Important and Top Contributors to Industrial Engineering.

This year I want to promote birthdays of important contributors to industrial engineering for celebration by IE departments in all organizations.

Important contributors to industrial engineering.

Ralph Barnes - Motion and Time Study -  17 October, 

Tim Cook - Apple - Application of IE in Supply Chains - Supply Chain Industrial Engineering - November 1, 1960

Harrington Emerson - Productivity Management - Efficiency Management - August 2, 1853

Gilbreth - Motion Study, Process Charts - July 7

Goldratt - Importance to Constraints in Production Planning and Process Improvement   -   March 31, 1947

Prof. Mikell P. Groover - Manufacturing Technology, Robotics, Work Systems, September 8, 1939.

Harold Bright (H.B.) Maynard - Operation Analysis, Handbook of IE, MTM, Most  - Maynard - 18 October.

L.D. Miles -  Value Analysis and Engineering, April 21.

Nakajima - Importance of Equipment Improvement and Maintenance for Productivity (Will be covered in December newsletter)

Taiichi Ohno - Importance of IE for Production Systems and Cost Reduction - TPS with Great Importance given to IE,  February 29, 1912

Shigeo Shingo - Process Improvement Methodology, SMED, Poka Yoke   January 8, 1909

F.W. Taylor - Productivity Science, Productivity Engineering, Productivity Management  March 20, 1856

-------------------------------

Special Issues of Modern Industrial Engineering LinkedIn News Letter

Ralph Barnes - Motion and Time Study -  17 October, 

Tim Cook - Apple - Application of IE in Supply Chains - Supply Chain Industrial Engineering - November 1, 1960

Harrington Emerson - Productivity Management - Efficiency Management - August 2, 1853

Gilbreth - Motion Study, Process Charts - July 7

Goldratt - Importance to Constraints in Production Planning and Process Improvement   -   March 31, 1947

https://www.linkedin.com/pulse/march-2026-issue-taylor-month-ie-contribution-fw-industrial-kvss-71nlc/

Prof. Mikell P. Groover - Manufacturing Technology, Robotics, Work Systems, September 8, 1939.

Harold Bright (H.B.) Maynard - Operation Analysis, Handbook of IE, MTM, Most  - Maynard - 18 October.

L.D. Miles -  Value Analysis and Engineering, April 21.

https://www.linkedin.com/pulse/april-2026-product-industrial-engineering-ld-miles-value-kvss-5zrfc/

Nakajima - Importance of Equipment Improvement and Maintenance for Productivity (Will be covered in December newsletter)

Taiichi Ohno - Importance of IE for Production Systems and Cost Reduction - TPS with Great Importance given to IE,  February 29, 1912

Shigeo Shingo - Process Improvement Methodology, SMED, Poka Yoke   January 8, 1909

F.W. Taylor - Productivity Science, Productivity Engineering, Productivity Management  March 20, 1856

https://www.linkedin.com/pulse/march-2026-issue-taylor-month-ie-contribution-fw-industrial-kvss-71nlc/

Ralph Barnes - Motion and Time Study

Tim Cook - Apple - Application of IE in Supply Chains - Supply Chain Industrial Engineering

R.M. Currie - Work Study

Harrington Emerson - Productivity Management - Efficiency Management

Gilbreth - Motion Study, Process Charts

Goldratt - Importance to Constraints in Production Planning and Process Improvement

Prof. Mikell P. Groover - Manufacturing Technology, Robotics, Work Systems

Harold Bright (H.B.) Maynard - Operation Analysis, Handbook of IE, MTM, Most

Nakajima - Importance of Equipment Improvement and Maintenance for Productivity

Taiichi Ohno - Importance of IE for Production Systems and Cost Reduction - TPS with Great Importance given to IE,

Shigeo Shingo - Process Improvement Methodology, SMED, Poka Yoke

F.W. Taylor - Productivity Science, Productivity Engineering, Productivity Management

This year I want to promote birthdays of important contributors to industrial engineering for celebration by IE departments in all organizations.

Celebrate the birthday of F.W. Taylor in your Industrial Engineering Department and Company. Birthday of Taylor on 20 March. Share what you are implementing in your company from Taylor's Ideas.

March 2026 Taylor Month of IE - Contribution of F.W. Taylor to Industrial Engineering and Productivity Management.

https://www.linkedin.com/pulse/march-2026-issue-taylor-month-ie-contribution-fw-industrial-kvss-71nlc

#IndustrialEngineering #Productivity #CostReduction  #Products  #Processes #Facilities

F.W. Taylor said in his testimony that scientific management was not a one man theory and development. Number of executives and thinkers contributed to its development.

