Sunil Kumar

CEO at Rheonics
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Contact Information
us****@****om
(386) 825-5501
Location
Sugar Land, US

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Credentials

  • Lean Six Sigma
    -
    Jan, 2011
    - Sep, 2024
  • PMP Project Management
    PMI
    Jan, 2011
    - Sep, 2024

Experience

  • Rheonics
    • Switzerland
    • Automation Machinery Manufacturing
    • 1 - 100 Employee
    • CEO
      • Jul 2013 - Present

      Rheonics builds industry's first online process density and viscosity monitoring instruments that are truly plug and play. 5 minutes from box to operation in your application - that is our goal, that is what we deliver. Build to be rock solid, Rheonics density meter and viscometers find application across multiple industries from oil & gas to food and chemicals. Converting liquid and gas processes to actionable data. Monitor. Optimize. Monetize with Rheonics hardware and software… Show more Rheonics builds industry's first online process density and viscosity monitoring instruments that are truly plug and play. 5 minutes from box to operation in your application - that is our goal, that is what we deliver. Build to be rock solid, Rheonics density meter and viscometers find application across multiple industries from oil & gas to food and chemicals. Converting liquid and gas processes to actionable data. Monitor. Optimize. Monetize with Rheonics hardware and software solutions for process automation and management. Show less Rheonics builds industry's first online process density and viscosity monitoring instruments that are truly plug and play. 5 minutes from box to operation in your application - that is our goal, that is what we deliver. Build to be rock solid, Rheonics density meter and viscometers find application across multiple industries from oil & gas to food and chemicals. Converting liquid and gas processes to actionable data. Monitor. Optimize. Monetize with Rheonics hardware and software… Show more Rheonics builds industry's first online process density and viscosity monitoring instruments that are truly plug and play. 5 minutes from box to operation in your application - that is our goal, that is what we deliver. Build to be rock solid, Rheonics density meter and viscometers find application across multiple industries from oil & gas to food and chemicals. Converting liquid and gas processes to actionable data. Monitor. Optimize. Monetize with Rheonics hardware and software solutions for process automation and management. Show less

  • Baker Hughes
    • Norway
    • Oil and Gas
    • 1 - 100 Employee
    • Global Engineering Manager
      • Mar 2012 - Jul 2013

      Leading global engineering for Drilling and Evaluation Product line, a 2.5B$ business segment Responsible for 18M$ spend influencing 120M$+ in development budget, Global engineering oversaw project with over 200 engineers & scientists in US, Germany, Israel, India & Mexico Built global engineering strategy and roadmap for D&E Technology organization Member of the workforce optimization core team for Baker Hughes – 60,000 people, 20B$ Revenue Assembled global delivery teams… Show more Leading global engineering for Drilling and Evaluation Product line, a 2.5B$ business segment Responsible for 18M$ spend influencing 120M$+ in development budget, Global engineering oversaw project with over 200 engineers & scientists in US, Germany, Israel, India & Mexico Built global engineering strategy and roadmap for D&E Technology organization Member of the workforce optimization core team for Baker Hughes – 60,000 people, 20B$ Revenue Assembled global delivery teams located worldwide, delivering global capability and capacity to product development teams

    • Manager, HT Sensors in Strategic Technology and Advanced Research
      • 2008 - Mar 2012

      Delivered multi-generational products (sensors, nanotech) Assembled global delivery teams located in Germany, Switzerland, USA, UK and India Collaborated with universities & institutions - MIT, ETH Zurich, Imperial College, FhG Built Harsh Environment Sensor lab at Baker Hughes’ Strategic Technology & Advanced Research Center to develop multi-application high-reliability sensor solutions for HPHT applications in O&G Upstream Multi-million$ R&D budget; Type I (early stage) and II… Show more Delivered multi-generational products (sensors, nanotech) Assembled global delivery teams located in Germany, Switzerland, USA, UK and India Collaborated with universities & institutions - MIT, ETH Zurich, Imperial College, FhG Built Harsh Environment Sensor lab at Baker Hughes’ Strategic Technology & Advanced Research Center to develop multi-application high-reliability sensor solutions for HPHT applications in O&G Upstream Multi-million$ R&D budget; Type I (early stage) and II (prototype & technology transfer) projects Assembled an expert team of sensor scientists to deliver a key fluidic sensors for new tool under development with ‘best-in-class’ performance Authored 29+ US & 23+ World patents pending; Invited talks at International events Leading a technology change revolutionizing the performance, reliability and cost – product + R&D Lean Six Sigma belt & PMI certified Project Management Professional Member of Nanotechnology committee and HT Electronics committee formed from company-wide subject matter experts.

