Resources

Consult our range of free 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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Visual HRSG Inspections

Visual HRSG Inspections

The predominant technique for inspecting HRSGs is visual. Visual inspection is performed at nearly every...

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Tube Metallurgical Analysis

Tube Metallurgical Analysis

What is normally included in a metallurgical analysis? Visual examination may be obvious, but there is a ...

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Pipevue 2.0

Pipevue 2.0

PipeVue 2.0  PipeVue 2.0 has been specifically developed by Tetra Engineering to store and organize the large ...

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Surface Replica Testing

Surface Replica Testing

Preparation of surface replicas is considered a type of visual test. It has proven to be a valuable tool...

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Sulphuric Acid Dewpoint Corrosion

Sulphuric Acid Dewpoint Corrosion

The key factor in determining rate of cold-end deposits in HRSGs firing natural gas is the sulphuric acid dew ...

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HRSG Inspection Frequency

HRSG Inspection Frequency

Effective maintenance scheduling and planning is critical to completing required work during outages and preve...

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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
Combined Cycle Plants - O&M problems not caused by cycling
Combined Cycle Plants - O&M problems not caused by cyclingCombined Cycle Plants - O&M problems not caused by cycling
P.S. Jackson, D.S. Moelling, J.W. Malloy (Tetra)
May 15, 2007, Power Magazine
First-class maintenance in a developing country
First-class maintenance in a developing countryFirst-class maintenance in a developing country
F.J. Berté, (Tetra ); J. Sandoval, (Tekna S.A.); A. Carrillo (Gensa S.A)
Feb 15, 2007, Power Magazine
O&M staff keep their cool at Alaskan plant
O&M staff keep their cool at Alaskan plantO&M staff keep their cool at Alaskan plant
P.S. Jackson (Tetra ) and John Kotrotsios (Chugach Electric Association)
Mar 15, 2006, Power Magazine
Operating Experience of Large Reheat HRSGs in Merchant Service
Operating Experience of Large Reheat HRSGs in Merchant ServiceOperating Experience of Large Reheat HRSGs in Merchant Service
P.S. Jackson, D.S. Moelling, F.C. Anderson, J.W. Malloy (Tetra)
2004, POWERGEN INT., USA,
HRSG Tube Failures: Prediction, Diagnosis and Corrective Actions
HRSG Tube Failures: Prediction, Diagnosis and Corrective ActionsHRSG Tube Failures: Prediction, Diagnosis and Corrective Actions
F.C. Anderson, P.S. Jackson, D.S. Moelling (Tetra) and F. Glasgow (PGE NEG - Hermiston)
Mar 2003, NACE Corrosion/2003 Expo, San Diego

Previous Projects

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

CFD Study of HRSG Gas Path, 2015
South East Asia

CFD Study of HRSG Gas Path, 2015

Tetra Engineering  performed a CFD analysis of the HRSG gas path at a CCGT in Asia in collaboration with CFD specialist R&R Consult. The results showed a very uneven flow distribution at base load over the HPHTSH tube sheet, with a higher mass flow located towards the outlet header sections and towards the side walls. The swirling motion of the GT flow results in a different flow pattern for the low load case, compared to the base load case. The flow was more evenly distributed in the longitudinal direction at the SH, but a considerable variation is seen in the span-wise direction. The uneven flow distribution was thought to be a contributing factor to the repeated fatigue failures seen in the boiler over the last couple of years.

Superheater Tube Root Cause Failure Analysis, 2015
South East Asia

Superheater Tube Root Cause Failure Analysis, 2015

Tetra Engineering completed a Tube Failure Analysis of failed SH tubes from a CCGT plant in South East Asia. The results show the following damage mechanisms present: Short-term Creep and Fatigue damage (Creep-Fatigue interaction) Short-term Creep and Stress Corrosion Cracking (SCC) or Hydrogen Embrittlement The fact that short-term creep damage was observed on both of the failed tubes indicates a sudden change in temperature. It was possible that newly discovered damage to the turbine exhaust flow correction device could have allowed a larger mass flow to one side of the boiler (due to swirl influence), increasing the tube temperatures locally and/or increasing local stresses when expansion is prevented, thus accelerating creep damage. The plant had suffered from frequent fatigue failures, with several independent metallurgical analyses over the years confirming thermal fatigue as the previous root cause. No signs of any creep damage had previously been discovered.

Field Assessment of Piping Water Hammer Event, 2014
Middle East

Field Assessment of Piping Water Hammer Event, 2014

Tetra Engineering was asked to assess the situation after a significant water slug/hammer event. Observations made during the site visit showed that the structural members were severely damaged with steel being heavily deformed and torn in some cases.  Piping supports were also severely damaged and would require repair.

LP EVAP Tube Failure Analysis, 2014
Middle East.

LP EVAP Tube Failure Analysis, 2014

Tetra Engineering was asked by a client to help to assess the cause of tube failures in the upper section of the LPEVAP on their HRSG units. The first tube failure was reported in 2010; other failures have followed since then at a rate of two to three per year. At the time of the first failure the plant had been operating for approximately three years. Tetra performed a root cause analysis which included a review of water chemistry logs, boiler simulations using PPSD as well as a FAC Risk Assessment.

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