Contributors to Industrial Engineering - Birthdays

January 8 - Shigeo Shingo (1909)

February 28 - Carl Barth (1860)

29 - Taiichi Ohno (1912)

March 20  -  Frederick Taylor (1856)

April 4 - Charles Buxton Going (1863)  - Principles of Industrial Engineering - Book in 1911

May 20 - Henry Gantt (1861)

May 24 - Lilian Gilbreth (1878),

June 11 - Kiichiro Toyoda (1894)

June 18 Philip Crosby (1926)

July 7 - Frank Gilbreth (1868)

July 13 - Henry Hallowell Farquhar (1884)

July 29 - Henri Fayol (1841)  - Fayol recognized the contribution of F.W Taylor in his paper on Management

August 24 - Henry R. Towne (1844)

September 12 - Eiji Toyoda (1913)

October 14 - W. Edwards Deming (1900)  - Quality Management  http://mtrrp.blogspot.in/2014/05/total-quality-management-approach.html

October 17 -  Ralph M Barnes (1900)

18 -  H.B. Maynard

26 - Charles E. Bedaux (1886)

29 - Captain Henry Metcalfe (1847) - Cost of Manufacture

November 1 Tim Cook (1960)

7 - Chester Barnard (1886), 
8 - George Dantzig

December 8 - Eli Whitney (1765)

22 - Arthur G. Bedeian (1946)
24 - J.M. Juran (1904)

Ud. 28.3.2026

Pub. 9.3.2026

Target Costing and Industrial Engineering

Lesson 262 of IEKC Industrial Engineering ONLINE Course Notes.

Lesson of Product Industrial Engineering Module

Target costing is cost estimation method to set cost targets for a product and its components in relation to the target price set by the company for the product as an objective.

Target cost method requires cost reduction methodology to achieve the set  target costs. Hence industrial engineers are called to assist the new product development teams to support cost reduction. Industrial engineers have to the knowledge bases containing cost information for various elements of products and processes. Hence they will be able to locate lower cost alternatives to any design idea. They can investigate any competitor design that is giving better cost effectiveness or productivity.

Industrial engineering tools were used by the Toyota managers in target costing exercises. Taiichi Ohno specifically mentioned the role of Industrial Engineering in improving the profitability of Toyota Motors by reducing costs.

We can say industrial engineering finds an avenue for its services, when company implements target cost methodology for its new products.

Added on 26 July 2018

Now, I developed the term "Product Industrial Engineering" to indicate the redesign of products  carried out by industrial engineering to reduce the cost of production and distribution of the product. While "value engineering" is the first redesign technique that focused on cost reduction of a product by redesigning, we now have more tools and industrial engineers can contribute to the target costing based new product introductions as well as annual budgets.

Industrial engineers are committed to total cost industrial engineering. Total cost industrial engineering is application of engineering and engineering activity related management to reduce the cost of manufacture and distribution of a company's product and service portfolio.

Product Industrial Engineering

Study Materials




Product Industrial Engineering

Value Engineering - Introduction

Value Analysis and Engineering Techniques

Value Analysis: Approach and Job Plan

Knowledge Required for Value Engineering Application and Practice

Functional Analysis Systems Technique (FAST) - Value Engineering Method

Value Engineering - Examples, Cases and Benefits

Value Engineering in Construction - Structures, Roads, Bridges

Value Engineering at the Design and Development Stage - Tata Nano Example

Low Cost Materials and Processes - Information Board  - Database for Industrial Engineering and Value Engineering

Value Engineering - Bulletin - Information Board



Lean Product Development - Low Waste Product Development - Efficient Product Development



Design for Manufacturing

Design for Assembly



Cost Reduction/Productivity Improvement Methods of Industrial Engineering

Methods efficiency engineering and the related operation analysis examine proposed manufacturing processes and eliminate wastes or inefficiencies.

Motion economy principles based design provides for the best motion pattern that minimizes human effort.

Layout efficiency improvement takes care of layout related issues.

Value engineering takes a product and component design analysis approach to reduce costs.

Operations research optimizes various parameters subject to the given constraints.


Implementing Target Costing - IMA Note

IE techniques  DFMA and Value Engineering are included in the note the achieve cost reduction during the design process.
http://www.imanet.org/docs/default-source/thought_leadership/management_control_systems/implementing_target_costing.pdf

Tools and Techniques for Implementing Target Costing - IMA

https://www.imanet.org/-/media/745cee1e7db74276b6fef4d0c4072396.ashx?as=1&mh=200&mw=200&hash=F34D9BD3A148FDC27DC39E95A1D7C7AD908AB0D0

Current Status and Challenges of Target Costing in Japanese Major Corporations
2006 Article
Masayasu Tanaka,Masao Okuhara, Masao Ariga
http://www.value-eng.org/knowledge_bank/attachments/200631.pdf

-----------------------------------------


New Bibliography added on 26 July 2018 - 27.3.2026

Narayana Rao KVSS • You

Professor (Retired), NITIE - Now IIM  Mumbai - Offering FREE IE ONLINE Course Notes

2mo

Cost governance is a new term,?

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2mo

Narayana Rao KVSS Cost Governance is not a traditional accounting term. It refers to governing the structural system that continuously produces cost behaviour — product architecture, flow design, batching logic, policies, and decision latency — rather than managing cost numbers or variances. The intent is to shift the discussion from “cost control” to governing the enterprise physics that creates cost.

https://www.linkedin.com/posts/vijayakumar-p-8a0a171b7_cost-is-not-reduced-it-is-coordinated-share-7415445027675353088-lUEO

https://www.linkedin.com/posts/narayana-rao-kvss-b608007_industrialengineering-productivity-costreduction-share-7443494938983620609-rVUV

Why NYU Tandon for Industrial Engineering?

