modelo rigoroso do processo para determinar as condições econômicas ótimas do estado estacionário do conversor. Por intermédio do modelo dinâmico, obtido através de testes em degrau na planta, é determinada a melhor trajetória para conduzir o processo para o seu ponto de maior lucratividade, sem violar as suas restrições operacionais durante as transições. As variáveis controladas e manipuladas possuem restrições tanto no transiente como no estado estacionário. O problema de otimização não linear resultante é resolvido através de um algoritmo SQP. A nova estratégia de otimização forneceu excelentes resultados nas simulações com as condições normais de operação e as perturbações típicas da unidade. Na comparação desta estratégia com a convencional, cujas funções de controle e otimização estão separadas, a mesma mostrou um melhor desempenho por manter o processo mais estável. Na fase de implementação do otimizador, o controlador preditivo multivariável existente no conversor foi adaptado para a nova estrutura de otimização através da inclusão das funções de otimização que envolvem o modelo rigoroso do estado estacionário do processo. O controlador/otimizador foi inserido no software da Petrobras denominado SICON, o qual já era utilizado como plataforma de sintonia e manutenção do controlador multivariável linear do conversor. Esse software tem facilidades para desenvolvimento e implementação de estratégias de controle avançado. Neste trabalho são apresentados os aspectos mais importantes da integração do otimizador na estrutura de automação da refinaria e o seu comissionamento. Estão também relacionadas as principais dificuldades encontradas na implementação do otimizador e a forma que as mesmas foram solucionadas. Os resultados obtidos na planta mostram um bom desempenho do novo algoritmo tanto em relação aos benefícios econômicos como na estabilização da unidade. / This thesis describes the development and implementation of a real time optimizer of the operation of a fluid catalytic cracking (FCC) converter in the Henrique Lage refinery located in São José dos Campos. It is developed an optimization strategy integrated into the predictive controller whose objective function and constraints incorporate dynamic and static components. The multivariable control and the economic optimization problems are solved simultaneously by the same algorithm. A rigorous process model is used to determine the converter steady-state optimum economic operating conditions. By utilizing a dynamic model, obtained through step tests in the plant, calculations are carried out in order to determine the best path to drive the process to its more profitable operating point, without violating operational constraints during the transient modes. All controlled and manipulated variables are constrained, both in the steady-state and in the dynamic states. The resulting optimization problem is nonlinear and is solved by an SQP algorithm. The new optimization strategy has provided excellent results in the simulations performed at normal operating conditions and typical disturbances. Comparing to the conventional strategy, whose control and optimization functions are separated, the new one has shown a better performance by maintaining a smoother operation of the process. In the optimizer implementation phase, the existent predictive linear controller was adapted to the new optimization structure by including the optimization function that involves the rigorous steady-state model of the process. The optimizing controller was inserted in Petrobras SICON software, which was already being used as a tuning and maintenance platform of the linear multivariable controller of the converter. This software has nice features for the development and implementation of advanced process control strategies. In this work it is presented the more important aspects of the optimizer integration into the refinery automation structure and its commissioning. The main difficulties of the optimizer implementation and the way how they were solved are also related. Plant results show a good performance of the new algorithm in terms of economic benefits and unit stabilization.

aplicação industrial de otimização

otimização de FCC

otimização de processo

otimização em tempo real

otimização integrada ao controle

FCC optimization

optimizing controller

process optimization

real time optimization

A multi-agent software system for real-time optimization of chemical plants. / Sistema multi-agentes de software para a otimização em tempo real de plantas quí­micas.

