Our Services

Delivering Reliable, Scalable, and Sustainable Hydrogen Solutions

Green Hydrogen Services

Sustainable Energy for Industries, Mobility, and Beyond.

Grey Hydrogen Services

Reliable and Affordable Hydrogen for Today’s Industries.

Protecting Investments, Powering Continuity

Operation and maintainance

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Scope of Work (SoW) for Owner’s-Engineer for a 100 MW Green-H₂ Electrolyser Plant:

Our Disciplines

Innovating Across Every Discipline for a Sustainable Future.

At our core, we combine expertise across multiple engineering disciplines to deliver comprehensive renewable energy and green hydrogen solutions. Our electrical team designs and integrates solar PV systems and power management networks, while mechanical engineers focus on compressors, storage, and hydrogen handling systems. Civil and structural experts ensure robust foundations, buildings, and solar farm layouts, and chemical/process engineers optimize water treatment, electrolysis, and hydrogen purification processes. Our instrumentation and control specialists implement SCADA, sensors, and monitoring systems for safe, efficient operation, while dedicated safety and environmental teams maintain compliance with international standards. Together, these disciplines enable reliable, sustainable, and high-performance hydrogen and renewable energy solutions for industrial and mobility applications.

The Electrical Team is a cornerstone of our green hydrogen and renewable energy operations, responsible for designing, implementing, and maintaining all electrical systems that enable safe, efficient, and reliable energy generation and utilization. Their expertise spans solar photovoltaic (PV) systems, including module selection, array design, inverter sizing, and grid integration, ensuring maximum energy capture and optimal performance. The team also handles power distribution networks, switchgear design, protection systems, and cabling infrastructure to deliver stable and uninterrupted power to electrolysers, compressors, and ancillary equipment.

In addition to generation and distribution, the Electrical Team focuses on power management and control systems, integrating smart energy management, monitoring, and SCADA platforms that optimize energy flow between solar arrays, electrolysers, storage systems, and grid connections. They ensure electrical safety compliance with international standards, including IEC, IEEE, and local regulations, implementing protective relays, grounding, and fault management systems to safeguard personnel and equipment.

The team is also responsible for operation and maintenance (O&M) of electrical assets, performing regular inspections, preventive maintenance, and troubleshooting to minimize downtime and maximize system efficiency. Their holistic approach combines electrical design, control integration, and performance optimization, enabling seamless, safe, and high-efficiency operation of renewable energy systems and green hydrogen production infrastructure. Through their expertise, industries can achieve reliable, sustainable, and resilient energy solutions.

Electrical Team

Mechanical Engineers

The Mechanical Engineering Team plays a pivotal role in the design, development, and maintenance of systems that enable safe and efficient green hydrogen production, storage, and utilization. Their expertise lies in handling critical mechanical components such as compressors, pipelines, storage vessels, and heat exchangers, which form the backbone of hydrogen infrastructure. They ensure that high-pressure compressors are designed and maintained to deliver hydrogen at required pressures for storage or end-use applications, while minimizing energy losses and ensuring mechanical reliability.

Mechanical engineers also oversee the design and fabrication of hydrogen storage systems, including high-pressure cylinders, composite tanks, and tube trailers, focusing on durability, safety, and compliance with international standards such as ASME and ISO. They are deeply involved in piping and layout engineering, ensuring hydrogen flow systems are optimized for efficiency, leak-proof operation, and safe handling across facilities. Additionally, they manage thermal management systems, such as cooling units for electrolysers and compressors, to maintain stable operating conditions and maximize equipment life.

On the operations side, the team implements preventive and predictive maintenance practices by inspecting seals, bearings, and rotating machinery, while leveraging advanced diagnostic tools for vibration and thermal analysis. By combining design innovation with robust maintenance strategies, the Mechanical Engineering team ensures that hydrogen infrastructure operates with maximum efficiency, safety, and reliability, forming a vital discipline in advancing renewable energy solutions.

Civil And Structural Experts

The Civil & Structural Engineering Team provides the foundation—both literally and strategically—for safe, efficient, and long-lasting renewable energy and green hydrogen infrastructure. Their expertise covers site assessment, land development, geotechnical analysis, and structural design, ensuring that every project is built on a solid base and can withstand operational, environmental, and safety requirements. From solar farms to hydrogen production plants, they design and supervise the construction of foundations, support structures, storage facilities, and plant layouts with a focus on stability, accessibility, and compliance with international building codes.

A key responsibility of the team is designing structural supports and enclosures for solar PV modules, electrolysers, compressors, pipelines, and high-pressure storage systems, balancing cost-effectiveness with durability and resilience. They account for environmental factors such as wind loads, seismic activity, temperature variations, and soil conditions to ensure infrastructure reliability under diverse operating environments. The team also ensures that drainage, access roads, and utility corridors are designed to support smooth operation and maintenance activities while minimizing environmental disruption.

Beyond design and construction, civil and structural engineers oversee inspection, rehabilitation, and lifecycle management of infrastructure, ensuring that plants operate safely and sustainably over decades. By combining technical precision with environmental stewardship, the Civil & Structural Engineering team provides the backbone that supports the success of large-scale solar-powered green hydrogen projects.

Chemical / Process Engineers

The Chemical & Process Engineering Team is central to optimizing the core processes of green hydrogen production, purification, and utilization. Their expertise lies in designing and managing the electrolysis process, ensuring high hydrogen yield, purity, and efficiency while minimizing operational costs. They handle water treatment systems, including reverse osmosis, deionization, and filtration units, to ensure the feedwater supplied to electrolysers meets the stringent quality standards required for long-term membrane and catalyst performance. By monitoring parameters such as pH, conductivity, and dissolved impurities, they safeguard the electrolysis process against scaling, fouling, and efficiency loss.

