A Spreadsheet Program For The Calculation Of Piping Systems And The Selection Of Pumps
- Conference
- Location
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St. Louis, Missouri
- Publication Date
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June 18, 2000
- Start Date
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June 18, 2000
- End Date
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June 21, 2000
- ISSN
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2153-5965
- Page Count
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12
- Page Numbers
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5.58.1 - 5.58.12
- DOI
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10.18260/1-2--8706
- Permanent URL
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https://peer.asee.org/8706
- Download Count
-
18095
Abstract
NOTE: The first page of text has been automatically extracted and included below in lieu of an abstract
Session 1633
A Spreadsheet Program for the Calculation of Piping Systems and the Selection of Pumps
Craig W. Somerton Department of Mechanical Engineering, Michigan State University
I. Introduction
An important topic taught in most energy related mechanical engineering courses, such as thermal design or HVAC, are piping system calculations coupled with the required pump calculations, so as to appropriately select a pump. To facilitate this instruction, an Excel workbook program, Pump_Pipe.xls, has been developed that will perform flow system calculations and pump selection analysis. The spreadsheet performs both the piping system calculations and the pump selection analysis. After a brief review of basic pump analysis and piping system analysis, this paper continues with a description of the spreadsheet. The spreadsheet is then demonstrated with a very simple flow system. Two design problems are then worked with the program. One problem deals with a large water system (part of the California State Water System), while the other problem looks at pump selection for automotive oil cooling system. Results of these problems show both the utility of the spreadsheet, as well as its shortcomings. The paper concludes with comments and recommendations.
II. Background
The basis for the pump analysis utilized in the spreadsheet is the use of the dimensionless pump parameters defined below:
& V Discharge Coefficient: CQ = (1) N D3 ∆P Head Coefficient: CH = (2) ρN 2 D 2 & Wideal Isentropic Efficiency ηs = (3) & Wactual
where N is the pump speed and D is the pump rotor diameter.
It has been seen that by using these dimensionless groupings a single set of relationships may be developed for most axial flow pumps and a second set for most centrifugal pumps (see [1]). Shelby [2] has developed a set of operating equations for these two types of pumps,
Somerton, C. W. (2000, June), A Spreadsheet Program For The Calculation Of Piping Systems And The Selection Of Pumps Paper presented at 2000 Annual Conference, St. Louis, Missouri. 10.18260/1-2--8706
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