पेंशनर्स कॉर्नर
स्क्रीन रीडर एक्सेस
मुख्य सामग्री पर जाएं
Earth Science - Marine Geophysics
Raman Research Fellowship
Application form for FY 2025-2026
-
Name
DrSriramGullapalli
- Designation Senior Scientist
- Lab / Instt CSIR-National Institute of Oceanography(CSIR-NIO), Goa
- Area of research Earth Science - Marine Geophysics
- Date of Birth 29-09-1983
-
Age not exceeding 45 yrs. as on Jan 30, 2025
Year41Month4
-
Date Of Joining CSIR With Designation
Date of Joining CSIR2016-09-07Designation (At the time of joining CSIR)Scientist
-
Qualification
DegreePh.D.Board / UniversityAndhraUniversity, Andhra PradeshDivision-SubjectGeophysicsYear2015
- Whether belonging to SC/ST/OBC Others
- Knowledge Of Foreign Languages
,Language-Select LanguageCan SpeakLanguage-Select LanguageCan Speak
- Experience
,Position HeldScientist-BDurationFrom2013-04-09To2016-09-06Nature of WorkLead investigator in Deep Crustal
Studies in National Centre for
Antarctic and Ocean Research, in
National Centre for Antarctic and
Ocean Research. Coordinating and
playing active roles in different
Geophysical projects like the
Integrated Ocean Drilling Project
(IODP), Legal Continental Shelf
(LCS), and Indian Ocean Geoid Low
(IOGL) in the National Centre for
Antarctic and Ocean Research,Position HeldScientistDurationFrom2016-09-07To2021-09-06Nature of WorkThe nature of work involves research
and development on gas hydrates,
and cold seep explorationPosition HeldSenior ScientistDurationFrom2021-09-07To2024-07-31Nature of WorkThe nature of work involves research
and development on gas hydrates,
cold seep exploration, marine
geohazards, submarine volcanic
systems, and fluid migration. It also
includes river mapping,
environmental impact assessments
(EIA) studies for sand mining
activities, and providing industry
consultancy for shallow geophysical
surveys related to offshore pipeline
installations, port development, and
platform layouts for the oil and gas
industry. - Number Of Publications
International18NationalNOEnclose listFile2. APPENDIX I List of Publications_2.pdf (152.7 किलोबाइट)
-
Number Of Patents
NationalNOInternationalNO
-
Number Of Books
NationalNOInternationalNO
-
Awards & Recognition
National1. Gold Medal for Department Topper, Andhra University
2. Inspire Fellow, Department of Science & Technology (DST), India.
3. Best Ph.D. Thesis for 2015 – 2016 in Geophysics from Association of
Exploration Geophysicists and ONGC, India
4. Young Scientist award in Earth Science for 2015 – 2016 from Andhra
Pradesh Akademi of Sciences, Andhra Pradesh
5. SERB - Early Career Research Award - 2019InternationalNo -
Research, Development And Innovation Output Of The Candidate. A) Details Of Technologies And Products / Services
Developed-Licensed-Commercialized-New entrepreneurs developed-Rol-Rol-Rol-Rol-
-
License Fee Received And Royalty Received
License fee received-Royalty received-Rol-Rol-
-
Skill Development
,Select Year2019 - 2020Area CoveredMarine Geophysical Surveys and instrumentation handlingNo. of people20Rol-Rol-,Select Year2020 - 2021Area CoveredMarine Geophysical Surveys and instrumentation handlingNo. of people20Rol-Rol-,Select Year2021 - 2022Area CoveredMarine Geophysical Surveys and instrumentation handlingNo. of people20Rol-Rol-,Select Year2022 - 2023Area CoveredMarine Geophysical Surveys and instrumentation handlingNo. of people20Rol-Rol-Select Year2023 - 2024Area CoveredMarine Geophysical Surveys and instrumentation handlingNo. of people20Rol-Rol-
-
Socio-Economic Interventions
No. of technologies deployed-Extension activities-Rol-Rol-
-
Major achievements/contribution of international level in the proposed area of research
1. Proposed Seismic anisotropy analysis in a fracture-gas hydrate system using Seismic amplitude variation with offset/angle in the Krishna-Godavari Basin.
