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9A.5. Estimation of the thermal conductivity of a pure liquid. Predict the thermal conductivity of liquid H₂O at 40°C and 40 megabars pressure (1 megabar 106 dyn/cm²). The isothermal compressibility, (1/p)(ap/ap), is 38 x 10-6 megabar¹ and the density is 0.9938 g/cm³. Assume that C, Cy. = Answer: 0.375 Btu/hr ft. F =

9A.5. Estimation of the thermal conductivity of a pure liquid. Predict the thermal conductivity of liquid H₂O at 40°C and 40 megabars pressure (1 megabar 106 dyn/cm²). The isothermal compressibility, (1/p)(ap/ap), is 38 x 10-6 megabar¹ and the density is 0.9938 g/cm³. Assume that C, Cy. = Answer: 0.375 Btu/hr ft. F =

Introduction to Chemical Engineering Thermodynamics
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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9A.5. Estimation of the thermal conductivity of a pure liquid. Predict the thermal conductivity of liquid H₂O at 40°C and 40 megabars pressure (1 megabar 106 dyn/cm²). The isothermal compressibility, (1/p)(@p/ap)T, is 38 x 10-6 megabar¹ and the density is 0.9938 g/cm³. Assume that C₂ = Cy. Answer: 0.375 Btu/hr ft. F -

9A.5. Estimation of the thermal conductivity of a pure liquid. Predict the thermal conductivity of liquid H₂O at 40°C and 40 megabars pressure (1 megabar 106 dyn/cm²). The isothermal compressibility, (1/p)(@p/ap), is 38 x 10-6 megabar¹ and the density is 0.9938 g/cm³. Assume that C, Cy. = Answer: 0.375 Btu/hr ft. F 6
Transcribed Image Text:9A.5. Estimation of the thermal conductivity of a pure liquid. Predict the thermal conductivity of liquid H₂O at 40°C and 40 megabars pressure (1 megabar 106 dyn/cm²). The isothermal compressibility, (1/p)(@p/ap), is 38 x 10-6 megabar¹ and the density is 0.9938 g/cm³. Assume that C, Cy. = Answer: 0.375 Btu/hr ft. F 6
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