[pt] APLICAÇÃO DE TÉCNICAS DE MACHINE LEARNING E DATA DRIVEN EM POÇOS INTELIGENTES DE PETRÓLEO / [en] APPLICATION OF MACHINE LEARNING AND DATA DRIVEN TECHNIQUES TO SMART OIL WELLS

TAISA DORNELAS ABBAS CALVETTE

24 March 2020

[pt] Realizar uma estimativa confiável na produção de petróleo é um dos grandes desafios na indústria de óleo e gás e é uma parte crítica no planejamento e na tomada de decisão das petrolíferas. Neste contexto, este trabalho visa explorar as vantagens e desempenho dos algoritmos de machine learning para realizar a previsão de produção de petróleo, gás e água a partir das informações de controle de poços inteligentes e usando a metodologia de data driven. Para tanto, foram usadas duas bases de dados com séries históricas de produção de petróleo, gás e água. A primeira base foi gerada sinteticamente (através de simulação de reservatórios) e consiste na produção média mensal e configuração de 3 válvulas de um poço injetor, ao longo de um período de 10 anos. A segunda base usa dados reais de produção (observados) fornecidos pelo estado da Dakota do Sul nos Estados Unidos. Esta base consiste na média diária de produção e o estado geral (ativo ou não produzindo) de diversos poços produtores de petróleo no período compreendido de 1950 a 2018. Com o intuito de testar a metodologia, foram realizados diversos experimentos combinando o treinamento da proxy com algoritmos de Redes Neurais Artificiais (Multilayer Perceptron) e deep learning com redes neurais recorrentes (redes neurais recorrentes simples, long short-term memory, Gated Recurrent Units), chamados de smart proxy e deep smart proxy respectivamente. Os resultados encontrados mostraram que o modelo deep smart proxy se mostrou bastante promissor. Utilizando uma rede Gated Recurrent Units com camadas bidirecionais (GRUB), foi possível obter uma redução no erro RMSE de 66 por cento e no erro MAE de 79 por cento quando comparados aos modelos smart proxy com Redes Neurais Artificiais. Verificou-se que nos modelos deep smart proxy, o uso de camadas bidirecionais gerou uma significativa melhora na previsão e redução do erro, tanto nos testes que utilizaram dados de produção simulados (caso sintético) quanto nos testes que utilizaram dados de produção observados (caso real), proporcionando uma variação de até 75 por cento no RMSE e 85 por cento no MAE. O erro RMSE normalizado na rede GRUB foi de 0,53 por cento nos dados observados e 0,65 por cento nos dados sintéticos. Os modelos de deep smart proxy obtiveram desempenhos muito semelhantes, principalmente ao comparar o desempenho das redes do tipo LSTMB e GRUB. Estas redes foram aplicadas em ambos os casos sintético e real de produção e superaram, em todos os casos, os resultados obtidos com o modelo de smart proxy com MLP. / [en] A reliable forecast for oil production represents one of the biggest challenges in the oil and gas industry and contributes to the planning and decision making of oil companies. Because of that, this work uses intelligent well valves settings and data driven methodology to explore the advantages and the performance of machine learning algorithms in the forecasting of oil, gas and water production. In order to do so, two database containing historical data series of oil, gas and water production were used. The first was generated synthetically (through reservoir simulation) and consisted of the average monthly production of an injection well over a period of 10 years, as well as the configuration of 3 of its valves. The second database used the production data provided by the state of South Dakota, located in the United States, and consisted of the daily production average and the overall well status (active or not producing) from several oil producing wells in a period ranging from 1950 to 2018. In order to test the methodology, several experiments were performed combining proxy with Artificial Neural Network Algorithms (Multilayer Perceptron) and deep learning recurrent neural networks (Simple Recurrent Neural Networks, long short-term memory, Gated Recurrent Units), which were named smart proxy and deep smart proxy, respectively. The results showed that the deep smart proxy model was very promising. Using the Gated Recurrent Units network with bi-directional layers (GRUB), a reduction of 66 percent in the RMSE error and 79 percent in the MAE error was obtained when compared to smart proxy models with Artificial Neural Networks. The deep smart proxy models with bidirectional layers generated a significant improvement in prediction and error reduction in both databases tests ( i.e. tests with simulated production data (synthetic case) and with the observed production data (real case), resulting in a variation of up to 75 percent in RMSE and 85 percent in MAE). The normalized RMSE error in the GRUB network was of 0.53 percent in the observed database and 0.65 percent in the synthetic database. It is important to notice that the Deep smart proxy models achieved very similar performances when comparing the LSTMB and GRUB network in both databases (synthetic and real production), surpassing in all cases the results obtained with the MLP smart proxy model.

[pt] PRODUCAO DE PETROLEO

[pt] DEEP SMART PROXY

[pt] SMART PROXY

[pt] PROXY

[pt] MACHINE LEARNING

[pt] POCOS INTELIGENTES

[en] OIL PRODUCTION

[en] DEEP SMART PROXY

[en] SMART PROXY

[en] PROXY

[en] MACHINE LEARNING

[en] SMART WELLS

改正精神衛生法時代の地域精神保健医療ソーシャルワーク : 保健所における開拓型支援モデルの形成過程と推進要因 / カイセイ セイシン エイセイ ホウ ジダイ ノ チイキ セイシン ホケン イリョウ ソーシャル ワーク : ホケンジョ ニオケル カイタクガタ シエン モデル ノ ケイセイ カテイ ト スイシン ヨウイン / カイセイ セイシン エイセイホウ ジダイ ノ チイキ セイシン ホケン イリョウ ソーシャル ワーク : ホケンジョ ニ オケル カイタクガタ シエン モデル ノ ケイセイ カテイ ト スイシン ヨウイン

加納 光子, Mitsuko Kano

26 September 2015

改正精神衛生法時代の地域PSWの形成過程と推進要因を解明した．大阪府の実践を事例として，当時の保健所のPSW10名に面接調査をした．その結果，業務は，個別から集団へ，家族会の育成・支援から地域共同作業所の開設などへと進んでいた．また，推進要因としては,①自由，②主体性，③連帯，④意欲，⑤育成，⑥環境，⑦時代，があった．この実践は開拓型支援モデルと名づけられるものであった． / This is the study on the process and the factor of the progress of community mental health in the era of the Reform of the Mental Health Act. I interviewed the PSWs of Osaka public health center at that time. It was revealed that their work progressed from case work to group work, from the education for the client families to obtain community cooperative work place, etc. And the factors of promotion were ①freedom, ②autonomy,③cooperation,④eagerness,⑤training, ⑥environment and ⑦era. I called this practice Pioneer type support model. / 博士(社会福祉学) / Doctor of Philosophy in Social Welfare / 同志社大学 / Doshisha University

改正精神衛生法

地域精神衛生

精神障害

先駆性

連帯

自由

専門職性

知恵と直感

共感

人権

当たり前の生活

連携

PSW

Community social work

Reform of the Mental Health Act

Community Mental Health

Mental disorder

Pioneer

Solidarity

Freedom

Professionalism

Deep Smart

Empathy

Human Right

Ordinary life

Cooperation