Filter
(found 595 products)
Book cover image
This guide describes a complete process for conducting field hardness testing to estimate the yield strength of pipeline steels. The process is non-destructive so it is suitable for in-situ testing on operating pipelines, at pipe storage facilities, or various other locations. It also allows for process variations that are suitable ...
Applications Guide for Determining the Yield Strength of In-service Pipe by Hardness Evaluation: Final Report
This guide describes a complete process for conducting field hardness testing to estimate the yield strength of pipeline steels. The process is non-destructive so it is suitable for in-situ testing on operating pipelines, at pipe storage facilities, or various other locations. It also allows for process variations that are suitable for application in different situations and conditions that may be encountered on a pipeline right-of-way and elsewhere. Field hardness testing is not a 'one size fits all' methodology where a single hardness testing methodology is suitable for application in all situations that can be encountered.
https://magrudy-assets.storage.googleapis.com/9780791802915.jpg
47.84 USD
Paperback / softback
Book cover image
A reference on both aircraft and industrial turbines, Turbine Design: The Effect on Axial Flow Turbine Performance of Parameter Variation details specific methods for optimization and design. A rotary machinery consultant and design engineer, the author examines how to investigate and fix the initial scantling selections, for input, to analysis, ...
Turbine Design: The Effect on Axial Flow Turbine Performance of Parameter Variation
A reference on both aircraft and industrial turbines, Turbine Design: The Effect on Axial Flow Turbine Performance of Parameter Variation details specific methods for optimization and design. A rotary machinery consultant and design engineer, the author examines how to investigate and fix the initial scantling selections, for input, to analysis, of CFD computer programs. He presents a method of selecting the best compromise turbine design, taking into account a range of parameters, including size, stress and number of stages. Used to design many turbines, FieldingAs method enables a designer to select the best compromise to ensure performance acceptability. The method uses correlations to investigate both the direct and the indirect problems. Contents Include: Basic Turbine Design Selection of Parameters Blade Efficiency and Shaft Efficiency Work Parameter and Flow Coefficient Degree of Reaction Minimum Hub/Tip Ration Minimum Exit Mach Number and Reynolds Number General Parameters Effect of Stress on Turbine Efficiency State Calculations Introduction Profile loss and Optimum Space/Chord Ratio Secondary and Leakage Loss Coefficients Three Dimensional Considerations State Thermodynamic Calculations Thermodynamics and Blade Shapes Relating Thermodynamic Calculations to Physical Blade Efflux Angle Prediction from a Blade Row Design Example Design and Test of a Single Stage Turbine Selection of Parameters Detailed Thermodynamic Design Comparison of Design Prediction and Test Results Index & References.
https://magrudy-assets.storage.googleapis.com/9780791800867.jpg
68.33 USD
Paperback / softback
Book cover image
Printed collection of 79 full-length, peer-reviewed technical papers. Topics include: Control and Optimization of Connected and Automated Ground Vehicles Dynamic Systems and Control Education Dynamics and Control of Renewable Energy Systems Energy Harvesting Energy Systems Estimation and Identification Intelligent Transportation and Vehicles Manufacturing Mechatronics Modeling and Control of IC Engines ...
Print Proceedings of the Dynamic Systems and Controls Conference (DSCC2018): Volume 2: Control and Optimization of Connected and Automated Ground Vehicles; Dynamic Systems and Control Education; Dynamics and Control of Renewable Energy Systems; Energy Har
Printed collection of 79 full-length, peer-reviewed technical papers. Topics include: Control and Optimization of Connected and Automated Ground Vehicles Dynamic Systems and Control Education Dynamics and Control of Renewable Energy Systems Energy Harvesting Energy Systems Estimation and Identification Intelligent Transportation and Vehicles Manufacturing Mechatronics Modeling and Control of IC Engines and Aftertreatment Systems Modeling and Control of IC Engines and Powertrain Systems Modeling and Management of Power Systems
USD
Paperback / softback
Page 1 of 20