  • Imperial College London
    • Research Services
    • 700 & Above Employee
    • Postdoctoral Scientist
      • 2006 - 2008

      Developed the first nano-g noise level MEMS seismometer as part of Professor Tom Pike's micro-seismometer group. The seismometer made it to Mars on the 2016 NASA Insight mission as SEIS-SP payload and provided the first "good" data on Mars geology. Team Scientist for ExoMars and team lead for project building extremely robust (15,000g survivable) microseismometer for UK MoonLITE mission. Developed micro-seismometer for deployment on Mars and Moon. Worked on inertial sensor… Show more Developed the first nano-g noise level MEMS seismometer as part of Professor Tom Pike's micro-seismometer group. The seismometer made it to Mars on the 2016 NASA Insight mission as SEIS-SP payload and provided the first "good" data on Mars geology. Team Scientist for ExoMars and team lead for project building extremely robust (15,000g survivable) microseismometer for UK MoonLITE mission. Developed micro-seismometer for deployment on Mars and Moon. Worked on inertial sensor technology and micro/nano-scale process design. Process engineered AFM (Atomic Force Microscopy) samples for NASA Phoenix mission to Mars. Show less Developed the first nano-g noise level MEMS seismometer as part of Professor Tom Pike's micro-seismometer group. The seismometer made it to Mars on the 2016 NASA Insight mission as SEIS-SP payload and provided the first "good" data on Mars geology. Team Scientist for ExoMars and team lead for project building extremely robust (15,000g survivable) microseismometer for UK MoonLITE mission. Developed micro-seismometer for deployment on Mars and Moon. Worked on inertial sensor… Show more Developed the first nano-g noise level MEMS seismometer as part of Professor Tom Pike's micro-seismometer group. The seismometer made it to Mars on the 2016 NASA Insight mission as SEIS-SP payload and provided the first "good" data on Mars geology. Team Scientist for ExoMars and team lead for project building extremely robust (15,000g survivable) microseismometer for UK MoonLITE mission. Developed micro-seismometer for deployment on Mars and Moon. Worked on inertial sensor technology and micro/nano-scale process design. Process engineered AFM (Atomic Force Microscopy) samples for NASA Phoenix mission to Mars. Show less

  • MuSquared, Inc
    • Civic and Social Organizations
    • co-Founder and Director of Product Development, Board Member
      • Apr 2001 - Mar 2003

      MuSquared developed optical networking components. I led the product development group with emphasis on design, fabrication and testing. Brought onboard venture capital investors and initiated collaborations with mid- and large scale companies. MuSquared developed optical networking components. I led the product development group with emphasis on design, fabrication and testing. Brought onboard venture capital investors and initiated collaborations with mid- and large scale companies.

  • Jasmine Networks, Inc
    • Senior MEMS Engineer
      • Oct 2000 - Apr 2001

      Jasmine Network developed networking systems. First hire by the MEMS group which built optical components like VoA (Variable optical attenuator), and Optical switches. Responsible for design and prototype development of optical components including overseeing the fabrication team at Stanford Nanofabrication Facility. Jasmine Network developed networking systems. First hire by the MEMS group which built optical components like VoA (Variable optical attenuator), and Optical switches. Responsible for design and prototype development of optical components including overseeing the fabrication team at Stanford Nanofabrication Facility.

  • University of California, Irvine, USA
    • Researcher
      • Oct 1999 - Sep 2000

      Simulated Mars landing using predictive-tracking guidance. X-33 hypersonic plane re-entry simulation (In collaboration with NASA/JPL). Simulated Mars landing using predictive-tracking guidance. X-33 hypersonic plane re-entry simulation (In collaboration with NASA/JPL).

  • i2 Technologies
    • Software Development
    • 100 - 200 Employee
    • Associate
      • Jun 1999 - Sep 1999

      Software design for brand management as part of a complete suite of supply chain management software provided by i2 Technology. Software design for brand management as part of a complete suite of supply chain management software provided by i2 Technology.

  • CSIR research lab CMERI and ADE (Aeronautical Development Establishment)
    • Summer Intern
      • 1993 - 1998

      Undertook simulation and engineering work on marine robot at CMERI (Central Mechanical and Engineering Research Institute) - a subsidiary of CSIR (Central Scientific and Industrial Research). Worked on the marine robot project in various capacities as team engineer, mechanical team lead for a period of 4 years spending 2-4 months every year. Developed towed body simulator for supersonic missile testing at ADE in 1998 which received a special mention and award from the Director. Undertook simulation and engineering work on marine robot at CMERI (Central Mechanical and Engineering Research Institute) - a subsidiary of CSIR (Central Scientific and Industrial Research). Worked on the marine robot project in various capacities as team engineer, mechanical team lead for a period of 4 years spending 2-4 months every year. Developed towed body simulator for supersonic missile testing at ADE in 1998 which received a special mention and award from the Director.

Education

  • Imperial College London
    PhD, Electrical Engineering (Specialization: MEMS, Nanotechnology)
    2003 - 2006
  • UC Irvine
    M.S, Mechanical Engineering (Specialization: Control Systems)
    1999 - 2000
  • Indian Institute of Technology, Kharagpur
    B. Tech (Honors), Aerospace Engineering
    1995 - 1999

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