2. Developed a modified Effective Medium Model in the first principle Rock physics approach to estimate gas hydrate saturation from both P and S-wave velocities in clay dominated sediments.
3. Investigated active fluid/gas migration in fracture-filled gas hydrate systems, confirming the co-existence of gas hydrate and free gas within the Gas Hydrate stability zone.
4. Discovered the first Active Cold Seep System in the Indian Offshore region.
5. Discovered active submarine slumping/sliding in Krishna-Godavari Basin.
6. Discovered active gas venting (CO2) and established a Hydrothermal system on the Submarine Volcano (Crater Seamount) within the Andaman-Nicobar volcanic arc.
7. Uncovered active fluid/gas migration in the forearc basin of the Andaman-Nicobar Subduction zone.
8. Mapped active fluid/gas migration zones across the Andaman-Nicobar subduction trench and accretion prism, delineating potential zones of mineralization for the first time.
Enclose file, if any -
Name of the host Professor/Guide and full address of the Foreign Instt/Univ/R&D lab
Priyank Jaiswal Professor, Boone Pickens School of Geology Director, Professional Science Masters in Geoscience Oklahoma State University ∙ OK 74078 priyank.jaiswal@okstate.edu
Acceptance letter of host institute Host Acceptance Letter 2024_0.pdf (404.46 किलोबाइट) -
Research accomplishments of the host
Priyank Jaiswal, currently a professor and director of
the Professional Science Masters in Geoscience at
Oklahoma State University, holds a BS in Earth
Science from the Indian Institute of Technology and
an MA and PhD in Geophysics from Rice
University. He began his career as a geophysicist at
Total E&P USA Inc., focusing on tight-gas assets in
South Texas and the Gulf of Mexico. His research
journey includes significant roles at Rice University,5
where he studied gas hydrates in the Gulf of Mexico,
and internships at Occidental Oil Inc. and
Schlumberger. Joining Oklahoma State University in
2009, he has progressed to full professor as of 2021,
contributing to geophysics education, student
mentorship, and the establishment of a
computational seismology lab. His extensive
research portfolio encompasses gas hydrate
quantification, seismology, inverse theory,
petroleum systems, and coastal hazard mapping in
India. Jaiswal holds patents in sediment disruption
prevention (2023), structural fatigue monitoring
(2023), seismic source signature reconstruction
(2020), fracture density mapping (2019), and
concurrent velocity model and depth image
generation (2014). He has authored 37 peerreviewed papers and is recognized for advancing
seismic waveform inversion techniques to image
complex geological structures and solve diverse
geophysical challenges. -
Major research facilities at the host laboratory/institute
Geology
The Boone Pickens School of Geology is well-equipped and houses facilities that support the research and teaching programs within the School and provide analytical services to other departments within OSU, other universities, and government and non-government entities.
STRUCTURAL GEOLOGY AND TECTONICS LABORATORY
The School has state-of-the-art equipment to support structural geology and tectonic analyses, and for conducting GPS surveys, processing, rock deformation analysis, and geologic mapping. In addition, a variety of equipment is available.
• Three computers with ArcGIS, MOVE, Rockware, and drawing software installed.
• Eight Trimble NetRS receivers with Zephyr antennas, batteries, solar panels, hardware, and mounting equipment.
• Two computers will be additionally equipped with GAMMIT-GLOBK and GIPSY-OASIS for processing of GPS data.
• A color printer and large format scanner.
• The laboratory also contains an AutoLab 550-D, a manually controlled rock deformation system.
• Hand-held Stihl diamond bit drill for obtaining core samples. The drill is equipped with water bottle, orienting device, and case.
• Nikon Eclipse E600 petrographic microscope with Nikon camera.
