Cantitate/Preț
Produs

Monitoring of Thermal Stresses & Heating Optimization Including Industrial Applications

Autor Professor Jan Taler
en Limba Engleză Hardback – sep 2016
Wind farms and other renewable energy sources are characterised by the high unpredictability of generated power as a function of time. When the wind velocity decreases, the power generation diminishes rapidly. To offset the loss of power in the energy system, thermal power plants should be designed for quick start-ups and shutdowns, i.e., the flexibility of thermal power units should be improved. The pressure and temperature of the working fluid in the boiler should be increased quickly, so as to shorten the start-up of the boiler. The subject of the book is inverse heat transfer problems occurring in the monitoring of thermal stress in pressurised thick-walled components. New methods of determining the optimum time variations of fluid temperature during heating and cooling of the pressure parts in thermal power plants are presented. A new technique for measuring the transient temperature of fluid flowing in the pipeline are also presented. Numerous examples that illustrate the practical application of theoretical methods developed are presented as well. The book is meant for engineers, researchers, and scientists. It can also benefit the students of technical universities. The book may be helpful to manufacturers of large power boilers and users of thermal power plants, both conventional and nuclear.
Citește tot Restrânge

Preț: 110271 lei

Preț vechi: 141429 lei
-22% Nou

Puncte Express: 1654

Preț estimativ în valută:
21102 21898$ 17638£

Carte disponibilă

Livrare economică 24 februarie-10 martie

Preluare comenzi: 021 569.72.76

Specificații

ISBN-13: 9781634853675
ISBN-10: 1634853679
Pagini: 200
Dimensiuni: 180 x 260 x 19 mm
Greutate: 0.61 kg
Editura: Nova Science Publishers Inc
Colecția Nova Science Publishers Inc

Cuprins

Preface; Introduction; Comparison of the Design & Operation of Supercritical & Drum Boilers with Natural Circulation; Determining of Thermometer Time Constants & Measurement of Transient Fluid Temperature; Measurement of Fluid Transient Temperature Under High-Pressure; Monitoring of Thermal Stresses in Pressure Components Using Inverse Heat Conduction Methods; Determination of Allowable Heating & Cooling Rates of Boiler Pressure Elements, Using the Quasi-Steady State Approach; A New Method for Optimum Heating of Steam Boiler Pressure Components; Determining Optimum Temperature Changes during Heating of Pressure Vessels with Holes; Determination of Start-Up Curves for a Boiler with Natural Circulation based on the Analysis of Stress Distribution in Critical Pressure Components; References; Index.