Creating Hydrogen Generator Equipment, 
Technology and Seamless System Integrations
Advancing Smart Hydrogen System Integration
Clean energy systems engineered through intelligent integration of generation, storage, thermal management, and powertrains—transforming innovation into commercially deployable reality.
Delivering cost-efficient hydrogen mobility and industrial deployment through scalable chemical-based storage, pressure management, and by-product monetisation—reducing cryogenic dependence while unlocking operational savings and new revenue streams.
About Us
Pioneering sustainable hydrogen technologies for a cleaner, energy-resilient future.
Syron GreenThrust Dynamics Pvt. Ltd. is a research-driven clean-tech innovator, specializing in
hydrogen system integration, precision engineering, and advanced energy solutions. Our
expertise spans generation-to-use-case deployment including plasma-driven syngas reforming,
storage and carrier systems, pressure and thermal management, and intelligent powertrain
integration for critical mobility and industrial applications.
We focus strongly on collaborative R&D, working in-house and with leading institutes
including IITs and international partners, enabling scalable hydrogen mineralisation and
syngas-to-H2 technologies that reduce reliance on costly imported systems and accelerate the
energy transition across emerging markets.
Our solutions minimize carbon intensity, enable ESG-aligned operations, and replace
conventional cryogenic logistics with chemical-based alternatives—improving economics while
advancing sustainability.
What Drives Us
Why Us & Our Vision
At Syron GreenThrust Dynamics Pvt. Ltd., our vision is to redefine sustainable hydrogen
generation through collaborative innovation and responsible engineering. We combine
geological science, advanced chemistry, and system integration expertise to deliver safe,
efficient, and scalable hydrogen solutions.
GHG and ESG
protocols, along with CCU and CO₂ pressure management, form the foundation of our
clean energy strategy—each addressing critical aspects of emission control, carbon
capture, and utilisation. While GHG and ESG serve as guiding measurement
protocols, CCU (Carbon Capture and Utilisation) and CCS (Carbon Capture and
Storage) operate alongside hydrogen generation to minimise environmental impact and
strengthen long-term energy resilience.
By aligning natural mineralisation processes with innovative R&D, hydrogen production evolves
beyond traditional extraction or cryogenic dependence—achieving scalability, safety, and cost
efficiency through nature-supported pathways.
In collaboration with educational institutions, IITs, and international research partners, we
continue to advance the frontier of clean energy technology, transforming R&D outcomes into
deployable, market-ready systems.
Our Core Differentiators
Technology Readiness
Hydrogen Sourcing & Mapping.
Responsible Innovation
Products and Services
Equipment Manufacturing
Hydrogen generators (SMR) based on cutting-edge U.S. technology.
Feedstock
Sustainable CH4 (methane) feedstock resources and alternative non-fossil fuels,
tailored to the requirements of specific equipment and devices.
Gas Processing
Gasification and air processing systems.
System Design and Integration
Electrical engineering, HPMV electronic alignment, fuel cells, gas conversion
engines, simulators, and IT-enabled remote access support.
Mobility & Portability
Agile and robust bulletproof casings; tough terrain-capable, self-propelled special
vehicles; telescopic chassis; dollies; mountings; undercarriages; axles and shells;
advanced metallurgy and steel profiles.
Compliance
Region-specific product and safety norms, MSDS (Material Safety Data Sheets),
and global certifications.
Driving the Future: Hydrogen Generation and Integrated Energy Systems
The development of hydrogen generators and effective system integration plays a vital role in the expanding hydrogen energy sector. Hydrogen generators produce hydrogen using methods such as electrolysis or steam methane reforming (SMR), while system integration ensures smooth coordination between hydrogen production, storage, and application across various industries.
IT Data Centres
Driving Clean Energy Adoption, Seamless Integration, and Sustainable Efficiency Across Industry Sectors.
Charting a Sustainable Course: Hydrogen-Powered Marine Propulsion
Reducing fossil fuel dependence by unlocking the potential of hydrogen—advancing clean propulsion through innovative hydrogen solutions and electric drive systems.
Land lord ports dock side stand alone Green OPC solution
The green Onshore Power Supply (OPS) solution has been introduced specifically for landlords at the
dockside. Onshore power supply can significantly enhance local air quality and reduce noise pollution in
ports while also contributing to the fight against climate change. However, to date, the implementation
of OPS has mainly occurred in the maritime sector, catering to ships, refrigerated containers, tugs,
utilities, and electrified truck trailers. OPS is improving the availability of alternative green energy
through continuous stand-alone power generation.
Most conventional ports are not equipped to supply electricity to vessels from the shore, and similarly,
ships are usually not designed to receive power this way. Typically, the energy required for ships at
berth is generated by their auxiliary engines, which operate electric generators. These auxiliary engines
run on diesel or heavy oil, leading to the emission of toxic exhaust gases, as well as generating noise and
vibrations.
Cold Ironing
Cold Ironing is an eco-friendly method that enables ships to connect to shore power and
receive sustainable electricity while docked. This connection allows vessels to shut down
their diesel engines, significantly reducing carbon emissions and noise pollution during
port operations. Power for hotel and cargo systems is typically supplied from shore-based
grids, barges, or other shore-side systems when available.
However, shore power may sometimes be insufficient or costly—particularly during power
outages or adverse weather conditions. Ports face increasing social, regulatory, and
financial pressure to adopt more sustainable practices, leading them to seek adaptable and
scalable energy solutions.
Ongoing efforts aim to encourage ships to switch off their engines and reduce their carbon
footprint. Systems such as refrigerated containers are often powered by shore sources or
barges. Yet, reliable grid access at the pier is not always guaranteed, and energy costs can
escalate quickly during disruptions.
As global demand for sustainable operations grows, green port policies are actively
exploring flexible and scalable green energy strategies to meet these evolving
requirements.
Green Port Village, Concept Not Just Plug ‘N’ Sail
Generating on-port electricity can serve various purposes beyond cold ironing for docked
ships. It can also support port operations, Fuel Cell Electric Vehicles (FCEVs), Battery
Electric Vehicles (BEVs), boom carts, prime movers, and other port equipment.
Port-side solutions for green, stand-alone energy support for reefer containers can achieve low to net-zero emissions. Reefer containers contribute significantly to indirect greenhouse gas (GHG) emissions due to their electricity consumption; they are often connected to a power supply 24 hours a day, even while on land, or they are operated by diesel generators.
Implementing green gas generators and charging solutions at the dockside can significantly reduce CO2 emissions and lower overall ownership costs. These solutions also offer the flexibility to charge electric prime movers during off-road and on-road operations or parked.
E-charger stationery & mobile + Software support SAAS
Our comprehensive e-charger solutions include both stationary and mobile options, ensuring convenient electric vehicle charging infrastructure. Coupled with our Software as a Service (SAAS) support, we provide seamless management, monitoring, and optimization capabilities for your charging stations. Experience efficient and sustainable e-mobility solutions with our integrated offerings.
Our Contributions
Our onsite and onboard hydrogen generation system integrations effectively cover the entire supply chain of the sustainable gas industry. We are eager to help create a greener future!