• Two Brunton compasses, two handheld GPS units, rock hammers, and sample bags for field campaigns.
GEOPHYSICS LABORATORIES
The School has state-of-the-art equipment for conducting geophysical surveys related to subsurface contamination, microbial processes at contaminated sites, shallow subsurface lithological studies, and petroleum research. In addition, a variety of geophysical equipment is available for conducting research in neotectonics.
Field Equipment
• Electrical Resistivity
o - AGI SuperSting R8-56 electrode resistivity/IP system
o IRIS Syscal Pro 72 electrode resistivity/IP system
o Geometrics OhmMapper
• Ground Penetrating Radar
o Pulse Ekko ground penetrating radar unit with several antennas 100 – 450 MHz
o Geophysical Surveys Systems Inc. SIR 3000 ground penetrating radar unit with several antennas 200-400 MHz
• Electromagnetics
o Geonics EM34-3
o Geonics EM31-MK2 Ground Conductivity incl. RT modification, DL600 datalogger including DAS70-CX Data Acquisition System (Allegro CX field computer with
o 2x input connections, incl. battery charger and cables)
o Geometrics STRATAGEM EH4 Hybrid-Source Magnetotellurics. Frequency range of 10 Hz to 90k Hz
• Spontaneous potential (SP)
o Pb-PbCl2 electrodes and voltmeters
• Seismic
o Betsy Gun explosive source
o Kubota mounted compressed-nitrogen fired accelerated weight drop (courtesy, United Service Alliance Inc.)
o 2, 24-channel Geometrics Geode Ultra-Light Exploration Seismograph
o 48, 14 Hz vertical geophones
o 60, 60Hz vertical geophones
o 48, 28Hz horizontal geophones
• Magnetics
o Geometrics G858 Cesium vapor magnetometer
o Geometrics G856 Proton precession magnetometer
• Gravity
o Scintrex CG5 gravimeter
• Global Positioning System
o 2 Topcon GPS units with RTK capabilities.
Biogeophysics Research Laboratory
The Biogeophysics laboratory is housed in the Henry Belmon Research Center (room 010S), a state-of-the-art interdisciplinary science center.
o 3 National Instrument dynamic signal analyzers for conducting laboratory spectral induced polarization (SIP) measurements
o Keithly meters for voltage and resistance automatic data recording
o High impedance voltmeter for Self-Potential recording
o Barrington MS2 for magnetic susceptibility meter
o Laboratory seismic measuring equipment
o Biosafety cabinet
o Sonication bath with temperature control
o 7.5L New Brunswick BIOFLO 110 bench-top fermenter (bioreactor)
o UV scanning spectrophotometer
o Microelectrodes including pH meters, conductivity meter, redox probes, etc.
o large capacity gravity oven
o 2 orbital incubators
o VWR AS 12 Bench Autoclave
o Beckman Centrifuge
o Isotemp plus laboratory refrigerators
o Sample storage freezer
o 855-ACB Control Atmosphere Chamber (Anaerobic glove box)
COMPUTATION FACILITY
The School has a computational laboratory for processing seismic data for petroleum and crustal research.
Hardware
• HP ProLiant DL580 G5 Server
• IBM xSeries scalable 3950 Cluster Server
• Dual-monitor HP Z400 Workstations.
• Thermal plotter
Industry Standard Software
• Red Hat Enterprise Linux 5.4 as operating system.
• Industry-standard Software
o Landmark processing package: A set of tools direct well-to-seismic correlations, create simple velocity models, or determine accurate time/depth relationships for advanced AVO or inversion workflows, including SeisSpace®/ProMAX®, PowerView, PostStack, Rave, Sigmaview, and Syntool.
o Hampson-Russell: A set of tools for lithology/fluid estimation in reservoirs, including AVO (Amplitude Analysis and Modeling), AFI (Fluid Inversion), ISMAP (Statisticak Mapping), STRATA (Pre- and Post-Stack inversion).