Industrial Engineers complete their programs well versed in the theories and practical application of lean manufacturing, target costing, and design for manufacturability. Our program establishes a strong foundation in the ability to create engineering processes and systems that improve quality and productivity while eliminating the waste of labor, time, and resources.
http://archive.engineering.nyu.edu/academics/online/masters/industrial-engineering (Accessed on 26 July 2018)

Study on the Strategies of Target Cost Management in the Supply Chain of Aeronautic Complex Product.
Hang-hang Chen and Li-xin Pan
2016
https://books.google.co.in/books?id=sj-FCwAAQBAJ&pg=PA502#v=onepage&q&f=false

Using Target Costing to Enhance the Operating Profit
https://books.google.co.in/books?id=-QW5CgAAQBAJ&pg=PA938#v=onepage&q&f=false
2016
Article: Research of Implementation Mode of Strategic Management Accounting.
Yang-fang Gao et al.

B. Gopalakrishnan, A. Kokatnur, D.P. Gupta, (2007) "Design and development of a target‐costing system for turning operation", Journal of Manufacturing Technology Management, Vol. 18 Issue: 2, pp.217-238,
https://www.emeraldinsight.com/doi/abs/10.1108/17410380710722917


Target Costing and Value Engineering
Robin Cooper, Regine Slagmulder
 1997 - Productivity Press
Published May 31, 1997
Reference - 359 Pages
https://www.crcpress.com/Target-Costing-and-Value-Engineering/Cooper-Slagmulder/p/book/9781563271724

May 1993
New product costing, Japanese style. (CPA in Industry )
By Margaret Lgagne and Richard Discenza
http://archives.cpajournal.com/old/14345315.htm



Target Costing, Industrial Engineering and Value Engineering Consultants

EFS Consulting, Vienna
https://efs.consulting/en/target-cost-and-cost-down/


Updated 26 July 2019,   26 July 2018,  23 July 2016, 28 November 2013

Industrial Engineering - Thermal Power Plant - Bibliography

Power Plant Engineering - Lecture Notes
http://poisson.me.dal.ca/site2/courses/mech4840/

Chief Industrial Engineer position was mentioned in the power plant engineering textbook of Morse.



Are there chief industrial engineers in power plants today?


Ranking of journals in Energy Engineering and Power Technology
http://www.scimagojr.com/journalrank.php?category=2102



Websites

http://www.power-eng.com/index.html

National Association of Power Engineers Inc. (USA)
http://www.powerengineers.com/


2018

 Are you running your boilers  with high efficiency? Check.

Workshop on Efficient Operation and Maintenance of Boiler

https://www.youtube.com/watch?v=w5fwblwp9BU

2014
Power Plant Instrumentation and Control Handbook: A Guide to Thermal Power Plants
Swapan Basu, Ajay Debnath
Academic Press, Nov 10, 2014 - 942 pages
https://books.google.co.in/books?id=Ns06BAAAQBAJ



2013

Thermal Power Plants Advanced Applications
http://www.intechopen.com/books/thermal-power-plants-advanced-applications


2012

Improving Energy Efficiency of Boiler Systems - PDH Notes
http://www.pdhcenter.com/courses/m166/m166content.pdf


Thermal Power Plant Performance Analysis
Gilberto Francisco Martha de Souza
Springer Science & Business Media, Jan 5, 2012 - 288 pages
https://books.google.co.in/books?id=P76AAjX2DEQC


http://electrical-engineering-portal.com/coal-handeling-plant-in-a-thermal-power-generating-station

Application of Supply Chain Tools In Power Plant- A Case of Rayalaseema Thermal Power Plant
S. Shakeel Ahamed, G. Rangajanardhana, E. L. Nagesh
http://www.iiste.org/Journals/index.php/IEL/article/view/1436


Energy Efficiency Improvement in Thermal Power
Plants
Genesis Murehwa, Davison Zimwara, Wellington Tumbudzuku, Samson Mhlanga
International Journal of Innovative Technology and Exploring Engineering (IJITEE)
ISSN: 2278-3075, Volume-2, Issue-1, December 2012
http://www.ijitee.org/attachments/File/v2i1/A0357112112.pdf



2009
Application of Six Sigma DMAIC methodology in thermal power plants: A case study
DOI:10.1080/14783360802622995
Prabhakar Kaushika* & Dinesh Khandujab
pages 197-207
Total Quality Management & Business Excellence
Volume 20, Issue 2, 2009
http://www.tandfonline.com/doi/abs/10.1080/14783360802622995?journalCode=ctqm20



2002
Power Plant Engineering by P K Nag TMH  2002
https://books.google.co.in/books?id=Cv9LH4ckuEwC&printsec=frontcover#v=onepage&q&f=false

Other Relevant Information

BHEL India
Design Analysis and Value Engineering Group
Major activities of the group include Stress Analysis, Modal Analysis and Thermal Analysis aimed at development of new designs (concept to prototype), design validation, assessment of deviation and failure analysis. Other specialized functions of the group are Residual Life Assessment of power plant components and Value Engineering. Types of analyses include Static Analysis, Dynamic Analysis and Non-linear Analysis for Plasticity and Creep. While the "ANSYS" software is used for the analyses, the Group also develops "Fortran" and "Excel" based programs to enhance the utility of "ANSYS".
http://www.bhel.com/about_rd_mechanical2.php
query @ bhel.com



Department for Optimisation of Processes and Constructions of Turbine Machinery
Podgorny Institute For Mechanical Engineering Problems
http://www.ipmach.kharkov.ua/en/structure/Dep31/

Ud. 27.3.2026, 14.2.2025

Pub. 28.6.2015

Industrial Engineering in Electrical Engineering

Ubiquity of Industrial Engineering Principle - Industrial Engineering is applicable to all branches of engineering.

