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Power Plant Chemistry and Water Treatment Services

PMC provide the latest knowledge and expertise in,

  • Evaluates the operating parameters and existing conditions of each treated water system to determine the best approach to water treatment

  • Writes a comprehensive specification that includes measurable performance objectives that allow the facility operator to obtain competitive prices while providing opportunities for the consideration of innovative or proprietary technologies

  • Supports the facility personnel responsible for in-house monitoring to ensure that they are testing the necessary parameters and are properly equipped

  • Reviews the performance of the vendor regularly to ensure that the vendor addresses any deficiencies promptly

  • Ensures that both the client and water treatment vendor are working together in an effort to achieve continuous improvement in results and maintain a proactive approach

The Benefits

By enlisting the help of an experienced, independent Water Treatment Consultant, facility owners and operators can increase the performance, reliability and extend the life of equipment and systems. Over the long term, these benefits result in lower operating costs and reduced capital investment.

Achieving Balance

In the real world, financial concerns and time constraints work against the vendor and facility operator and their ability to ensure that the treated systems receive the protection that they require.

  • The value of water treatment services is measured against the lowest price, rather than the multi-million dollar infrastructure it is protecting.

  • The absence of a comprehensive water treatment specification, including realistic and measurable performance objectives, allows the vendor to define its own success.

  • Facility operators are asked to do more with less. Acute problems draw resources away from important but lower-profile concerns such as in-house monitoring of the water treatment program.


In an environment where savings are measured in pennies, a facility operator needs to know that he or she is obtaining the best value for every dollar spent on water treatment.

On the other hand, short-term savings on water treatment services can result in long-term problems that are expensive to correct. Most importantly, corrosion is an irreversible process that cannot be “undone”.

PMC is uniquely qualified to help facility operators obtain the greatest value from their water treatment dollars while maintaining system performance, reliability and integrity.

Power Plant Chemistry

Power Plant Chemistry

  • Study and benchmark the right boiler water chemistry to protect the passive layer, minimize corrosion and fouling and maintain the heat transfer property.

    • Super critical boilers – AVT, AVT(O), OT

    • Subcritical boilers – AVT, AVT(O), OT , PT, CT

    • HRSG – AVT, AVT(O), OT , PT, CT

    • ACC Units – AVT, AVT(O), OT , PT, CT


  • Transformer Oil quality monitoring and interpreting the results for diagnosing the transformer faults

  • Combustion Control through Flue Gas/Bottom Ash/Fly Ash/Mill Fineness/ Temperature profile analysis

  • Closed Cooling and Condenser Cooling Water Treatment program design to minimize the fouling and corrosion.

  • Waste Water Treatment and recycling to approach ZLD.


  • SWAS-Commissioning-Monitoring and Interpretation of SWAS results for diagnoses

  • CPU-Commissioning, operation and benchmarking the process cycle for corrosion control

  • SPU-Commissioning, operation and optimizing the cycle chemistry for corrosion control

  • H2 Cooled Generators – Commissioning-Filling/Purging sequence-Purity monitoring and control

  • Turbine Oil quality monitoring and interpreting the results for diagnosing the system fault

Training & Development

Training and Development

  • Boiler Water Chemistry and Corrosion Control Techniques – Selection of treatment techniques like AVT(R), AVT(O) & OT and implementation processes as per EPRI guidelines,  SWAS Instrumentation, Condensate Polishing, Stator Cooling Water System, Boiler Preservation Techniques, Chemical Cleaning of Boilers

  • Closed Cooling Water System/Condenser Cooling System Treatment and Corrosion/Scale monitoring and Control

Turbine Lube oil / Seal oil Analysis and monitoring, Transformer Oil Analysis and Interpretation of Results – TOGA/BGA

  • Water Analysis, Interpretation of results and selection of the treatment process Pretreatment processes – Clarifiers – Filters – Aeration – Chemical Dosing

Ion Exchange Process and selection of process stream – Performance study

Testing of Ion-Exchange resins and interpretation of results

  • RO principle, selection of array and operations technique RO Normalization and Performance monitoring RO Cleaning process

Hydrogen Generation Plant – Operation and Performance Monitoring

Hypo Generation Plant – Operation and Performance Monitoring

Gas Chlorination Plant – Operation and Safety Measures

  • Laboratory Instruments and Calibration techniques

Water analysis interpretation- Process water analysis and diagnosis

Coal Testing – Proximate analysis, Ultimate Analysis, GCV measurement, Ash Analysis, AFT Measurement

Lube Oil, Transformer OilTesting and Results interpretation

TOGA – Analysis, Interpretation and monitoring process

  • Industrial Waste and Hazardous Waste Management

Water Treatment Plant

Water Treatment

  • Due Diligence study and reporting

  • Selection of process on Techno economic conditions

  • Optimization of Clarifier Operation, Filtration, UF units etc.

  • Designing best pretreatment process to minimize fouling and scaling with optimum recovery 


  • Water Treatment Plant Performance Monitoring and benchmarking

  • Hydrogen Generation Plant Performance Monitoring and suggestions for Improvement

  • Hypo Generation Plant (Using Seawater) Performance Monitoring and suggestions for Improvement

  • Sewage Treatment Plant Performance Monitoring and benchmarking

  • Industrial Waste Water Treatment Plant Performance Monitoring and suggestions for Improvement/recycle/reuse to approach ZLD

  •  Waste Water Treatment design for recycling to approach ZLD


  • Ion-Exchange Demineralization plant performance optimization as per water analysis

  • Selection of Resin, Stream Sequence, Regeneration type and level

  • Regeneration/Rejunivation of Ion exchange resins  

  • SWRO/BWRO Demineralization plant performance benchmarking as per water analysis and Normalization process

  • Best operation practices for RO desalination Plants

  • Selection of RO cleaning process and cleaning performance study

Chemistry Loboratory

Power Plant Chemistry Laboratory

  • Establishment of Chemistry Laboratory for

    • Water Analysis

    • Coal Analysis

    • Fuel oil testing

    • Lube oils and Transformer oil Analysis

    • Waste water/Effluent analysis

    • Flue Gas, Natural gas, Generator Hydrogen, Confined Area Gas Analysis



  • Raw materials/Process Chemicals Testing

  • Analytical Procedures for Testing and Calibration

  • Laboratory Safety and Implementation of good laboratory practices

  • Selection of Laboratory Instruments and Equipments

  • Laboratory Furnishing

  • Laboratory Accreditation

Certification services

Environment, Health and Safety (EHS)- Certification

  • Environment Management System –Policy and procedure drafting as per ISO-14001 – Guidance for implementation and maintenance

  • Occupational Health and Safety Management System –Policy and procedure drafting as per ISO-45001 – Guidance for implementation and maintenance

  • Quality Management System –Policy and procedure drafting as per ISO-9001 – Guidance for implementation and maintenance

  • Auditing the above systems to identifying the gaps

  • Identifying the Legal requirement - Legal Register

  • Guidance for Accreditation of Chemistry Laboratory as per ISO 17025

  • Safety in Chemical Handling

  • Drafting Emergency Preparedness Procedure

  • Drafting LOTO procedure

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