o Schlumberger Petrel: A set of E&P Integrated reservoir management suite
o Roxar RMS: A set of E&P Integrated reservoir management suite
o Surfseis: A set tools for ground roll inversion
o Seismic Micro-Technology Inc. KINGDOM Suite seismic interpretation suite
Research Codes
• Full-Waveform Inversion: Frequency domain visco-acoustic (courtesy: Gerhard Pratt)
• Seismic Unix: seismic processing and modeling (Colorado School of Mines)
• Madagascar: seismic processing and modeling (UT Austin)
• FAST: traveltime tomography (Rice University)
• RAYINVR: velocity model building (Rice University)
-
Prior linkage/cooperation with the host
I have closely followed Professor Priyank Jaiswal's
pioneering research on Seismic Waveform Inversion
in the Upper Assam Petroleum Systems and Gas
Hydrates in the Krishna-Godavari Basin since his
2008 visit to India as a visiting scientist. His
expertise in gas hydrate quantification, seismology,
inverse theory, petroleum systems, coastal hazard
mapping, and Waveform Inversion profoundly
inspires my proposed research. Professor Jaiswal's
work provides a solid foundation for advancing my
understanding of pore pressure estimation and its
link to geohazards, guiding more accurate seismic
data interpretations in marine environments. -
Reason for selecting the proposed host
I have selected Professor Priyank Jaiswal from
Oklahoma State University as my mentor and source
of inspiration due to his extensive 25-year research
career in Geophysics, with a specialization in
Seismic Waveform Inversion for characterizing
petroleum and gas hydrate reservoirs. His expertise
includes gas hydrate quantification, seismology,
inverse theory, petroleum systems, coastal hazard
mapping, and Waveform Inversion. Notably, he has
secured significant extramural funding, serving as
Principal Investigator for projects totaling $5 million
and as Co-Principal Investigator for projects totaling
$1.5 million. His research closely aligns with the
objectives of my proposed study. Professor Jaiswal's
pioneering contributions in these fields provide a
robust foundation and profound inspiration for
advancing my understanding of pore pressure
estimation and its implications for geohazards. - Title of the research proposal to be carried out abroad Advanced Seismic Characterization of the Andaman Subduction Dynamics for Geohazards Prediction
-
Detailed description of the research work to be carried out abroad
Attached the Complete Research proposal of the work to be carried out with the Host and University
Enclose separate sheet File6. APPENDIX V RESEARCH PROPOSAL 2024-2025_Revised_0.pdf (196.25 किलोबाइट) -
Please give one page write-up on the novelty of the research topic
Novelty of the Research Topic: Advanced Seismic Characterization of the
Andaman Subduction Dynamics for Geohazards Prediction
The proposed research on "Advanced Seismic Characterization of the Andaman Subduction Dynamics for
Geohazards Prediction" offers several innovative contributions to our understanding of subduction zone
dynamics and seismic hazards:
Advanced Seismic Techniques
1. Full Waveform Inversion (FWI): FWI provides exceptionally high-resolution subsurface
images by iteratively refining velocity models to match observed seismic waveforms, allowing
detailed mapping of complex geological features like décollements and fault planes.
2. Machine Learning Integration: Combining machine learning algorithms with FWI for
estimating overpressure zones enhances seismic data analysis by identifying patterns and
correlations within large datasets, improving predictions of fluid-rich layers and their impact on
seismic behavior.
Focus on Fluid Dynamics
3. Fluid Migration Characterization: Emphasizing fluid migration, a critical yet often
underexplored aspect of seismic studies, this research aims to understand how fluids influence
geological processes, earthquake mechanics, and tsunami generation.
4. Shear Strength Variations: Using FWI-derived velocity models to assess shear strength
variations provides insights into the mechanical properties of the subducting plate, crucial for
evaluating seismic activity potential and earthquake rupture dynamics.
Regional Focus and Relevance
5. Andaman-Nicobar Subduction Zone: Focusing on the Andaman-Nicobar subduction zone
addresses a significant research gap. This region's detailed study will enhance seismic hazard
assessments and disaster preparedness in the Indian Ocean area.