In addition to production, chemical engineers oversee gas purification and conditioning systems, ensuring hydrogen meets industrial-grade or fuel-cell-grade purity standards. They integrate processes such as drying, compression, and contaminant removal to deliver hydrogen that complies with ISO and industry-specific specifications. Their role extends to process simulation and optimization, where they model system behavior to enhance energy efficiency, reduce losses, and ensure safe, scalable operations.

Safety is a critical responsibility, and the team ensures compliance with chemical handling standards, hazardous material management, and environmental regulations. By combining process innovation with operational discipline, the Chemical & Process Engineering team ensures that every molecule of hydrogen produced is pure, efficient, and sustainable, forming the chemical backbone of renewable energy transformation.

a factory filled with lots of metal tanks

Instrumentation and Control Specialists

The Instrumentation & Control (I&C) Specialists play a vital role in ensuring precision, automation, and safety across green hydrogen and solar energy systems. They are responsible for designing, installing, and maintaining the sensors, transmitters, controllers, and monitoring devices that regulate critical process parameters such as pressure, temperature, flow, hydrogen purity, and electrical load. By integrating advanced control technologies, they enable stable operation of electrolysers, compressors, storage vessels, and distribution systems, even under fluctuating renewable energy inputs.

A key focus of the I&C team is implementing SCADA (Supervisory Control and Data Acquisition) and PLC (Programmable Logic Controller) systems. These platforms provide real-time monitoring, fault detection, and predictive analytics, allowing operators to optimize performance, reduce downtime, and improve system safety. The specialists also ensure seamless automation of energy management, enabling smooth coordination between solar PV systems, hydrogen production, and storage facilities.

Safety and reliability are at the core of their work. I&C specialists calibrate and maintain hydrogen leak detectors, pressure relief controls, interlocks, and emergency shutdown systems to meet international safety standards. Their expertise ensures compliance with IEC, ISA, and ISO guidelines while maintaining operational efficiency. By combining precision instrumentation with intelligent automation, the I&C team enhances system performance, ensures safety, and supports scalable, future-ready green hydrogen operations.

Safety and Environmental team

The Safety & Environmental Team is at the heart of maintaining a secure, compliant, and sustainable green hydrogen ecosystem. Their primary responsibility is to develop and implement safety management systems that protect people, assets, and the environment throughout the lifecycle of hydrogen production, storage, and distribution. This includes establishing protocols for hazard identification, risk assessment, and emergency preparedness, ensuring that all operations meet stringent international standards such as ISO, NFPA, and OSHA.

A core function of the team is managing hydrogen-specific safety systems, including leak detection, fire suppression, ventilation, and emergency shutdown mechanisms. They work closely with electrical, mechanical, and process engineers to integrate these systems seamlessly into plant design and operations. Regular safety drills, staff training, and compliance audits are conducted to strengthen awareness and ensure rapid response capability.

On the environmental side, the team ensures that hydrogen projects remain sustainable and regulation-compliant. They oversee water treatment waste handling, chemical management, emissions monitoring, and site impact mitigation, aligning operations with environmental laws and corporate sustainability goals. By conducting environmental impact assessments (EIA) and monitoring resource efficiency, they help minimize ecological footprint.

Through proactive risk management, regulatory compliance, and sustainability practices, the Safety & Environmental Team ensures that green hydrogen systems operate with maximum safety, minimal environmental impact, and long-term reliability, supporting a clean energy transition responsibly.

Empowering Green Hydrogen

Hydrogen Hubs

Hydrogen hubs are centralized networks where green hydrogen is produced, stored, distributed, and utilized across multiple sectors. Powered by renewable energy, these hubs integrate large-scale electrolysers, compressors, and storage systems to create cost-efficient hydrogen supply chains. They support industrial applications like steel, cement, refining, and fertilizers while enabling mobility solutions such as hydrogen refueling stations for trucks, buses, and rail. By balancing renewable energy supply and demand, hydrogen hubs enhance grid stability and energy security. They also foster collaboration between governments, industries, and innovators, driving decarbonization, economic growth, and large-scale adoption of sustainable hydrogen solutions.

Green Ammonia

Green Ammonia is ammonia (NH₃) produced using green hydrogen derived from renewable energy sources such as solar or wind, combined with nitrogen captured from the air. Unlike conventional ammonia, which relies on fossil fuels, green ammonia is a carbon-free alternative with applications in fertilizers, power generation, and as a hydrogen carrier for long-distance transport. It enables decarbonization of the agriculture sector while offering a scalable solution for global energy trade. Green ammonia can be stored and transported more easily than hydrogen, making it a key enabler in the clean energy transition and sustainable industrial applications.

Hydrogen Mobility

Hydrogen mobility is transforming transportation by enabling zero-emission vehicles powered by fuel cells. A key innovation is the skid-mounted hydrogen fueling station, a compact, modular system designed for quick deployment and flexible operation. These stations integrate hydrogen storage, compression, and dispensing units on a single skid, reducing installation time and cost while ensuring safety and reliability. Ideal for buses, trucks, and fleet applications, skid-mounted stations can be set up in urban centers, industrial hubs, or remote locations. They provide a scalable solution to accelerate hydrogen adoption in mobility, supporting clean transportation and reducing dependence on fossil fuels.