Picture source: https://www.engie.com/en/activities/thermal-energy/thermal-power-stations


https://www.kepco.co.jp/english/energy/fuel/thermal_power/shikumi/index.html

Industrial Engineering - Thermal Power Plant - Bibliography

Thermal Electricity Generation - Five Operations in the Process and Industrial Engineering of Those Operations

ASME - Gilbreth Process Chart for Productivity Improvement

The process chart records all activities taking place in the process under 5 major operations of the process.

1. Operation - Processing the inputs into the process.

2. Inspection - Inspection activities

3. Transportation and mechanical and manual handling activities in the process.

4. Delays occurring the in the process - Electricity may not be produced. Equipment may remain idles. Delays occur due to problems purchase planning, production quantity planning, manpower planning, maintenance planning etc.

5. All stores and items stored in the process. The incremental cost of stores has to be brought down. Stores procedures may lead to elongation of cycle times and delays.

News Related to Operations/Processes for Industrial Engineers in Power Plants

1. Operation - Processing the inputs into the process.

New Paths to Productivity in Power Generation

AUGUST 07, 2017 

https://www.bcg.com/en-in/publications/2017/power-utilities-energy-environment-new-paths-productivity-power-generation

Methods of Improving the Efficiency of Thermal Power Plants

Tongjun Zhang,  2020,  J. Phys.: Conf. Ser. 1449 012001

[1] Harvey, Abby et al. 2017 History of Power: The Evolution of the Electric Generation Industry 

Powermag. [Online] Available: https: //www. powermag. com/

history-of-power-the-evolution-of-the-electric-generation-industry    [Accessed on Aug. 20, 

2019].

[2] BP p.l.c. 2019 BP Statistical Review of World Energy (68th edition). UK: Pureprint Group Limited.

[3] Swapan Basu and Ajay Kumar Debnath 2019 Power Plant Instrumentation and Control Handbook 

(2nd Edition). Academic Press p 1152

[4] W He, H Zhu, Y G. Liu, G Z Yi, and S C Pan 2019 Forest for ultra-super critical power generation 

technology China Energy and Environmental Protection vol 41 chapter 6 pp 77-81

[5] Augusto Di Gianfrancesco 2016 Materials for Ultra-Supercritical and Advanced 

Ultra-Supercritical Power Plants Woodhead Publishing 

[6] Q C Fei, C Liang 2012 Analysis on Energy Saving for Water Cooling System in Thermal Power 

Plants Electric Power vol 9

[7] L J Chen, L J Mi, C Xu,and Y Lei 2010 Development and Analysis of Direct and Indirect Air 

Cooling under New Situation Power System Engineering vol 26 chapter 6

[8] Y Q Kong, W J Wang, X W Huang, L J Yang, X Z Du,and Y P Yang 2017 Direct dry cooling 

system through hybrid ventilation for improving cooling efficiency in power plants Applied 

thermal engineering: Design, processes, equipment, economics vol 119 5 June pp 254-268

[9] Y Y Jiang, X Z Du, H M Hu, and Z G Li 2018 Thermodynamic characteristics of thermal power 

plant with hybrid (dry/wet) cooling system Energy 2018

[10]G Xu, L Zhou,S Zhao, F Liang, C Xu, and Y Yang 2015 Optimum superheat utilization of 

extraction steam in double reheat ultra-supercritical power plants Applied Energy vol 160 pp 

863–872

[11]Y J Ye and S L Shen 2011 Characteristics of European High-Efficiency Coal Fired Units and 

Their Implications for Chinese Power Plant Electric Power Construction vol 32 chapter l pp 

54-58

[12]K L Xu, Y H Xiong, H 2015 Pan Reheat Pressure and Feed-water Enthalpy Rise Optimization of 

Double Reheat Unit Turbine Technology vol 57 chapter 10 pp 371-373

[13]K Wang, Y Q Chen, B H Huang, X F Chen 2011 Performance Research on Domestic Gas-Steam 

Combined Cycle Unit North China Electric Power 4 pp 18-21

2. Inspection - Inspection activities

Thermal Power Plant Performance Testing: Major Equipment Performance Testing, Boilers, Turbines, Condensers, Pumps, Fans, Test Methodology and Code Requirements, Equipment Efficiency, Heat Rate Calculations, Correction Factors

Introduction

This seminar provides detailed description of the all performance testing methods for all thermal power plant equipment including boilers, turbines, condensers, pumps, fans, deaerators, and feedwater heaters. The methodology, and code requirements for the performance tests for all thermal power plant equipment will be covered thoroughly in this seminar. The preparatory work and instrumentation required for each test will be described in detail in this seminar.