Integration and Validation
6. Comprehensive Validation: Emphasizing the validation of seismic data interpretations with
local geological data and rigorous cross-validation techniques ensures reliable and accurate
results, enhancing the robustness of geological models.
Commercial and Strategic Implications
7. Commercial Benefits: The application of FWI in resource exploration, geotechnical engineering,
and environmental monitoring improves subsurface imaging accuracy, optimizing exploration
strategies, enhancing infrastructure safety, and supporting sustainable resource management.
8. Strategic Alignment with CSIR-NIO: The research aligns with CSIR-National Institute of
Oceanography's strategic goals, enhancing capabilities in high-resolution subsurface imaging and
contributing to initiatives in marine geophysics, tectonics, and natural hazard assessment.
Conclusion
This research represents a significant advancement in seismic characterization, focusing on fluid
dynamics and shear strength variations in subduction zones. The innovative use of FWI and machine
learning, combined with a comprehensive validation approach and regional focus, promises valuable
insights into seismic hazards and more effective risk mitigation strategies. -
Linkage of the proposed work with priority Themes/Projects/Programmes of CSIR
This proposal aligns closely with several priority themes and ongoing projects at CSIRNational Institute of Oceanography (NIO). The study of fluid dynamics and seismic
properties in the Andaman-Nicobar Subduction Zone directly supports NIO's efforts in
understanding geological processes and seismic hazards in marine environments. By
leveraging advanced seismic techniques like Full Waveform Inversion (FWI), the research
aims to enhance the institute's capabilities in high-resolution imaging of subsurface
structures and fluid migration pathways. This alignment underscores the project's
contribution to NIO's broader initiatives in marine geophysics, tectonics, and natural hazard
assessment, reinforcing its strategic goals in oceanographic research and resource
management. - Does the proposed research work involve IPR issues. If yes, has the host institute agreed to share the same with CSIR? No
-
Could the proposed work be carried out within India at CSIR/non CSIR S&T institutions?
The proposed foreign institution, Oklahoma State University under the mentorship of Professor Priyank Jaiswal, offers specialized expertise in Seismic Waveform Inversion
applied to petroleum systems and geohazards, advanced computational resources, access to relevant datasets such as those from the Gulf of Mexico, collaborative opportunities
with international researchers, and advanced training in cutting-edge geophysical techniques. These advantages justify selecting a foreign institution for the research,
providing unparalleled opportunities for skill development, capacity building, and impactful research outcomes, which are not readily available within India or other non CSIR S&T institutions. The proposed inversion technique is the patent of the Prof. Priyank Jaiwal which is not freely available. - Please enclose separate sheet, if necessary
- Minimum period required for conducting proposed research. (2-6 months) 4
-
Relevance of proposed research with the activities/programmes of Lab/CSIR
The proposed research focusing on assessing marine
geohazards using Seismic Full Waveform Inversion
(FWI) is closely aligned with the strategic initiatives
of CSIR-National Institute of Oceanography (NIO).
CSIR-NIO's Geological Oceanography Division is
known for its leadership in cutting-edge marine
geoscience research and utilizes advanced
geophysical equipment to address challenges relevant
to the industry. By applying FWI to analyze
subsurface structures and fluid dynamics in the
Andaman-Nicobar subduction zone, this research
directly tackles critical issues in seismic hazard
assessment and geological modeling. Its innovative7
approach resonates with CSIR-NIO's commitment to
advancing oceanographic research, promising
significant contributions to understanding earthquake
dynamics, enhancing disaster preparedness, and
supporting sustainable coastal development and
marine resource management efforts across the
broader Indian Ocean region. -
Nature of expected output from the proposed study and its likely uses
The proposed study aims to generate high-resolution
subsurface velocity models and detailed
characterizations of fluid migration patterns within
the Andaman-Nicobar subduction zone using Seismic
Full Waveform Inversion (FWI). The expected
outputs include comprehensive images of subsurface
structures and fluid-rich zones, identification of
overpressure zones, and assessments of shear strength
variations. These findings will enhance seismic
hazard assessments, disaster preparedness, and
sustainable coastal development planning.
