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Text File | 1985-05-06 | 4KB | 75 lines

************************************************************************ SPE MICROCOMPUTER USERS GROUP DISK # 10 PC/MS-DOS 1.1 ------------------------------------------------------------------------ NOTICE TO USERS: Neither the contributor nor the Society of Petroleum Engineers makes any express or implied warranty of any kind with regard to these program materials, including, but not limited to warranties of of merchantability and fitness for a particular purpose. Neither the contributor nor the SPE shall be liable for incidental or consequential damages in connection with or arising out of the furnishing, use or performance of these program materials. ------------------------------------------------------------------------ l. AAREADME.010 The file you are reading 2. PRESSURE.BAS BASIC program in ASCII listable form. NOTE: THIS FILE TAKES ALMOST 1/2 MINUTE TO LOAD INTO BASICA. YOU CAN SPEED UP LOADING BY CREATING A NON- ASCII FILE ON YOUR WORK DISK: SAVE "PRESS2 3. PCONS.DAT Data file of physical constants used by PRESSURE.BAS 3. GAS.DAT Data file of fluid analysis submitted as a sample input. TIM FRANKLIN WINNER OF STUDENT PROGRAM CONTEST May 1985 Tim Franklin, a senior petroleum engineering major at Louisiana Tech University, Ruston, La., has been selected as the winner of the MICROCOMP NEWS student program contest. His program is titled "PRESSURE.BAS". The basic program calculates static or flowing BHP, and static or flowing well head pressure for a gas well. The program, developed under IBM BASICA interpreter and PC DOS 2.0, is completely menu driven. Tim will be receiving a BS Degree in May. He has worked for Conoco as a student engineer during the summers of 83 and 84. In June he will join the Systems Engineering Group of Conoco Production Engineering Services Division in Houston. At the present time he is a part time programmer/researcher for Science Research Systems, Inc. in Ruston. Franklin has been a student member of SPE since 1982 and is Chairman of the student chapter microcomputer users group. Pressures are calculated using the Cullender and Smith method. See Trans. AIME, Vol. 207, 1956: "Practical Solution of Gas Flow Equations for Wells and Pipelines with Large Temperature Gradients". Fluid data may be either a well fluid analysis, fluid mixture components and their mole fraction, or the specific gravity of the fluid. Pseudocritical constants, specific gravity, and apparent molecular weight are calculated utilizing a data file, PCONS.DAT. This file contains the compound name, molecular weight, specific gravity, critical temperature, and critical pressure for 67 compounds. The data was extracted from Table A-1, Appendix 1, of "The Properties of Petroleum Fluids", by McCain with the addition of hexanes+ and heptanes+. The user is given the option of correcting critical pressure and temperature for the presence of hydrogen sulfide, nitrogen, and carbon dioxide in the fluid by either the Wichert and Aziz method or the Carr, Kobayashi, and Burrows method. See Carr, Kobayashi, Burrows, "Viscosity of Hydrocarbon Gases Under Preessure," Trans. AIME, Vol. 201, 1954. If the specific gravity of the well fluid is given as input, the program calculates the pseudocritical constants using the Brown, Katz, Obverfell, and Alden correlation. See Brown, Katz, Oberfell, Alden, "Natural Gasoline Volitile Hydrocarbons," NGAA, Tulsa, Ok., 1948. This disk comes with printed documentation that contains a description of the program and its methodology, sample input, and sample output. * * * ------------------------------------------------------------------------