ABSTRACT<p>The majority of the environmental outputs from gas refineries are oily wastewater. This research reveals a novel combination of response surface methodology and artificial neural network to optimize and model oil content concentration in the oily wastewater. Response surface methodology based on central composite design shows a highly significant linear model with P value <0.0001 and determination coefficient R2 equal to 0.747, R adjusted was 0.706, and R predicted 0.643. In addition from analysis of variance flow highly effective parameters from other and optimization results verification revealed minimum oily content with 8.5 ± 0.7 ppm when initial oil content 991 ppm, temperature 46.4 °C, pressure 21 Mpa, and flowrate 27,000 m3/day which is nearly closed to suggested oily content 8.5 ppm. An artificial neural network (ANN) technique was employed in this study to estimate the oil content in the treatment process. An artificial neural network model was remarkably accurate at simulating the process under investigation. A low mean squared error (MSE) and relative error (RE) equal to 1.55 × 10−7 and 2.5, respectively, were obtained during the training phase, whilst the testing results demonstrated a high coefficient of determination (R2) equal to 0.99.</p>

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Publication Date

Tue Nov 09 2021

Journal Name

Abu Dhabi International Petroleum Exhibition & Conference

Numerical Simulation of Gas Lift Optimization Using Artificial Intelligence for a Middle Eastern Oil Field

evolutionary algorithm

gas lift

artificial intelligence

upstream oil & gas

machine learning

optimization problem

correlation

presented

allocation

reservoir pressure

Mohammed Ahmed

Omar F.

Dhifaf Jaafar

Haider Abdulmuhsin

Mustafa Alaulddin

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Abstract<p>Artificial lift techniques are a highly effective solution to aid the deterioration of the production especially for mature oil fields, gas lift is one of the oldest and most applied artificial lift methods especially for large oil fields, the gas that is required for injection is quite scarce and expensive resource, optimally allocating the injection rate in each well is a high importance task and not easily applicable. Conventional methods faced some major problems in solving this problem in a network with large number of wells, multi-constrains, multi-objectives, and limited amount of gas. This paper focuses on utilizing the Genetic Algorithm (GA) as a gas lift optimization algorit</p> ... Show More

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(6)

(4)

Publication Date

Thu Nov 29 2018

Journal Name

Al-khwarizmi Engineering Journal

Surface Roughness Prediction for Steel 304 In Edm Using Response Graph Modeling

Electrical discharge machining

Graph Modeling

Response

Surface roughness

Shukry H.

Nareen Hafidh

Marwa Qasim

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Electrical Discharge Machining (EDM) is a non-traditional cutting technique for metals removing which is relied upon the basic fact that negligible tool force is produced during the machining process. Also, electrical discharge machining is used in manufacturing very hard materials that are electrically conductive. Regarding the electrical discharge machining procedure, the most significant factor of the cutting parameter is the surface roughness (Ra). Conventional try and error method is time consuming as well as high cost. The purpose of the present research is to develop a mathematical model using response graph modeling (RGM). The impact of various parameters such as (current, pulsation on time and pulsation off time) are studied on

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(1)

Publication Date

Sun Aug 31 2014

Journal Name

Arabian Journal Of Geosciences

Petroleum system modeling and risk assessments of Ad’daimah oil field: a case study from Mesan Governorate, south Iraq

Thamer K.

Heba S.

John

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(9)

(3)

Publication Date

Fri Jan 01 2021

Journal Name

Materials Today: Proceedings

Response surface methodology: A review on its applications and challenges in microbial cultures

S.J.M.

Khalid Jaber Kadhum

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(159)

(113)

Publication Date

Sun May 01 2016

Journal Name

Journal Of Engineering

Prediction of Ryznar Index for the treated water from WTPs on Al-Karakh side of Baghdad City using Artificial Neural Network (ANN) technique

artificial neural network

Reynar index

water stability

water treatment plants

correlation coefficient.

Awatif Soaded

Basim H.

Sura Kareem

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In this research an Artificial Neural Network (ANN) technique was applied for the prediction of Ryznar Index (RI) of the flowing water from WTPs in Al-Karakh side (left side) in Baghdad city for year 2013. Three models (ANN1, ANN2 and ANN3) have been developed and tested using data from Baghdad Mayoralty (Amanat Baghdad) including drinking water quality for the period 2004 to 2013. The results indicate that it is quite possible to use an artificial neural networks in predicting the stability index (RI) with a good degree of accuracy. Where ANN 2 model could be used to predict RI for the effluents from Al-Karakh, Al-Qadisiya and Al-Karama WTPs as the highest correlation coefficient were obtained 92.4, 82.9 and 79.1% respectively. For

Publication Date

Fri Aug 27 2021

Journal Name

Human Interaction, Emerging Technologies And Future Systems V: Proceedings Of The 5th International Virtual Conference On Human Interaction And Emerging Technologies, Ihiet 2021, August 27-29, 2021 And The 6th Ihiet: Future Systems (ihiet-fs 2021), October 28-30, 2021, France

Electricity Consumption Forecasting in Iraq with Artificial Neural Network

Marwan Abdul Hameed

Omar Mohammed Naser

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(8)

Publication Date

Thu Feb 29 2024

Journal Name

International Journal Of Design & Nature And Ecodynamics

Artificial Neural Network Assessment of Groundwater Quality for Agricultural Use in Babylon City: An Evaluation of Salinity and Ionic Composition

Ali Omran

Sura Kareem

Ali A.

Duaa T.

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Publication Date

Fri Apr 01 2022

Journal Name

Telkomnika (telecommunication Computing Electronics And Control)

An adaptive neural control methodology design for dynamics mobile robot

Khulood Eskander

Rabab Alaa

Ibrahim Amer

Muntaha

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(8)

(4)

Publication Date

Mon May 22 2017

Journal Name

Ibn Al-haitham Journal For Pure And Applied Sciences

The Effect of Number of Training Samples for Artificial Neural Network

L. N. M.

M. N. M.

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In this paper we study the effect of the number of training samples for Artificial neural networks ( ANN ) which is necessary for training process of feed forward neural network .Also we design 5 Ann's and train 41 Ann's which illustrate how good the training samples that represent the actual function for Ann's.

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Publication Date

Tue Dec 01 2015

Journal Name

Journal Of Engineering

Modeling and Control of Fuel Cell Using Artificial Neural Networks

fuel cell

hydrogen fuel

renewable energy

artificial neural networks

PID

Particle swarm optimization

Hayder Sabah

Hayder

Eiman Ali Eh.

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This paper includes an experimental study of hydrogen mass flow rate and inlet hydrogen pressure effect on the fuel cell performance. Depending on the experimental results, a model of fuel cell based on artificial neural networks is proposed. A back propagation learning rule with the log-sigmoid activation function is adopted to construct neural networks model. Experimental data resulting from 36 fuel cell tests are used as a learning data. The hydrogen mass flow rate, applied load and inlet hydrogen pressure are inputs to fuel cell model, while the current and voltage are outputs. Proposed model could successfully predict the fuel cell performance in good agreement with actual data. This work is extended to developed fuel cell feedback

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