Additionally, the validated geological models and
comprehensive reports produced will support marine
resource management and contribute to the
advancement of oceanographic research. By
addressing critical issues in seismic hazard
assessment and geological modeling, the study aligns
with CSIR-NIO's strategic initiatives and underscores
its commitment to pioneering research and
technological innovation in marine geoscience. -
What benefits will accrue to CSIR by conducting this research work
My research tenure at Oklahoma State University
presents an exceptional opportunity to deepen my
expertise in marine geosciences and geohazard
assessment. Utilizing innovative Seismic Full
Waveform Inversion (FWI), this study promises to
significantly enhance our institute's scientific
knowledge and technological capabilities. It will also
strengthen collaborations with industry and
government partners, attract funding, and support
sustainable coastal development and disaster
preparedness initiatives. These outcomes are crucial
for advancing CSIR's strategic goals and societal
impact. My research background will further drive
progress in geohazard studies, fostering collaborative
scientific initiatives that connect geohazard research
across various CSIR and non-CSIR laboratories and
national institutes. -
Commercialisation prospects of the proposed research work
Seismic Full Waveform Inversion (FWI) offers
substantial commercial benefits across multiple
sectors. In resource exploration, FWI enhances the
accuracy of subsurface imaging, crucial for locating
hydrocarbon reservoirs and mineral deposits, thereby
reducing exploration risks and optimizing extraction
strategies. It also supports geotechnical engineering
by providing detailed subsurface assessments for
construction projects, ensuring infrastructure safety,
and minimizing geological hazards. FWI's
applications extend to environmental monitoring,8
aiding in groundwater assessment, pollution
detection, and geological hazard prediction. For
industries involved in seismic hazard assessment and
insurance, FWI provides critical insights into
earthquake risks, helping to assess vulnerabilities and
mitigate potential impacts on urban areas and
infrastructure. Furthermore, ongoing advancements in
FWI technology drive innovation in geophysical
software and consultancy services, offering
specialized expertise in geological modeling and
seismic interpretation. Overall, FWI's adoption
enhances capabilities across various domains,
fostering technological innovation and strategic
opportunities in commercial markets -
Previous visits abroad during last 3 years
No international trips were conducted within the past
three years - Any other relevant information you may feel necessary to give NO
-
signature
Final_Sriram_Raman_Research_Fellowship2024_2025_Application_Signed_revised_0.pdf
(3.84 मेगा बाइट)
- Recommendations Of The Director Of The Lab/Instt
-
a) Comments of the Director on the information given above by the applicant.
Dr. Sriram Gullapalli, Senior Scientist at
CSIR-National Institute of Oceanography,
Goa submit an application for Raman
Research Fellowship for the year 2024-2025
to pursue his short-term (4 months) research
on Geohazards at Oklahoma State
University, USA. The information provided
in the application is correct -
b) Remark of the Director on the potential and credentials of the applicant
Dr. Sriram Gullapalli has made substantial
contributions to Marine Exploration
Geophysics, particularly in the exploration
of gas hydrates, cold seeps, active
submarine volcanoes, and mapping
geohazards in Indian continental margins
and the Andaman-Nicobar regions. His
work in industry-related scientific endeavors
has been exceptional.
The proposed research under the framework
of the “Raman Research Fellowship 2024-
2025” at Oklahoma State University, USA,
offers Dr. Sriram Gullapalli an invaluable
opportunity to explore new techniques in
exploration geophysics, acquire knowledge,
skills, and innovative ideas crucial for his
future in marine geophysics at CSIR-NIO.
