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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Piping Hangers & Supports

Piping Hangers & Supports

Piping supports and hangers require routine inspection. Interferences with equipment or structures can c...

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Reasons for Inspecting

Reasons for Inspecting

Inspection is part of routine maintenance for any Heat Recovery Steam Generator (HRSG). Visual inspectio...

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Flow Accelerated Corrosion (FAC)

Flow Accelerated Corrosion (FAC)

Background Tube thinning caused by flow-accelerated corrosion (FAC) is one of the most frequent causes of fai...

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Grade 91 Steel

Grade 91 Steel

Background Early failures of components fabricated with Creep Strength Enhanced Ferritic (CSEF) Steels in con...

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Duct Burners

Duct Burners

Excess air in the gas turbine exhaust allows the combustion of additional fuel via supplemental firing in the ...

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HRSG Tube Failure Diagnosis

HRSG Tube Failure Diagnosis

Diagnosis of HRSG tube failure causes is not always straightforward. Sometimes, a relatively clear-cut c...

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Papers, Presentations and Articles

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

Title
Author
Chemical Cleaning of HRSGs: When, Where and How?
Chemical Cleaning of HRSGs: When, Where and How?Chemical Cleaning of HRSGs: When, Where and How?
Malloy J.
European HRSG Forum, Munich, 2015.
Role of Boiling Mode and Rate in Formation of Waterside Deposits in Heat Recovery Steam Generator Evaporator Tubes
Role of Boiling Mode and Rate in Formation of Waterside Deposits in Heat Recovery Steam Generator Evaporator TubesRole of Boiling Mode and Rate in Formation of Waterside Deposits in Heat Recovery Steam Generator Evaporator Tubes
Moelling D., Malloy J.
ASME POWER 2014 Conference, July, 2014.
Evaluating Contributions of Flow-Accelerated Corrosion and Liquid Droplet Impingement to Pipe Thinning in HRSG Evaporator Tubes
Evaluating Contributions of Flow-Accelerated Corrosion and Liquid Droplet Impingement to Pipe Thinning in HRSG Evaporator TubesEvaluating Contributions of Flow-Accelerated Corrosion and Liquid Droplet Impingement to Pipe Thinning in HRSG Evaporator Tubes
Malloy J., Graham M., Taylor M., Fabricius A., Moelling D.
EdF FAC Conference Avignon, May 2013 and Power Plant Chemistry 2013
Design factors for avoiding FAC erosion in HRSG low-pressure evaporators
Design factors for avoiding FAC erosion in HRSG low-pressure evaporatorsDesign factors for avoiding FAC erosion in HRSG low-pressure evaporators
Malloy J., Taylor M., Fabricius A., Graham M., Moelling D.
July 2013, ASME POWER Conference, USA
Ten Year Retrospective Look at HRSG FAC Assessment and Incidence
Ten Year Retrospective Look at HRSG FAC Assessment and IncidenceTen Year Retrospective Look at HRSG FAC Assessment and Incidence
P.S. Jackson, D.S. Moelling, M.J. Taylor (Tetra)
Jul 1, 2010, Fossil FAC International Conference, USA

Previous Projects

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

Flow Accelerated Corrosion Risk Assessment, 2017
South East Asia

Flow Accelerated Corrosion Risk Assessment, 2017

An assessment of the susceptibility of HRSG piping components was performed according to Tetra Engineering’s FACRisk™ methodology which includes the use of thermal modelling simulation software (PPSD). From each system, sub groups are ranked using both time to minimum wall thickness and wear rate. The highest risk components (such as elbows, tees and valves) are identified. Overall, due to relatively high operating pH level (>9.2), the overall risk of FAC failures at the CCGT plant in question was considered to be relatively low, with few specific areas showing increased risk. Three separate load cases were simulated and analysed to determine the potential FAC risk. The results of each simulation were incorporated into the final locations recommended for inspection.

Boiler Tube Failure Root Cause Analysis, 2017
Asia

Boiler Tube Failure Root Cause Analysis, 2017

After several tube failures in recent years in the 1st row of LTRH hanger tubes, Tetra was tasked with performing a Root Cause Analysis (RCA) to determine the underlying cause of the failures. A detailed review of operating data, failure reports and design information was carried out and potential causes investigated. The tube failure mechanism as determined by metallurgy was short-term overheating, with temperatures likely exceeding 700°C prior to failures. Two contributing causes were identified by elimination of all other possibilities: temporary loss of steam flow in affected leading row tubes coupled with high flue gas temperatures in certain tubes at the side of the boiler gas path.  Unfortunately, the underlying root cause of the loss of flow could not be confirmed, whereas the asymmetric flue gas temperature distribution is a known issue since commissioning.

HP Evaporator Tube Failure Analysis, 2016
Middle East

HP Evaporator Tube Failure Analysis, 2016

During a recent condenser tube leak at a CCGT Power Station in the Middle East, two trips occurred on the boiler feedwater pumps leading to trips of one of the HRSGs.  During that time, three tubes failed on the HP Evaporator. Tetra Engineering performed an investigation into the failures with the aim of determining the failure mechanism, to estimate the root cause of failure, and to identify inspection priorities in case damage may have gone undetected. This work included metallurgical analysis and a review of key operating data. Failures were located directly under the risers at extreme ends of the HP Drum. The most probable source of tensile overload is tube quenching when flow restarted

Attemperator Sleeve Failure Study, 2016
Europe

Attemperator Sleeve Failure Study, 2016

In 2015, it was discovered that the thermal sleeve in the attemperator in a client’s power station hot reheat line had failed, resulting in fracture around the circumferential weld in the sleeve’s mid section. For this reason, Tetra was engaged by the owner to investigate. The investigation showed failure from fatigue cracking. There were no signs of thermal fatigue damage, hence quenching from over-spraying was discounted as the root cause. The cracked area showed signs of high cyclic local strain, and given the moderate number of starts low-cycle fatigue was thought to be the root cause. Differential thermal expansion between the Grade 22 sleeve and the Grade 91 pipe, combined with lock-in of the sleeve on the pin locations, would raise sufficiently high stresses

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