 

The efficiency calculations for all the equipment used in circulating fluidized-bed (CFB) boiler and pulverized coal boiler power plants will be covered in-depth in this seminar. All the processes, operational and maintenance activities, capital projects, technical options, potential initiatives and incentives to implement upgrades/repairs for increasing the power plant equipment efficiency will also be covered in detail. This seminar will also provide a thorough explanation of CFB and pulverized coal boiler technology including hydrodynamics, combustion, emissions, design considerations, gas-solid separators, design of CFB and pulverized coal boiler components, management of solid residues, materials, stoichiometric calculations, and model for sulfur capture. The operation, maintenance, testing, and refurbishment options of all the equipment and systems used in CFB and pulverized coal power plants will be covered in detail including, boilers, superheaters, reheaters, turbines, condensers, feedwater heaters, deaerators, pumps, compressors, fans, electric generators, instrumentation and control systems, and governing systems, etc. All the factors which affect CFB and pulverized coal boiler power plant efficiency and emissions will be explained thoroughly. All the methods used to calculate the heat rate of CFB and pulverized coal power plants will be covered in detail. All the areas in CFB and pulverized coal boiler power plants where efficiency loss can occur will be explained. This seminar will also provide up-dated information in respect to the following methods used to improve CFB boiler and pulverized coal boiler power plant heat rate:

Optimizing the Combustion Process and Sootblowing

Controlling the Steam Temperature

Recovering Moisture from Boiler Flue Gas

Performing Steam Turbine Maintenance

Lowering Condenser Back Pressure

Pre-drying High Moisture Coal and Reducing Stack Temperature

Seminar Outcome

Thermal Plant Performance Testing: Gain a thorough understanding of all the performance testing methods for all thermal power plant equipment including boilers, turbines, condensers, pumps, fans, deaerators, and feedwater heaters.

Performance Test Methodology and Code Requirements: Understand the methodology, and code requirements for the performance tests of all thermal power plant equipment

Performance Test Preparatory Work and Instrumentation: Learn about the preparatory work and instrumentation required for each equipment performance test in a thermal power plant

Equipment Efficiency Calculations: Gain a thorough understanding of the efficiency calculations for all the equipment used in circulating fluidized-bed (CFB) boilers and pulverized coal boilers power plants

Calculating the Heat Rate of CFB and Pulverized Coal Boiler Power Plants: Learn all the methods used to calculate the heat rate of CFB and pulverized coal boiler coal power plants

Benefits of Lowering the Heat Rate of CFB and Pulverized Coal Boiler Power Plants: Understand all the benefits of lowering the heat rate of circulating fluidized-bed boiler coal power plants

Methods Used to Improve CFB and Pulverized Coal Boiler Power Plants Heat Rate: Gain a thorough understanding of all the methods used to improve the heat rate of CFB and pulverized boiler coal power plants

Processes, Operational and Maintenance Activities in CFB and Pulverized Coal Boiler Power Plants: Discover all the processes, operational and maintenance activities used to improve the heat rate of CFB and pulverized coal power plants

Capital Projects Used to Improve the Heat Rate of CFB and Pulverized Coal Boiler Power Plants: Learn about all the capital projects used to improve the heat rate of CFB and pulverized coal power plants

Technical Options for Improving the Heat Rate of CFB and Pulverized Coal Boiler Power Plants: Understand all the technical options used to improve the heat rate of CFB and pulverized coal boiler power plants

Potential Initiatives and Incentives to Implement Upgrades/Repairs for Improving the Heat Rate of CFB and Pulverized Coal Bed Boiler Power Plants: Discover all the potential initiatives and incentives to implement upgrades/repairs for improving the heat rate of CFB and pulverized coal power plants

Factors Affecting CFB and Pulverized Coal Boiler Power Plants Efficiency and Emissions: Learn about all the factors which affect CFB and pulverized coal boiler power plants efficiency and emissions

Areas in CFB and Pulverized Coal Power Plants where Efficiency Loss Can Occur: Discover all the areas in CFB and pulverized coal power plants where efficiency loss can occur

Optimize the Operation of CFB and Pulverized Coal Power Plant Equipment and Systems to Improve the Plant Heat Rate: Understand all the techniques and methods used to optimize the operation of CFB and pulverized coal power plant equipment and systems to improve the plant heat rate

CFB and Pulverized Coal Power Plant Equipment and Systems: Learn about various types of CFB and pulverized coal power plant equipment and systems including: boilers, superheaters, reheaters, steam turbines, governing systems, deaerators, feedwater heaters, coal-handling equipment, transformers, generators and auxiliaries

Special Feature

 

Each delegate will receive a digital copy of the following materials written by the instructor:

“POWER GENERATION HANDBOOK” second edition published by McGraw-Hill in 2012 (800 pages)

Excerpt of the relevant chapters from the “POWER PLANT EQUIPMENT OPERATION AND MAINTENANCE GUIDE” published by McGraw-Hill in 2012 (800 pages)

THERMAL POWER PLANT PERFORMANCE TESTING MANUAL (includes practical information about all the performance testing methods for all thermal power plant equipment - 300 pages)

Course Materials

Each participant will receive a complete set of course notes and handouts that will serve as informative references.

https://www.tlnt-training.com/14511/Thermal-Power-Plant-Performance-Testing-Major-Equipment-Performance

Toshiba Group Develops Inspection Technology for Plant Facilities and Equipment in High Inaccessible Places

- To provide safe and secure inspection solution by combining Group’s cyber and physical technologies.