Dr. Sriram Gullapalli has published 18
research papers in peer-reviewed
international journals, which are highly
cited. Given his significant contributions to
the field of exploration-geophysics,
particularly in the marine domain, I strongly
endorse Dr. Sriram Gullapalli's application
for the “Raman Research Fellowship 2024-
2025”. -
c) Field of proposed study and its relation to the Lab's Priorities, particularly with regards to the Priority Themes/Projects/Prog
Dr. Sriram Gullapalli aims to conduct shortterm research focused on Geohazards
assessment and its applications in Marine
Geohazards and other exploratory aspects of
marine geophysics. His proposed research
aligns seamlessly with the ongoing projects
on Geodynamics, Hydrothermal systems,
Gas hydrate, and Cold seep exploration at
CSIR – NIO, Goa -
d) Remarks on chosen place of work, special features of the concerned Lab
The Geoscience research group at
Oklahoma State University, USA, led by
Prof. Priyank Jaiswal, is actively engaged in
advanced research on seismology, gas
hydrates, waveform inversion, geohazards,
and CO2 sequestration. Prof. Jaiswal brings
25 years of expertise in these areas. The
host laboratory is equipped with state-ofthe-art geophysical instrumentation,10
advanced modeling tools, and laboratory
experimental setups. The experience and
knowledge that Dr. Sriram Gullapalli will
gain in the emerging field of geohazard
assessment will significantly enhance his
scientific skills and capabilities. -
e) Scientific and economic implication of the proposed work during the Fellowship (both on Indian as well as global)
The proposed study aims to generate highresolution subsurface velocity models and
detailed fluid migration characterizations
within the Andaman-Nicobar subduction
zone using Seismic Full Waveform
Inversion (FWI). Expected outputs include
detailed images of subsurface structures,
fluid-rich zones, identification of
overpressure areas, and assessments of shear
strength variations. These results will
enhance seismic hazard assessments,
disaster preparedness, and sustainable
coastal development planning. The study
will also produce validated geological
models and comprehensive reports to
support marine resource management and
advance oceanographic research. By
addressing critical issues in seismic hazard
assessment and geological modeling, the
study aligns with CSIR-NIO's strategic
initiatives and commitment to pioneering
marine geoscience research and
technological innovation. -
f) Commercialisation prospect and likely users of the proposed research in the industrial sectors
The proposed research has significant
commercialization prospects for the oil and
gas industry, offshore engineering, and
coastal infrastructure development. High resolution subsurface models will optimize
exploration, production, and hazard
mitigation. Environmental consulting firms
and government agencies will benefit from
improved disaster preparedness and
sustainable resource management,
advancing industry capabilities for safer,
more efficient operations.
Potential Users:
Directorate General of Hydrocarbons, India
Oil and Natural Gas Corporation, India
National Institute of Wind Energy, Ministry
of Renewable Energy, Govt. of India
Ministry of Petroleum and Natural Gas
(MoPNG), Govt. of India
Geological Survey of India (GSI), Ministry
of Mines -
g) List of scientific peers, who can appreciate and comment on the scientific approach and overall utlity of the proposed work
Dr. Satish Kumar Sinha
Professor Geophysics
Rajiv Gandhi Institute of Petroleum
Technology Jais, Amethi
Email: ssinha@rgipt.ac.in
Phone: +91 535 2704546
Mobile: +91 9453045135
Dr. Dibakar Ghosal,
Assistant Professor,
Indian Institute of Technology, Kanpur
Email: dghosal@iitk.ac.in
Phone: +91 5212 6796909
Mobile: +91 9129824134
Dr. Bharath Shekar
Associate Professor
Indian Institute of Technology, Bombay
Email: bshekar@iitb.ac.in
Phone: +91 22 25767296
Mobile: +91 9920091979 - Recommendations of the Director of the Lab/Instt Director Recommendations_1.pdf (756.91 किलोबाइट)
- Summary Sheet of the RRF Applicant fill Annexure III of the RRF Guidelines Summary Sheet of RRF2027-2025 Sriram Gullapalli NIO_0.pdf (505.82 किलोबाइट)
