The pressure calculation will be done using the Moody correlation (Default single phase correlation) Step 4: Run the Model:Run the model by clicking on in the user form. Step 3: Define the operation:In the Operations menu select the Operation Pressure/Temperatureįill in the Pressure/Temperature Profile User form as shown below: Step 3: Select Flow Correlations:From the Setup menu, Select Flow Correlations and ensure that the Moody single phase flow correlation is selected Go to the File Menu and save the Model as CaseStudy1_WaterPipe.bps. Step 2: Define the fluid model (water):In the Setup menu select Black Oil the Black Oil user form will appear.įill in the Black Oil user form as shown below: Fill the form as shown below:Ĭlick on the Heat transfer tab and fill the form as shown below (adiabatic process): Fill the form as shown below.ĭouble Click on Flowline_1 and the source input data user form will appear.
Pipesim basic modelling manual#
PIPESIM Training Manual Double Click on Source_1 and the source input data user form will appear. Note that the red outlines on Source_1 and Flowline_1 indicate that essential input data is missing. The PIPESIM single branch model toolbox is shown below:Īnd place it in the window by clicking on the single branch window:Īnd link Source_1 to the End Node S1 by clicking and dragging Select the Flowline button from Source_1 to the End Node S1: Step 1: Define the physical components of the model:
Each example will follow the standard workflow for single branch modelling: 1) 2) 3) 4) 5) Build the Physical Model Create a Fluid Model Choose Flow Correlations Perform Operations View and Analyze ResultsĮxercise 1: Water Pipeline Getting Started:Launch PIPESIM from the Start menu (Start -> Program Files -> Schlumberger -> PIPESIM) 1) Choose New Single Branch Model from the startup screenĢ) From the Setup|Units menu, select SI Units The user will then run some sensitivity studies on the model. The user will construct a simple pipeline model then calculate the pressure drop along a horizontal pipeline for a given inlet pressure and Flowrate. Single Branch Tutorial 1 - Single Phase PipelineThe purpose of this tutorial is to familiarize the user with the PIPESIM Single Branch interface by building and running simple examples. Worked Answers: Case Study 3 Gas Well Performance Worked Answers: Case Study 4 ESP Selection / Design Worked Answers: Case Study 5 Pipeline and Facilities Worked Answers: Case Study 6 Gas Lift Design New Mandrel Spacing Worked Answers: Case Study 7 Gas Lift Design Current Mandrel Spacing PART 5 SINGLE BRANCH CASE STUDIES WORKED ANSWERSWorked Answers: Case Study 1 Oil Well Design Worked Answers: Case Study 2 Well Performance Analysis Nodal Analysis FPT Tutorial 3: Look Up Tables FPT Tutorial 4: Daily Contract Quotas (DCQ) PART 4 FPT TUTORIALSFPT Tutorial 1: Compositional Tank & Look Up Tables FPT Tutorial 2: Black Oil Tank. PART 3: NETWORK MODELING TUTORIALSNetwork Tutorial 1: Looped Gathering Network Network Tutorial 2: Gas Transmission Network Network Tutorial 3: Water Injection System PART 2: SINGLE BRANCH CASE STUDIESCase Study 1 - Oil Well/ Black Oil Fluid Case Study 2 - Well Performance Modelling - Nodal Analysis Case Study 3 - Gas well Performance using a Compositional Fluid Model Case Study 4 ESP Selection / Design Case Study 5 Pipeline and Facilities (Compositional Fluid model) Case Study 6 Gas Lift Design, New Mandrel spacing: Case Study 7 Gas Lift Design, Current Mandrel spacing: PART 1: SINGLE BRANCH TUTORIALSSingle Branch Tutorial 1 - Single Phase Pipeline Single Branch Tutorial 2 Multiphase Pipeline Single Branch Tutorial 3 - Oil Well Performance Single Branch Tutorial 4 Black Oil Calibration and Performance Forecasting All other products and product names are trademarks or registered trademarks of their respective companies or organizations. Trademark InformationPIPESIM, GOAL, NODAL Analysis, OFM, HoSim and ECLIPSE are trademarks of Schlumberger.
Schlumberger reserves the right to revise the information in this manual at any time without notice. Schlumberger makes no warranties, expressed, implied or statutory, with respect to the product described herein and disclaims without limitation any warranties of merchantability or fitness for a particular purpose.
Pipesim basic modelling license#
No part of this manual may be reproduced, stored in a retrieval system, or translated in any form or by any means, electronic or mechanical, including photocopying and recording, without the prior written permission of Schlumberger Information Solutions, 5599 San Felipe, Suite 1700, Houston, TX 770562722.ĭisclaimerUse of this product is governed by the License Agreement. Copyright notice June, 2003, Schlumberger.
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