The secondary flow in curved pipes

Detra, Ralph William,

January 1900

Thesis--Eidgenössische Technische Hochschule, Zurich. / Biography. Bibliography: p. 50.

Pipe

Energy loss due to diametric cylindrical obstructions in pipes

Schnabel, George Benjamin

08 1900

No description available.

Pipe

Bedarfsentwicklung, herstellungsverfahren und produktionsorganisation in der deutschen stahlröhrenindustrie ...

Köhler, Franz,

January 1934

Inaug.-diss.--Halle-Wittenberg. / Lebenslauf. "Berichtigungen" slip laid in. "Literatur": p. 117-118.

Pipe.

Pipe Conveying Fluid : a Paradigm of Nonlinear Dynamics

Semler, Christian

January 1996

Note:

Pipe

Noise generation due to orifices in pipe-work with flow /

Hyland, Christopher Edward.

January 1978

Thesis (M.Eng.Sc.) -- University of Adelaide, Dept. of Mechanical Engineering, 1980. / Typescript (photocopy).

Pipe Pipe

The effects of internal flow disturbances on the vibration response of and the acoustic radiation from pipes.

Norton, Michael Peter.

January 1979

Thesis (Ph.D.) -- Dept. of Mechanical Engineering, University of Adelaide, 1980. / Typescript (photocopy).

Pipe Pipe

Non-linear finite element dynamic analysis of the effect of compaction on underground conduits

Kararam, Anupong.

January 2009

Thesis (Ph.D.)--University of Texas at Arlington, 2009.

Pipe, Concrete Pipe

Computational modelling of clay pipe extrusion

Kite, Matthew J. S.

January 2009

Thesis (Ph.D.)--Aberdeen University, 2009. / Title from web page (viewed on July 14, 2009). Includes bibliographical references.

Pipe, Clay Pipe, Clay Pipe, Clay

Statistical estimation of water distribution system pipe break risk

Yamijala, Shridhar

15 May 2009

The deterioration of pipes in urban water distribution systems is of concern to water utilities throughout the world. This deterioration generally leads to pipe breaks and leaks, which may result in reduction in the water-carrying capacity of the pipes from tuberculation of interior walls of the pipe. Deterioration can also lead to contamination of water in the distribution systems. Water utilities which are already facing tight funding constraints incur large expenses in replacement and rehabilitation of water mains, and hence it becomes critical to evaluate the current and future condition of the system for making maintenance decisions. Quantitative estimates of the likelihood of pipe breaks on individual pipe segments can facilitate inspection and maintenance decisions. A number of statistical methods have been proposed for this estimation problem. This thesis focuses on comparing these statistical models on the basis of short time histories. The goals of this research are to estimate the likelihood of pipe breaks in the future and to determine the parameters that most affect the likelihood of pipe breaks. The various statistical models reviewed in this thesis are time linear and time exponential ordinary least squares regression models, proportional hazards models (PHM), and generalized linear models (GLM). The data set used for the analysis comes from a major U.S. city, and the data includes approximately 85,000 pipe segments with nearly 2,500 breaks from 2000 through 2005. The covariates used in the analysis are pipe diameter, length, material, year of installation, operating pressure, rainfall, land use, soil type, soil corrosivity, soil moisture, and temperature. The Logistic Generalized Linear Model fits can be used by water utilities to choose inspection regimes based on a rigorous estimation of pipe breakage risk in their pipe network.

pipe

risk

The determination of friction-coefficients of water in small iron pipes

Holmes, Oliver Wendell, Wander, Ernest.

January 1910

Thesis (B.S.)--University of Missouri, School of Mines and Metallurgy, 1910. / The entire thesis text is included in file. Typescript. Illustrated by authors. Title from title screen of thesis/dissertation PDF file (viewed January 15, 2009) Oliver W. Holmes determined to be Oliver Wendell Holmes from "Forty-First Annual Catalogue. School of Mines and Metallurgy, University of Missouri."

Pipe Friction.