Estrada Martínez, Elyser

09 March 2018

Real-Time Optimization (RTO) is a family of techniques that pursue to improve the performance of chemical processes. As general scheme, the method reevaluates the process conditions in a frequent basis and tries to adjust some selected variables, taking into account the plant state, actual operational constraints and optimization objectives. Several RTO approaches have born from the academy research and industrial practices, at the same time that more applications have been implemented in real facilities. Between the main motivations to apply RTO are the dynamic of markets, the seek for quality in the process results and environmental sustainability. That is why the interest on deeply understand the phases and steps involved in an RTO application has increased in recent years. Nevertheless, the fact that most of the existing RTO systems have been developed by commercial organizations makes it difficult to meet that understanding. This work studies the nature of RTO systems from a software point of view. Software requirements for a generic system are identied. Based on that, a software architecture is proposed that could be adapted for specfic cases. Benefits of the designed architecture are listed. At the same time, the work proposes a new approach to implement that architecture as a Multi-Agent System (MAS). Two RTO system prototypes were developed then, one for a well-know academic case study and the other oriented to be used in a real unit. The benefits of the MAS approach and the architecture, for researching on the RTO field and implementation on real plants, are analyzed in the text. A sub-product of the development, a software framework covering main concepts from the RTO ontology, is proposed as well. As the framework was designed to be generic, it can be used in new applications development and extended to very specific scenarios. / Otimização em Tempo Real (OTR) é uma família de técnicas que buscam melhorar o desempenho dos processos químicos. Como esquema geral, o método reavalia frequentemente as condições do processo e tenta ajustar algumas variáveis selecionadas, levando em considera ção o estado da planta, restrições operacionais e os objetivos da otimização. Várias abordagens para OTR t^em surgido da pesquisa acadêmica e das práticas industriais, ao mesmo tempo em que mais aplicações têm sido implementadas em plantas reais. As principais motivações para aplicar OTR são: a dinâmica dos mercados, a busca de qualidade nos resultados dos processos e a sustentabilidade ambiental. É por isso que o interesse em entender as fases e etapas envolvidas em uma aplicação OTR cresceu nos últimos anos. No entanto, o fato de que a maioria dos sistemas OTR em operação foram desenvolvidos por organizações comerciais dificulta o caminho para chegar nesse entendimento. Este trabalho analisa a natureza dos sistemas OTR desde o ponto de vista do software. Os requerimentos para um sistema genérico são levantados. Baseado nisso, é proposta uma arquitetura de software que pode ser adaptada para casos específicos. Os benefícios da arquitetura projetada foram listados. Ao mesmo tempo, o trabalho propõe uma nova abordagem para implementar essa arquitetura: Sistema Multi-Agentes (SMA). Dois protótipos de sistema OTR foram desenvolvidos. O primeiro aplicado num estudo de caso bem conhecido na literatura acadêmica. O segundo voltado para ser usado em uma unidade industrial. Os benefícios da abordagem SMA e da arquitetura, tanto na pesquisa relacionada com OTR, quanto na implementação em plantas reais, são analisados no texto. Um arcabouço de software que abrange os principais conceitos da ontologia OTR é proposto como resultado derivado do desenvolvimento. O arcabouço foi projetado para ser genérico, possibilitando seu uso no desenvolvimento de novas aplicações OTR e sua extensão a cenários muito específicos.

Arquitetura de software

Multi-Agent System (MAS)

Real-Time Optimization (RTO)

Sistemas multiagentes

Software agent

Software Architecture (SA)

Tempo-real (Otimização)

Real time optimization in chemical process: evaluation of strategies, improvements and industrial application. / Otimização em tempo real aplicado a processos químicos: avaliação de estratégias, melhorias e implementação industrial.

