This paper presents a discussion of practical experience related to the study of a cogeneration system where one of the four steam units occurs a failure of the low-pressure blades during peak load times of the summer months in Taiwan in the year 2007. This study investigates various scenarios consisting of shutting down the damaged unit for repairs and having continued operation of the unit by removing the low-pressure blades and replacing the stationary blade ring with buffer boards. Based on the simulation results, the numerical model has reflected strong agreement with the critical decisions made to operate the damaged unit continuously in a time of the blade failure
The steam turbine blade has failed by fatigue. The fatigue crack had initiated at the leading edge ...
In the present study, it was found out that the blade failed by fatigue mechanism and the erosion-...
The combined-cycle gas and steam turbine power plant presents three main pieces of equipment: gas tu...
Case StudyThe objective of this Case study is to share the Failure analysis of a steam turbine blade...
PaperPg. 9-30.This paper is meant to help with failure investigation, presenting a review of the cau...
Steam turbine in sugar plant already used as prime mover for exchanged the earlier model was steam e...
Tutorialpg. 105-144Steam path damage, particularly of rotating and stationary blading, has long been...
Steam turbine is a rotating machine and therefore fatigue is an important damage mechanism to consid...
Over the last few years, corrosion fatigue fractures initiating from corrosion pits have been a root...
Case StudyBlade failure was observed on a backpressure steam turbine (driving a centrifugal compress...
Steam driven turbogenerator units with size up to nearly 2 GW provide large fraction of the electric...
The paper presents the process of improving the safety and reliability of operation the 18K370 steam...
Corrosion fatigue fractures initiating from corrosion pits are one of the most serious problem durin...
An analysis of the failure of LP turbine blades of a 210 MW thermal power plant has been presented i...
AbstractPower generation in thermal stations typically relies on large steam turbines. The corrosion...
The steam turbine blade has failed by fatigue. The fatigue crack had initiated at the leading edge ...
In the present study, it was found out that the blade failed by fatigue mechanism and the erosion-...
The combined-cycle gas and steam turbine power plant presents three main pieces of equipment: gas tu...
Case StudyThe objective of this Case study is to share the Failure analysis of a steam turbine blade...
PaperPg. 9-30.This paper is meant to help with failure investigation, presenting a review of the cau...
Steam turbine in sugar plant already used as prime mover for exchanged the earlier model was steam e...
Tutorialpg. 105-144Steam path damage, particularly of rotating and stationary blading, has long been...
Steam turbine is a rotating machine and therefore fatigue is an important damage mechanism to consid...
Over the last few years, corrosion fatigue fractures initiating from corrosion pits have been a root...
Case StudyBlade failure was observed on a backpressure steam turbine (driving a centrifugal compress...
Steam driven turbogenerator units with size up to nearly 2 GW provide large fraction of the electric...
The paper presents the process of improving the safety and reliability of operation the 18K370 steam...
Corrosion fatigue fractures initiating from corrosion pits are one of the most serious problem durin...
An analysis of the failure of LP turbine blades of a 210 MW thermal power plant has been presented i...
AbstractPower generation in thermal stations typically relies on large steam turbines. The corrosion...
The steam turbine blade has failed by fatigue. The fatigue crack had initiated at the leading edge ...
In the present study, it was found out that the blade failed by fatigue mechanism and the erosion-...
The combined-cycle gas and steam turbine power plant presents three main pieces of equipment: gas tu...