Resources

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Technical Guides

Tetra has published a series of guides which are available for ordering.

HRSG Inspection Planning Guide (2nd Edition)

Inspection is part of routine maintenance for any Heat Recovery Steam Generator (HRSG). Visual inspections are performed at regular intervals in accordance with the requirements of regulatory bodies and insurers.Inspection is part of routine maintenance for any Heat Recovery Steam Generator (HRSG). Visual inspections are performed at regular intervals in accordance with the requirements of regulatory bodies and insurers.

HRSG Tube Failure Diagnostic Guide (3rd Edition)

Heat Recovery Steam Generator (HRSG) tubes provide the media for extraction of useful energy from the waste heat in gas turbine exhaust at combined cycle power plants (GT-CCs) or from heat generated by process streams at petrochemical facilities.

Technical White Papers

A selection of technical papers available for reference.

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HRSG Inspection Planning

HRSG Inspection Planning

Building a good inspection plan for the HRSG involves doing the following: Set the Time and General Schedul...

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Welding Procedure Specification (WPS)

Welding Procedure Specification (WPS)

Before any welding activity can commence, the welder and the QC Engineer has to be fully aware of the content ...

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Post Weld Heat Treatment (PWHT)

Post Weld Heat Treatment (PWHT)

Post Weld Heat Treatment (PWHT) Background Post weld heat treatment is a post welding heating process used t...

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Power Boiler Piping

Power Boiler Piping

Boiler piping design requirements is divided into internal and external jurisdictions. These are divided...

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Creep Classification of Grade 91 Steel

Creep Classification of Grade 91 Steel

Background Grade 91 steel is superior to many other industry used materials for its increased resistance to m...

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Remote Visual Inspection (RVI), or Borescope

Remote Visual Inspection (RVI), or Borescope

One of the first applications of the borescope was for inspecting steam turbine rotor discontinuities in the 1...

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To discuss how we might assist you to improve your plant's performance or to maintain its value over time

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Papers, Presentations and Articles

Selected papers, presentations and articles from major industry conferences and events.

Title
Author
Flow Accelerated Corrosion Failures in Nominally Low-Risk HRSG Tube Locations
Flow Accelerated Corrosion Failures in Nominally Low-Risk HRSG Tube LocationsFlow Accelerated Corrosion Failures in Nominally Low-Risk HRSG Tube Locations
Malloy J., Fabricius A., Taylor M., Rusaas J., Vestdam K.
Proceedings of the ASME 2022 Power Conference
Developing and Implementing Ch. VII O&M Programs at CCGT Plants: Case Studies
Developing and Implementing Ch. VII O&M Programs at CCGT Plants: Case StudiesDeveloping and Implementing Ch. VII O&M Programs at CCGT Plants: Case Studies
Jackson P., Rosario R., Johny A., Fabricius A., Wholey A.
ASME PVP 2021
The Change In Boiler and Steam Turbine Failure Modes With Minimum Load Operation - Supplemented With Modeling to Predict Susceptibility and Validation Through Plant Testing
The Change In Boiler and Steam Turbine Failure Modes With Minimum Load Operation - Supplemented With Modeling to Predict Susceptibility and Validation Through Plant TestingThe Change In Boiler and Steam Turbine Failure Modes With Minimum Load Operation - Supplemented With Modeling to Predict Susceptibility and Validation Through Plant Testing
Reid T., Malloy J., Scoffone M., Fabricius A., Reid, S.
ASME 2020 Virtual Power Conference
HRSG Fleet Integrity Management - Lessons Learned From The Field
HRSG Fleet Integrity Management - Lessons Learned From The FieldHRSG Fleet Integrity Management - Lessons Learned From The Field
Fabricius A., Jackson P., Taylor M.
ASME 2020 Virtual Power Conference
On The Use of Computational Fluid Dynamics (CFD) To Assess The Impact of Low-Load Operations on Heat Recovery Steam Generator (HRSG) Tube Module Integrity
On The Use of Computational Fluid Dynamics (CFD) To Assess The Impact of Low-Load Operations on Heat Recovery Steam Generator (HRSG) Tube Module IntegrityOn The Use of Computational Fluid Dynamics (CFD) To Assess The Impact of Low-Load Operations on Heat Recovery Steam Generator (HRSG) Tube Module Integrity
Fabricius A., Moelling D., Rusaas J.
ASME 2019 Power Conference, July 2019

Previous Projects

With over 30 years of experience in power and industrial steam generation services, Tetra Engineering has along history of projects.

CFD Analysis of GRP Piping Caustic Dosing, 2018
Middle East.

CFD Analysis of GRP Piping Caustic Dosing, 2018

Caustic soda is injected into the product water in order to raise the pH as required by the specification. Inspection of GRP piping has often shown large amounts of deposition inside these pipes. Deposition is mostly observed downstream of the injection point of sodium hydroxide and can therefore be attributed to unsuitable chemical injection. Typical injection setups utilise four simple (no nozzle) injection ports at 90° from one another causing ineffective mixing of the flows, leading to the observed precipitation. Tetra performed a CFD analysis of the caustic injection process to investigate the degree of mixing of the two flows and simulate the effects of modifying the volumetric flow rate.

MSV Stellite Cracking Failure Analysis, 2018
Middle East.

MSV Stellite Cracking Failure Analysis, 2018

Caustic soda is injected into the product water in order to raise the pH as required by the specification. Inspection of GRP piping has often shown large amounts of deposition inside these pipes. Deposition is mostly observed downstream of the injection point of sodium hydroxide and can therefore be attributed to unsuitable chemical injection. Typical injection setups utilise four simple (no nozzle) injection ports aStaff at a CCGT plant engaged Tetra to investigate the root cause of the cracking and damage appearing on the Main Steam Valve (MSV) stellite seat ring(s). The metallurgical analysis identified iron dilution from the F91 valve seat into the hard-facing alloy as the root cause of the debonding.  The extent of the iron dilution is a sign of excessive heat input, most likely caused during the welding process. This points towards the welding during fabrication as the actual root cause of the failure. The driving force for failure / debonding of the Stellite hardfacing could also include residual stresses from welding and/or transient heat transfer stresses and/or thermal shock during operation.t 90° from one another causing ineffective mixing of the flows, leading to the observed precipitation. Tetra performed a CFD analysis of the caustic injection process to investigate the degree of mixing of the two flows and simulate the effects of modifying the volumetric flow rate.

Root Cause Analysis of HP Drum Nozzle Cracking, 2018
Europe

Root Cause Analysis of HP Drum Nozzle Cracking, 2018

During the 2018 shutdown at a CCGT in Europe several of the HRSG HP drum riser nozzle and downcomer nozzle welds were checked and all were found to be cracked on the inside of the drum, at the weld toe or between weld beads, with the cracks following the fusion line back to the nozzle. The drum feedwater inlet and steam outlet nozzles (above drum waterline) were both undamaged. The drums were removed and all welds were repaired in the workshops. Tetra performed Finite Element Analysis (FEA) and operational data analysis and could conclude that the operational stresses were high enough given the current cycling regime to cause the cracking observed. The quality and design of the original welds is also likely to have contributed to the cracking.

Diverter Damper Design & Operation Review, 2018
Middle East

Diverter Damper Design & Operation Review, 2018

Tetra was engaged by a client to investigate the recently observed cracking on the diverter damper actuator. The design documentation and failure mode was reviewed. From this initial review it could be concluded that the shaft cracking is most likely a result of the operating procedure, where  the damper is kept in an open position for an extended period of time. The exposure to hot flue gas in combination with the load acting on the toggle arms is the most likely source of the cracking

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