October 29 2019

Toshiba Corporation

Toshiba Energy Systems & Solutions Corporation

https://www.toshiba-energy.com/en/info/info2019_1029.htm

3. Transportation and mechanical and manual handling activities in the process.

Materials Handling In Power Plants

MATERIAL HANDLINGTECHNOLOGY

On Nov 30, 2013

https://engmag.in/materials-handling-in-power-plants/

4. Delays occurring the in the process - Electricity may not be produced. Equipment may remain idles. Delays occur due to problems purchase planning, production quantity planning, manpower planning, maintenance planning etc.

5. All stores and items stored in the process. The incremental cost of stores has to be brought down. Stores procedures may lead to elongation of cycle times and delays.

Related Information

Increasing power plant productivity to cover the ever-rising demand for energy.

The world’s largest producers of power generation equipment build on Oerlikon advanced materials, functional coatings or process technologies to improve performance and cut the environmental impact of energy generation systems.

Recently, our products improved the wear resistance of steam turbine components by a factor of 25. (2021).

Oerlikon materials and coating technologies for hydropower turbine components reduce material erosion by a factor of up to 50 and increase the service life of components three to five times compared to uncoated components. (2021)

https://www.oerlikon.com/en/industries/energy/

Productivity Science of Power Plants

FACTORS AFFECTING PRODUCTIVITY IN THE LARGE THERMAL POWER GENERATION STATIONS IN KENYA

Mungatana Mwaka

2007, MBA Thesis

http://erepository.uonbi.ac.ke/handle/11295/21342

Thermal Power Plant - Technical Note
http://www.slideshare.net/mastersheel007/thermal-power-plant-s

Manual on Best Practices for Thermal Plants in India
ftp://asiapacificpartnership.org/PowerGenTF/Power_Plant___All_pages.pdf
CII - USAid - ICICI Bank Report



Detailed Note on Cost Reduction Opportunities Power Systems
http://nraoiekc.blogspot.com/2013/11/cost-reduction-opportunities-in-power.html


International Comparison

Comparison of Power Plants Efficiency among 73 Countries, by Tser-Yieth Chen, Tsai-Lien Yeh, and Yi-Ting Lee, Journal of Energy
Volume 2013 (2013), Article ID 916413, 8 pages
http://www.hindawi.com/journals/jen/2013/916413/



Productivity in Generation

Productivity of Grid connected plants in Nicaragua
http://mpra.ub.uni-muenchen.de/49356/1/MPRA_paper_49356.pdf

Energy Conservation in 210 MW Thermal Plant
http://www.emt-india.net/Presentations2009/3L_2009Jan29-30_PowerPlant/Day1/2.%20NPC-%203L%20programme_%2029.%2001.%2009.pdf

Productivity in Distribution

Improving Efficiency in Transmission and Distribution System
Mallesh Gadeppanavar and , Vinay Pattanashetti
Electrical and Electronics Engineering department, Angadi institute of technology and management Belgaum-590008, India
International Journal of Emerging Technology and Advanced Engineering
Website: www.ijetae.com (ISSN 2250-2459, ISO 9001:2008 Certified Journal, Volume 3, Issue 3, March 2013)

http://www.ijetae.com/files/Volume3Issue3/IJETAE_0313_25.pdf

Productivity of Boilers in Thermal Plants

An Investigation Of Productivity In Boilers Of Thermal Power Plants With Fuzzy Gain Scheduled PI Controller, January 2010
http://ijerad.kku.edu.tr/sayi_3/IJERAD1001_09.pdf

Optimization of Components and Products

Steam Turbine

Steam Turbine Optimization

http://www.isa.org/~powid/powid_99/0201.pdf

Multiobjective optimization of a steam turbine stage

http://www.waset.org/journals/waset/v79/v79-186.pdf

Increasing Steam Turbine Power Generation Efficiency

http://www.energy-tech.com/article.cfm?id=17566

Design and Materials for Modern Steam Turbine up to 700 MW

http://www.energy.siemens.com/us/pool/hq/energy-topics/pdfs/en/steam-turbines-power-plants/3_Design_and_Materials.pdf

Transformers

Transformer design optimization

http://www.opsprograms.com/design-programs/optimization

Modern Transformer Design

http://www.springer.com/engineering/energy+technology/book/978-1-84882-666-3

Motors


5 Factors That Mess Up Motor Efficiency and How To Improve It
http://electrical-engineering-portal.com/5-factors-that-mess-up-motor-efficiency-and-how-to-improve-it

Generators

Auxiliary Systems of Power Plants
Energy Efficient Design of Auxiliary Systems in Fossil-Fuel Power Plants - ABB Energy Efficiency Handbook
http://www05.abb.com/global/scot/scot221.nsf/veritydisplay/5e627b842a63d389c1257b2f002c7e77/$file/Energy%20Efficiency%20for%20Power%20Plant%20Auxiliaries-V2_0.pdf

Optimization of Systems

Distribution system

Productivity of Human Factor

Line men

Safety and Health of Employees

Product Industrial Engineering

PDF Available

Value Analysis Method, Leverage for Cost Reduction and Technological Change in the Electrical Engineering Field

December 2013, Universal Journal of Industrial and Business Management 1(4):162-170

DOI:10.13189/ujibm.2013.010404

LicenseCC BY 4.0

Authors:

Cristina Mihaela Gheorghe

Universitatea Națională de Știință și Tehnologie Politehnica București

Mircea Covrig, Mihai Virgil Popescu

1. Faculty of Electrical Engineering, University Politehnica of Bucharest, 313 Splaiul Independentei, Bucharest, 060042, Romania 2. Electrical Machine Works Bucharest, Romania 

*Corresponding Author: cristina.gheorghe  at the rate upb.ro 

https://www.researchgate.net/publication/258338209_Value_Analysis_Method_Leverage_for_Cost_Reduction_and_Technological_Change_in_the_Electrical_Engineering_Field

Value Engineering for Electrical Construction

POSTED 10-15-23

https://olympiatech.net/news/value-engineering-for-electrical-construction/

Carpenter Electrification

Complete Guide to Electric Motor Optimization: From Design to Testing

February 21, 2025 

https://www.carpenterelectrification.com/blog/guide-to-electric-motor-parts

© January 2020 IJSDR | Volume 5, Issue 1 

Implementation of Value Engineering and Zero Defect Principle in Manufacturing of Go-Kart 

Samarth Gurudatt Gaikwad1, Chaitanya Milind Parchure2, Apurva Vinay Patil3, Akshay Chandrakant Vibhute4 

1,2B. E Student, Department of Mechanical Engineering, DKTE Society's Textile & Engineering Institute Ichalkaranji, Maharashtra, India. 

3,4B.E Student, KIT College Of Engineering Kolhapur, Maharashtra, India. 

https://www.ijsdr.org/papers/IJSDR2001009.pdf

Value Engineering service from Patronics Services - Electrical Engineering Excellence

The Oval, Wing A, 5th Floor Jalaram Road

/ Ring Road Parklands, Nairobi, Kenya

P.O Box 18245 – 00500

https://www.patronicsservices.com/value-engineering/

Advances in electric motors: a review and benchmarking of product design and manufacturing technologies

Open access

Published: 15 July 2025

Volume 142, pages 312–345, (2025)

https://link.springer.com/article/10.1007/s00502-025-01331-3

Open Access Articles on Electric Motors

https://link.springer.com/search?query=&search-within=Journal&package=openaccessarticles&facet-journal-id=502

Course

Industrial Engineering - Electrical Engineering.

What can you expect in this profession?

Bachelor of Engineering in industrial engineering (focus on electrical engineering) are particularly qualified for activities in the increasingly important operational interfaces between the economic and technical areas, as they have a broad knowledge of both disciplines. 

 Therefore, you can be employed in a wide range of areas, preferably in departments where technical and business topics meet, such as in purchasing or sales, where you analyze technical issues from an economic point of view or sell complex technical products.

Which fields of activity are relevant for you?

Project Management national and International

Strategic Procurement

Production Control.

https://www.thalesgroup.com/en/europe/germany/industrial-engineering-electrical-engineering

Industrial Engineering Tool Kit

Industrial Engineering Tool Kit - Recommended Books

Industrial Engineering Tool Kit - Videos - Video Knol Collection

Introduction to Industrial Engineering - Course at NITIE

Related Blog Posts by Me in This Blog

Energy Efficiency Conference - ECEEE

Energy Efficiency and Productivity - International Events and Examples

Industrial Engineering in Electical Engineering

Cost Reduction Opportunities in Power Plants and Distribution Systems

Economic Analysis - Clean Energy Investment Proposals

Energy Productivity - Efficiency Improvement

Energy Industrial Engineering

National Energy Conservation Day

Updated   27.3.2026, 31.8.2025,  9 April 2021,  4 June 2016,  26 Nov 2014

Software Value Engineering

There are attempts at applying value engineering methodology to software area.

A 1995 M.S. thesis is available on the theme.

____________

http://www.dtic.mil/cgi-bin/GetTRDoc?AD=ADA302830&Location=U2&doc=GetTRDoc.pdf

____________

Commercial Off The Shelf software components - Selection using requirement approach
www.lcc.uma.es/~av/Proyectos/west/publications/cots.ppt

Remember: Utilize vendors' available "functional products" is a value analysis technique

Adopting COTS products
http://www.alexander-egyed.com/publications/Adapting%20COTS%20Applications%20-%20The%20Fine%20Line%20between%20Development%20and%20Maintenance.pdf

Related Knols

Industrial Engineering in Computer Engineering and Information Technology

Narayana Rao

Ud. 27.3.2026

Pub. 16.6.2012

Lean Construction - The Toyota Industrial Engineering of Construction

Welcome to Lean Design & Construction!

Lean Construction Institute (LCI) is a non-profit organization, founded in 1997.
http://www.leanconstruction.org/
The Institute operates as a catalyst to transform the industry through lean project delivery using an operating system centered on a common language, fundamental principles, and basic practices. We have these broad goals:

Create Industry Demand for Lean
Grow and Sustain Members
Develop Lean Knowledge
Develop Lean Capacity
Develop Collaboration and Distribution Channels

Tact Planning in Construction

https://leanconstructionblog.com/Creating-a-Takt-Plan.html

https://www.youtube.com/watch?v=Y3PXQpNbSc4

PhD Thesis 2019

https://escholarship.org/uc/item/6dp4n4fz

https://iglcstorage.blob.core.windows.net/papers/attachment-bb70dc89-0329-4e6c-9ba5-72a1c999d9f2.pdf

https://www.researchgate.net/publication/265125168_Implementing_Takt-Time_Planning_in_Construction_to_Improve_Work_Flow

https://www.intakt.app/

http://www.iaarc.org/publications/fulltext/isarc2004-S06-06.pdf

2014
Lean Construction Institute - Chicago
Community of Practice Events
http://www.leanconstruction.org/communities/chicago/

2013

Institute of Lean Construction of Excellence (ILCE). India

Indian engineers, managers and industry leaders are aware of lean construction and taking steps to implement it.