Graciano, José Eduardo Alves

03 December 2015

The increasing economic competition drives the industry to implement tools that improve their processes efficiencies. The process automation is one of these tools, and the Real Time Optimization (RTO) is an automation methodology that considers economic aspects to update the process control in accordance with market prices and disturbances. Basically, RTO uses a steady-state phenomenological model to predict the process behavior, and then, optimizes an economic objective function subject to this model. Although largely implemented in industry, there is not a general agreement about the benefits of implementing RTO due to some limitations discussed in the present work: structural plant/model mismatch, identifiability issues and low frequency of set points update. Some alternative RTO approaches have been proposed in literature to handle the problem of structural plant/model mismatch. However, there is not a sensible comparison evaluating the scope and limitations of these RTO approaches under different aspects. For this reason, the classical two-step method is compared to more recently derivative-based methods (Modifier Adaptation, Integrated System Optimization and Parameter estimation, and Sufficient Conditions of Feasibility and Optimality) using a Monte Carlo methodology. The results of this comparison show that the classical RTO method is consistent, providing a model flexible enough to represent the process topology, a parameter estimation method appropriate to handle measurement noise characteristics and a method to improve the sample information quality. At each iteration, the RTO methodology updates some key parameter of the model, where it is possible to observe identifiability issues caused by lack of measurements and measurement noise, resulting in bad prediction ability. Therefore, four different parameter estimation approaches (Rotational Discrimination, Automatic Selection and Parameter estimation, Reparametrization via Differential Geometry and classical nonlinear Least Square) are evaluated with respect to their prediction accuracy, robustness and speed. The results show that the Rotational Discrimination method is the most suitable to be implemented in a RTO framework, since it requires less a priori information, it is simple to be implemented and avoid the overfitting caused by the Least Square method. The third RTO drawback discussed in the present thesis is the low frequency of set points update, this problem increases the period in which the process operates at suboptimum conditions. An alternative to handle this problem is proposed in this thesis, by integrating the classic RTO and Self-Optimizing control (SOC) using a new Model Predictive Control strategy. The new approach demonstrates that it is possible to reduce the problem of low frequency of set points updates, improving the economic performance. Finally, the practical aspects of the RTO implementation are carried out in an industrial case study, a Vapor Recompression Distillation (VRD) process located in Paulínea refinery from Petrobras. The conclusions of this study suggest that the model parameters are successfully estimated by the Rotational Discrimination method; the RTO is able to improve the process profit in about 3%, equivalent to 2 million dollars per year; and the integration of SOC and RTO may be an interesting control alternative for the VRD process. / O aumento da concorrência motiva a indústria a implementar ferramentas que melhorem a eficiência de seus processos. A automação é uma dessas ferramentas, e o Real Time Optimization (RTO) ou Otimização em Tempo Real, é uma metodologia de automação que considera aspectos econômicos e restrições de processos e equipamentos para atualizar o controle do processo, de acordo com preços de mercado e distúrbios. Basicamente, o RTO usa um modelo fenomenológico em estado estacionário para predizer o comportamento do processo, em seguida, otimiza uma função objetivo econômica sujeita a esse modelo. Embora amplamente utilizado na indústria, não há ainda um consenso geral sobre os benefícios da implementação do RTO, devido a algumas limitações discutidas no presente trabalho: incompatibilidade estrutural entre planta e modelo, problemas de identificabilidade e baixa frequência de atualização dos set points. Algumas metodologias de RTO foram propostas na literatura para lidar com o problema da incompatibilidade entre planta e modelo. No entanto, não há uma comparação que avalie a abrangência e as limitações destas diversas abordagens de RTO, sob diferentes aspectos. Por esta razão, o método clássico de RTO é comparado com metodologias mais recentes, baseadas em derivadas (Modifier Adaptation, Integrated System Optimization and Parameter estimation, and Sufficient Conditions of Feasibility and Optimality), utilizando-se o método de Monte Carlo. Os resultados desta comparação mostram que o método clássico de RTO é coerente, desde que seja proporcionado um modelo suficientemente flexível para se representar a topologia do processo, um método de estimação de parâmetros apropriado para lidar com características de ruído de medição e um método para melhorar a qualidade da informação da amostra. Já os problemas de identificabilidade podem ser observados a cada iteração de RTO, quando o método atualiza alguns parâmetros-chave do modelo, o que é causado principalmente pela ausência de medidas e ruídos. Por esse motivo, quatro abordagens de estimação de parâmetros (Discriminação Rotacional, Seleção Automática e Estimação de Parâmetros, Reparametrização via Geometria Diferencial e o clássico Mínimos Quadrados não-lineares) são avaliados em relação à sua capacidade de predição, robustez e velocidade. Os resultados revelam que o método de Discriminação Rotacional é o mais adequado para ser implementado em um ciclo de RTO, já que requer menos informação a priori, é simples de ser implementado e evita o sobreajuste observado no método de Mínimos Quadrados. A terceira desvantagem associada ao RTO é a baixa frequência de atualização dos set points, o que aumenta o período em que o processo opera em condições subotimas. Uma alternativa para lidar com este problema é proposta no presente trabalho, integrando-se o RTO e o Self-Optimizing Control (SOC) através de um novo algoritmo de Model Predictive Control (MPC). Os resultados obtidos com a nova abordagem demonstram que é possível reduzir o problema da baixa frequência de atualização dos set points, melhorando o desempenho econômico do processo. Por fim, os aspectos práticos da implementação do RTO são discutidos em um estudo de caso industrial, que trata de um processo de destilação com bomba de calor, localizado na Refinaria de Paulínia (REPLAN - Petrobras). Os resultados deste estudo sugerem que os parâmetros do modelo são estimados com sucesso pelo método de Discriminação Rotacional; que o RTO é capaz de aumentar o lucro do processo em cerca de 3%, o equivalente a 2 milhões de dólares por ano; e que a integração entre SOC e RTO pode ser uma alternativa interessante para o controle deste processo de destilação.

