Difference between revisions of "Category: PumpDesign"

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[[File:pumpDesign_i.png|thumb|300px|link=https://www.pengtools.com/pumpDesign| Pump Design software]]
 
==Brief==
 
==Brief==
  
[[:Category:PumpDesign | PumpDesign]] is the [[ESP]] design tool.
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[[:Category:PumpDesign | PumpDesign]] is the [[Electrical Submersible Pump|ESP]] design software.
  
[[:Category:PumpDesign | PumpDesign]] provides the datasheet for the [[ESP]], '''Motor''', '''Cable''' and '''Drive''' required to achieve the target well flowing rate or bottomhole pressure.
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[[:Category:PumpDesign | PumpDesign]] selects an '''ESP System''' required to achieve the target well flowing rate or bottomhole pressure.
 +
 
 +
[[:Category:PumpDesign | PumpDesign]] provides the specifications of the required equipment: Electrical Submersible Pump, ESP Motor, ESP Cable and ESP Drive.
 +
 
 +
[[:Category:PumpDesign | PumpDesign]] is available online at [https://www.pengtools.com www.pengtools.com].
  
 
== Typical applications ==
 
== Typical applications ==
*Sizing of the [[ESP]] to pump off the well
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*Sizing of the [[Electrical Submersible Pump|ESP]] to pump off the oil or water source well
*Comparison of the different [[ESP]] performance curves (REDA, Centrilift, GE, Borets, Novomet)
+
*Calculation of % of the free gas at the pump intake
*Calculation of the required breaking course power (BHP) number of stages and the frequency
+
*Calculation of Total Dynamic Head (TDH) required
*Calculation of the % of the free gas at the pump intake
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*Calculation of number of stages and frequency required
*Sizing the Motor required
+
*Calculation of Breaking Horse Power (BHP) required
*Specifying the cable, drive and electrical transformers required
+
*Sizing of the ESP Motor required
 +
*Specifying the ESP cable, ESP drive and ESP electrical transformers required
 +
*Comparison of the different [[ESP]] types (REDA, Centrilift, GE, Borets, Novomet) by performance curves
 +
 
 +
==ESP Design Procedure==
 +
Pump selection is limited by the casing size and the flow capacity of the well (which includes gas).
 +
 
 +
The [[Electrical Submersible Pump|ESP]] design procedure is to select a pump whose efficiency range includes rates that are close to the maximum rate of the well.
  
 
==Main Features==
 
==Main Features==
*Turn key [[ESP]] design workflow
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*Turn key [[Electrical Submersible Pump|ESP]] design workflow
*Tornado chart
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*[[ESP Tornado chart]]
*Liquid and mixture IPR plot
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*Liquid and mixture [[IPR]] plot
*Interactive [[ESP]] catalog
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*Interactive [[ESP catalog]]
 
*Autoselect option for stages and frequency
 
*Autoselect option for stages and frequency
 
*Motors and cables catalog
 
*Motors and cables catalog
 
*Autoselect option for cables and drive
 
*Autoselect option for cables and drive
  
== References ==
+
==References==
  
<table width="100%" border="1" cellpadding="3" cellspacing="1">
+
# Brown, Kermit (1984). The Technology of Artificial Lift Methods. Volume 4. Production Optimization of Oil and Gas Wells by Nodal System Analysis. 4. Tulsa, Oklahoma: PennWellBooks.
<tr>
+
#Lake W, Larry; Clegg, Joe Dunn (2007). Petroleum Engineering Handbook, Volume IV: Production Operations Engineering.
<th>Property</th>
+
#Takacs, Gabor. (2009). Electrical Submersible Pumps Manual. 1st Edition. Design, Operations, and Maintenance. Elsevier. Society of Petroleum Engineers.
<th>Correlation</th>
 
<th>Reference</th>
 
</tr>
 
  
<tr>
+
[[Category:pengtools]]
<td>Bubble point</td>
 
<td>[[Valco - McCain correlation|Valco - McCain]]</td>
 
<td>Valkó, P.P. and McCain, W.D. Jr . 2003. Reservoir oil bubblepoint pressures revisited; solution gas–oil ratios and surface gas specific gravities. J. Pet. Sci. Eng. 37 (3–4): 153-169.</td>
 
</tr>
 
 
 
<tr>
 
<td>Gas-oil ratio</td>
 
<td>[[Velarde correlation|Velarde]]</td>
 
<td>Velarde, J., Blasingame, T.A., and McCain Jr., W.D. 1997. Correlation of Black Oil Properties At Pressures Below Bubble Point Pressure - A New Approach. Presented at the Annual Technical Meeting of CIM, Calgary, Alberta, 8–11 June. PETSOC-97-93.</td>
 
</tr>
 
 
 
<tr>
 
<td>Oil density</td>
 
<td>[[McCain Oil density correlation| McCain]]</td>
 
<td>W.D. McCain, Jr, N.C. Hill: Correlations for Liquid Densities and Evolved Gas Specific Gravities for Black Oils during Pressure Depletion, SPE, 30773, 1995.</td>
 
</tr>
 
 
 
