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Research Design and Standards Organisation

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Research Design & Standards Organisation
Company typeOrganization
IndustryResearch and Development
Founded1957; 67 years ago (1957)
Headquarters,
Area served
India
OwnerGovernment of India
ParentMinistry of Railways through Railway Board (India)
Websiterdso.indianrailways.gov.in

The Research Designs & Standards Organisation (RDSO) is the research and development and railway technical specification development organisation under the Ministry of Railways of the Government of India, which functions as a technical adviser and consultant to the Railway Board, the Zonal Railways, the Railway Production Units, RITES, RailTel and Ircon International in respect of design and standardization of railway equipment and problems related to railway construction, operations and maintenance.[1][2][3]

History

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To enforce standardization and co-ordination between various railway systems in British India, the Indian Railway Conference Association (IRCA) was set up in 1902. It was followed by the establishment of the Central Standards Office (CSO) in 1930, for preparation of designs, standards and specifications. However, till India's independence in 1947, most of the designs and manufacture of railway equipment was entrusted to foreign consultants. After independence, a new organisation called Railway Testing and Research Centre (RTRC) was set up in 1952 at Lucknow, for undertaking the intensive investigation of railway problems, providing basic criteria and new concepts for design purposes, for testing prototypes and generally assisting in finding solutions for specific problems. In 1957, the Central Standards Office (CSO) and the Railway Testing and Research Centre (RTRC) were integrated into a single unit named Research Designs and Standards Organisation (RDSO) under the Ministry of Railways with its headquarters at Manak Nagar, Lucknow.[1] The status of RDSO was changed from an "Attached Office" to a "Zonal Railway" on 1 January 2003, to give it greater flexibility and a boost to the research and development activities.[4][5]

Organisation

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RDSO is headed by the Director-General who ranks equivalent to the general manager of a Zonal Railway. The present Director General is Sanjeev Bhutani [6] The Director-General is assisted by an Additional Director General and 23 Sr. Executive Directors and Executive Directors, who are in charge of the 27 directorates: Bridges and Structures, the Centre for Advanced Maintenance Technology (CAMTECH), Carriage, Geotechnical Engineering, Testing, Track Design, Medical, EMU & Power Supply, Engine Development, Finance & Accounts, Telecommunication, Quality Assurance, Personnel, Works, Psycho-Technical, Research, Signal, Wagon Design, Electric Locomotive, Stores, Track Machines & Monitoring, Traction Installation, Energy Management, Traffic, Metallurgical & Chemical, Motive Power and Library & Publications. All the directorates except Defence Research are located in Lucknow.

Projects

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Trail run of world's first triple stack container train.[7]

Design and specification of 12,000 hp WAG-11 electric locomotive.[8]

Design and specification of Vande Bharat[9]

Design and development of dual purpose Double Decker Express for cargo as well as passenger.[10][11]

Design and specification of WDAP-5

Design and specification of Utkrisht Double Decker

Development of design & specification of WAG-12

Development of Double Decker Express

Design of WAGC3 locomotive

Development of a new crashworthy design of 4500 HP WDG4 locomotive incorporating new technology to improve dynamic braking and attain significant fuel savings.[citation needed]

Development of Drivers’ Vigilance Telemetric Control System which directly measures and analyses variations in biometric parameters to determine the state of alertness of the driver.

Development of Kavach.

Development of Computer Aided Drivers Aptitude test equipment for screening high-speed train drivers for Rajdhani/Shatabdi Express trains to evaluate their reaction time, form perception, vigilance and speed anticipation.

Assessment of residual fatigue life of critical railway components like rail, rail weld, wheels, cylinder head, OHE mast, catenary wire, contact wire, wagon components, low components, etc. to formulate remedial actions.

Modification of specification of Electric Lifting Barrier to improve its strength and reliability.[12]

Design and development of modern fault tolerant, fail-safe, maintainer friendly Electronic Interlocking system.

Development of 4500 HP Hotel Load Locomotive to provide clean and noise-free power supply to coaches from the locomotive to eliminate the existing generator car of Garib Rath express trains.

Field trials conducted for electric locomotive hauling Rajdhani/Shatabdi express trains with Head On Generation (HOG) system to provide clean and noise-free power supply to end on coaches.

Development of WiMAX technology to provide internet access to the passengers in running trains.

Design and Development of Ballastless Track with the indigenous fastening system (BLT-IFS).

Design and Development of Rail Free Fastening (RFF) for Girder Bridges.

Reduction in de-stressing temperature in LWR with the use of wider and heavier sleepers.

Carrying Long Welded Rails through Points and Crossings.

Laying of Long Welded Rails in Sharp curve of less than 440 m radius.

Design and development of 25T Axle load bogie for different wagons.

Major achievements

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  • Design and development of high toe load fastening system, ERC mark-V
  • Development of pre-stressed concrete sleeper and allied components along with Source development.
  • Development of newly designed Double Decker Coaches in Indian Railways.
  • Development of improved AT welding technology with the Single Shot crucible, auto-thimble and 3-piece mould.
  • Design and development of first Emission Test Car (ETC) to test diesel locomotive emissions[13]
  • Design and development of Wider and Heavier sleeper fit for 25 tonne axle load
  • Development of protocol for laying long welded rails through points and crossing using welded CMS frogs.
  • Development of Head on Generation(HOG), that taps overhead supply lines and distributes power to the train coaches, an alternative to End on Generation(EOG).

See also

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References

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  1. ^ a b Rao, M.A. (1988). Indian Railways, New Delhi: National Book Trust, pp.217–28
  2. ^ compiled and edited by Research, Reference and Training Division. (2007). India Yearbook 2007. Publications Division, Ministry of Information & Broadcasting, Government of India. p. 819. ISBN 978-81-230-1423-4. {{cite book}}: |author= has generic name (help)
  3. ^ Wadhwa, Gopal Krishan (September 2003). "An Overview of the R&D Center of Indian Railways" (PDF). Japan Railway & Transport Review. 36 (September): 26–28. Archived from the original (PDF) on 24 March 2018. Retrieved 29 June 2007.
  4. ^ "Salient Features of Indian Railways". Indian Railways. Archived from the original on 30 April 2007. Retrieved 12 May 2007.
  5. ^ "Microsoft Word - publication_section" (PDF). Retrieved 10 May 2020.
  6. ^ "Archived copy". Archived from the original on 28 October 2017. Retrieved 9 November 2017.{{cite web}}: CS1 maint: archived copy as title (link)
  7. ^ "RDSO triple stack container trials on WDFC_DFCCIL". YouTube. 10 March 2022.
  8. ^ "World's first 12,000 HP converted electric locomotive rolls out - ET EnergyWorld".
  9. ^ "Welcome to Rdso".
  10. ^ "In a First, RCF Kapurthala's Double-Decker Rail Coach with Passengers on Top and Cargo Below Coming Next Month". 30 July 2023.
  11. ^ https://www.tribuneindia.com/news/punjab/a-first-double-decker-coach-to-ferry-passengers-and-cargo-529895 [bare URL]
  12. ^ Singh, Amarpal. "Ludhiana: Railways goes for electric lifting barriers at level crossings". Hindustan Times.
  13. ^ "Indian Railways launches first mobile vehicle to test locomotive emissions". Railway Technology. 7 February 2012. Retrieved 10 May 2020.
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