Controle de processos

Estimação de parâmetros

Parameter estimation

Process control

Real time optimization

Self-optimizing control

Tempo real (Otimização)

Optimización del uso de encofrado para losas y columnas f’c 210 kg/cm2 con aditivo retardante de fragua utilizando el método de madurez del concreto / Optimization for the use of formwork in slabs and columns f'c 210 kg/cm2 including retarding admixture of concrete hardening by using the method of maturity of concrete

Recabarren Jiménez, Diego Sadaam, Tafur Juárez, Juan Manuel

08 July 2019

Esta investigación trata sobre la aplicación del método de madurez aplicado al concreto en las estructuras de un edificio multifamiliar de 8 pisos para evaluar la resistencia a compresión del concreto y optimizar el tiempo de encofrado de las estructuras. La práctica usual de monitorear el concreto in situ usando especímenes cilíndricos es considerada inapropiada debido a que los especímenes curados en obra no experimenten el mismo historial de curado que las estructuras a las que se supone deben de representar. Por otro lado, el tiempo de encofrado depende de la resistencia de la estructura, un desencofrado prematuro puede generar el colapso de la estructura, pero un encofrado tardío puede generar mayores gastos en el presupuesto de la obra. El método de madurez contempla 2 ecuaciones para determinar y correlacionar la temperatura del concreto con su resistencia. Los resultados de resistencia a compresión del concreto medidos por el método de madurez no difirieron en más del 10% del valor de resistencia de los especímenes cilíndricos y se optimizó significativamente el uso del encofrado en las estructuras. Se concluye que este método es confiable para evaluar la resistencia a compresión del concreto y permite optimizar el uso de encofrado de las estructuras tanto verticales como horizontales. / This research discusses the application of the concrete maturity method in an 8-story building structures for assessing the compressive strength of concrete and optimize the time of formwork structures. The usual practice of monitoring the concrete in situ using cylindrical specimens is inappropriate because specimens cured at work do not experience the same history of curing that structures which are supposed to represent. On the other hand, formwork time depends on the strength of the structure, a premature form removal can lead to the collapse of the structure, but a late formwork can generate higher expenses in the budget of the work. Concrete maturity method includes 2 equations to determine and correlate the temperature of concrete with strength. The results of resistance to compression of the concrete measured by the method of maturity not differed in more than the 10% of resistance of the cylindrical specimens and the use of the formwork is optimized significantly in the structures. It is concluded that this method is reliable to evaluate the resistance to compression of the concrete and allows you to optimize the use of formwork of the structures both vertical as horizontal. / Tesis

Madurez de concreto

Resistencia del concreto

Optimización del tiempo de encofrado

Time optimization for concrete formwork

Maturity of concrete

Concrete strength