<tr>
 
<td>Oil FVF</td>
 
<td>[[McCain Oil FVF correlation| McCain]]</td>
 
<td>W.D. McCain, Jr: The Properties of Petroleum Fluids, Second edition, Tulsa, Oklahoma, 1990.</td>
 
</tr>
 
 
 
<tr>
 
<td>Oil viscosity</td>
 
<td>[[Beggs and Robinson correlation|Beggs and Robinson]]</td>
 
<td>Vazquez, M. and Beggs, H.D. 1980. Correlations for Fluid Physical Property Prediction. J Pet Technol 32 (6): 968-970. SPE-6719-PA.</td>
 
</tr>
 
 
 
<tr>
 
<td>Oil compressibility</td>
 
<td>[[Farshad correlation|Farshad]]</td>
 
<td>Frashad, F., LeBlanc, J.L., Garber, J.D. et al. 1996. Empirical PVT Correlations For Colombian Crude Oils. SPE-36105-MS.
 
http://petrowiki.org/Calculating_PVT_properties</td>
 
</tr>
 
  
<tr>
+
{{#seo:
<td>Z factor</td>
+
|title=ESP Pump Design Petroleum Engineering Software
<td>[[Dranchuk correlation| Dranchuk]]</td>
+
|titlemode= replace
<td>Dranchuk, P.M. and Abou-Kassem, H. 1975. Calculation of Z Factors For Natural Gases Using Equations of State. J Can Pet Technol 14 (3): 34. PETSOC-75-03-03.</td>
+
|keywords=ESP, design, tornado chart, ESP cable, ESP motor, electric submersible pump, Total Dynamic Head, Breaking Horse Power, petroleum technology
</tr>
+
|description=PumpDesign is the ESP pump design software for sizing an ESP with tornado plot and calculation of total dynamic head, breaking horse power and number of stages required to pump off a well.
 
+
}}
<tr>
 
<td>Gas density</td>
 
<td>Standard equation</td>
 
<td>http://petrowiki.org/Gas_formation_volume_factor_and_density</td>
 
</tr>
 
 
 
<tr>
 
<td>Gas FVF</td>
 
<td>Standard equation</td>
 
<td>http://petrowiki.org/Gas_formation_volume_factor_and_density</td>
 
</tr>
 
 
 
<tr>
 
<td>Gas viscosity</td>
 
<td>[[Lee correlation| Lee]]</td>
 
<td>Lee, A.L., Gonzalez, M.H., and Eakin, B.E. 1966. The Viscosity of Natural Gases. J Pet Technol 18 (8): 997–1000. SPE-1340-PA.</td>
 
</tr>
 
 
 
<tr>
 
<td>Gas compressibility</td>
 
<td>Standard equation</td>
 
<td>http://petrowiki.org/Isothermal_compressibility_of_gases</td>
 
</tr>
 
 
 
<tr>
 
<td>Water density</td>
 
<td>[[McCain Water density correlation| McCain]]</td>
 
<td>McCain Jr., W.D. 1991. Reservoir-Fluid Property Correlations-State of the Art. SPE Res Eng 6 (2): 266-272. SPE-18571-PA.</td>
 
</tr>
 
 
 
</table>
 
 
 
[[Category:pengtools]]
 

Latest revision as of 08:56, 27 March 2019

Pump Design software

Brief

PumpDesign is the ESP design software.

PumpDesign selects an ESP System required to achieve the target well flowing rate or bottomhole pressure.

PumpDesign provides the specifications of the required equipment: Electrical Submersible Pump, ESP Motor, ESP Cable and ESP Drive.

PumpDesign is available online at www.pengtools.com.

Typical applications

  • Sizing of the ESP to pump off the oil or water source well
  • Calculation of % of the free gas at the pump intake
  • Calculation of Total Dynamic Head (TDH) required
  • Calculation of number of stages and frequency required
  • Calculation of Breaking Horse Power (BHP) required
  • Sizing of the ESP Motor required
  • Specifying the ESP cable, ESP drive and ESP electrical transformers required
  • Comparison of the different ESP types (REDA, Centrilift, GE, Borets, Novomet) by performance curves

ESP Design Procedure

Pump selection is limited by the casing size and the flow capacity of the well (which includes gas).

The ESP design procedure is to select a pump whose efficiency range includes rates that are close to the maximum rate of the well.

Main Features

  • Turn key ESP design workflow
  • ESP Tornado chart
  • Liquid and mixture IPR plot
  • Interactive ESP catalog
  • Autoselect option for stages and frequency
  • Motors and cables catalog
  • Autoselect option for cables and drive

References

  1. Brown, Kermit (1984). The Technology of Artificial Lift Methods. Volume 4. Production Optimization of Oil and Gas Wells by Nodal System Analysis. 4. Tulsa, Oklahoma: PennWellBooks.
  2. Lake W, Larry; Clegg, Joe Dunn (2007). Petroleum Engineering Handbook, Volume IV: Production Operations Engineering.
  3. Takacs, Gabor. (2009). Electrical Submersible Pumps Manual. 1st Edition. Design, Operations, and Maintenance. Elsevier. Society of Petroleum Engineers.

Pages in category "PumpDesign"

The following 3 pages are in this category, out of 3 total.

E

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