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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Gas side Layup

Gas side Layup

Gas-side corrosion occurs during shutdown. It is highest in the cold-end tube sections because of the pr...

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HRSG Preservation

HRSG Preservation

The preservation of the HRSG fluid and steam systems during shutdown periods is an important objective at any ...

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Tube Failures related to Layup

Tube Failures related to Layup

Oxygen is a common contaminant in the boiler water that is particularly corrosive to carbon steel. Many ...

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Tube Failures related to Water Chemistry

Tube Failures related to Water Chemistry

Most corrosion induced tube failures have a component that is directly related to water chemistry. The c...

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Water Side Layup

Water Side Layup

The primary reason for choosing wet layup is that the time to restart the boiler is considerably shorter than ...

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Water Chemistry in HRSGs

Water Chemistry in HRSGs

The environment on the inside of HRSG tubing is an important factor in maintaining tube integrity. The c...

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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.

HP Bypass Finite Element Analysis, 2015
Europe

HP Bypass Finite Element Analysis, 2015

Tetra was engaged by a client to perform a finite element analysis of the HP Bypass valve reducer, using measured displacements as input. Results from a strain gauge/displacement survey showed a large strain effect occurring during the start-up of the boiler. Initially, both the left and right side strain gauges on the reducer showed compressive strain. During the start something triggered the reducer to experience tensile strain that differed in its intensity between left and right. The purpose of the study was to try to simulate the observed strain fields and determine the root cause.

Site Condition Assessment, 2015
South East Asia

Site Condition Assessment, 2015

A Tetra Senior Engineer visited a south east asian power plant site to make an assessment of the commissioning situation. The EPC engaged Tetra as they considered that their site work was being delayed due to lack of progress by the IPP to perform their scope of work.There was significant lack of communication between the two parties as well as discrepancies in the scope of work, which lead to schedule delays and cause of mutual blaming between parties.

High Energy Piping (HEP) Remaining Life Assessment (RLA), 2015
Europe

High Energy Piping (HEP) Remaining Life Assessment (RLA), 2015

Tetra was hired by a client to investgate the remaning life of the HEP on 3 units of a thermal power station. The plant intended to operate the units for another 100,000 hours. The scope of work entailed a piping stress analysis of the main steam and hot reheat lines, thermal stress analysis of the SH header outlet/main steam line and remaining life assessment (creep, fatigue, creep-fatigue) of critical areas based on inspection history and results from the pipe stress/finite element analysis. The figure shows time-dependent stresses and temperatures during start up.

Study of impact of cyclic loads on superheater tubes, 2015
Europe

Study of impact of cyclic loads on superheater tubes, 2015

During the shutdown of the unit at night, the HP bypass was kept open to maintain a vacuum in the steam turbine condenser in order to guarantee a faster start the next morning. Therefore, a small quantity of high pressure steam from the HP drum was flowing through the SH on the way to the HP bypass valve. The small HP steam flow takes the path of least resistance and only goes through tubes on one side of the unit, affecting their temperature. The temperature of the tubes on the other side change differently and a temperature difference of around 80°C can be seen 2 hours after shutdown. The CCGT owner engaged Tetra Engineering to investigate the impact of these resultant cyclic loads on the fatigue life of the tube to header welds. The study concluded that the temperature difference of 80°C between different tubes does not cause high enough fatigue stresses alone to be considered critical

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