ILCE was established in India in 2008 as a partnership between construction industry leaders and academia.  

Lean construction has  answers to complete projects early, get business benefits without compromising on clients’ satisfaction, according to Dr. Subhash Rastogi, Executive Chairman of BT&BT.

http://www.thehindu.com/todays-paper/tp-features/tp-propertyplus/lean-construction-is-here/article5202393.ece

2012 Address in Lean Construction Institute Conference
________________

________________


Lean Construction Journal
http://www.leanconstruction.org/lcj/

AIMS

Published by the Lean Construction Institute since 2003, the Lean Construction Journal (LCJ) is an international refereed journal devoted to Lean Construction practice and research.


2004 paper
http://www.constructingexcellence.org.uk/pdf/fact_sheet/lean.pdf


1999
CONSIDERATIONS ON APPLICATION OF LEAN CONSTRUCTION PRINCIPLES TO
DESIGN MANAGEMENT
Patricia Tzortzopoulos1  and Carlos Torres Formoso2
Proceedings of IGLC 7
http://www.ce.berkeley.edu/~tommelein/IGLC-7/PDF/Tzortzopoulos%26Formoso.pdf

Ud. 27.3.2026

Pub. 10.9.2014

Service Systems Industrial Engineering - Efficiency and Productivity in Services

Service Systems Engineering

https://sebokwiki.org/wiki/Service_Systems_Engineering

Value of Service Systems Engineering

https://sebokwiki.org/wiki/Value_of_Service_Systems_Engineering

 

November 2023

With the AI-powered IBM watsonx Assistant, IBM helps you enhance conversational AI, improve the agent experience and optimize call center operations and data.

https://www.ibm.com/info/ai-for-customer-service  

https://www.linkedin.com/advice/0/how-do-you-use-service-systems-engineering

https://www.linkedin.com/advice/0/how-do-you-use-service-systems-engineering?utm_source=share&utm_campaign=copy_contribution_link&utm_medium=member_desktop&contributionUrn=urn%3Ali%3Acomment%3A%28urn%3Ali%3AarticleSegment%3A%28urn%3Ali%3AlinkedInArticle%3A7099450259512188928%2C7099450261361823744%29%2C7128403182820433921%29&articleSegmentUrn=urn%3Ali%3AarticleSegment%3A%28urn%3Ali%3AlinkedInArticle%3A7099450259512188928%2C7099450261361823744%29&dashContributionUrn=urn%3Ali%3Afsd_comment%3A%287128403182820433921%2Curn%3Ali%3AarticleSegment%3A%28urn%3Ali%3AlinkedInArticle%3A7099450259512188928%2C7099450261361823744%29%29

Service Systems Engineering and Management (Operations Research Series) 1st Edition

by A. Ravi Ravindran (Author), Paul M. Griffin (Author), Vittaldas V. Prabhu (Author)

eTextbook

$28.85 - $56.95

 

Hardcover

$117.92 

 

Paperback

$59.95 

Recipient of the 2019 IISE Institute of Industrial and Systems Engineers Joint Publishers Book-of-the-Year Award

This is a comprehensive textbook on service systems engineering and management. It emphasizes the use of engineering principles to the design and operation of service enterprises. Service systems engineering relies on mathematical models and methods to solve problems in the service industries. This textbook covers state-of-the-art concepts, models and solution methods important in the design, control, operations and management of service enterprises.

Service Systems Engineering and Management begins with a basic overview of service industries and their importance in today’s economy. Special challenges in managing services, namely, perishability, intangibility, proximity and simultaneity are discussed. Quality of service metrics and methods for measuring them are then discussed. Evaluating the design and operation of service systems frequently involves the conflicting criteria of cost and customer service. This textbook presents two approaches to evaluate the performance of service systems – Multiple Criteria Decision Making and Data Envelopment Analysis. The textbook then discusses several topics in service systems engineering and management – supply chain optimization, warehousing and distribution, modern portfolio theory, revenue management, retail engineering, health systems engineering and financial services.

https://www.amazon.com/Service-Engineering-Management-Operations-Research/dp/0367781328

Simulation and optimization of service system for restaurant

Wang Huan; Shi Yu-Qiang

Abstract:

Service system is analyzed, optimized and evaluated by discrete event system simulation method and classical Industrial Engineering. By analyzing element of system, process, layout and related data, simulation model of some restaurant's services system is build, and by Em-plant simulation software, bottle-neck problems of services system is found. Then improved project of services system is presented by Industrial Engineering method. In the end, result of improvement is evaluated by simulation method. The research showed that services system can be effectively optimized by combining simulation method with IE method.

Published in: 2011 IEEE 18th International Conference on Industrial Engineering and Engineering Management

https://ieeexplore.ieee.org/document/6035415

Ud. 27.3.2026

Pub. 8.11.2023