Logistics • Dispensing • Sourcing • Storage
Commitment to a Sustainable Future
At Celly, we are committed to a sustainable future through the distribution of hydrogen fuel. Our mission is to provide a clean, reliable, and affordable source of energy that can reduce carbon emissions and promote environmental sustainability.
We believe that hydrogen fuel has the potential to revolutionize the energy industry by offering a viable alternative to traditional fossil fuels.
The Future of Energy: Hydrogen Fuel
Hydrogen fuel is poised to become the future of energy, and Celly is leading the charge. As the world shifts towards cleaner, more sustainable sources of power, hydrogen fuel offers a promising solution that can help us achieve our climate goals. Unlike traditional fossil fuels, hydrogen fuel produces zero emissions, making it an ideal choice for powering everything from cars and buses to homes and factories.
At Celly, we believe in the potential of hydrogen fuel to transform the energy industry. That’s why we’re committed to providing our customers with access to high-quality, low-carbon hydrogen fuel that can help them reduce their carbon footprint and contribute to a more sustainable future. With our expertise in negative carbon intensity hydrogen fuel and our commitment to innovation and sustainability, we’re well-positioned to lead the way in this exciting new field.
Hydrogen Solutions
Hydrogen Sourcing
Celly is agnostic to hydrogen producers but can identify the most suitable source of H2 for a specific application, ensuring it meets customer requirements.Hydrogen Refueling Stations (HRS)
Celly manages and installs both permanent and mobile hydrogen refueling stations, offering the choice of H35 and H70 hydrogen fuel dispensing options.
Operations and Maintenance
Celly provides ongoing operational support and maintenance services, ensuring the reliability and efficiency of hydrogen systems.
Logistics
A strong logistics backbone enables timely and cost-effective distribution of hydrogen to clients across the US. Celly employs hydrogen transport modules equipped with pressure vessels to efficiently deliver gaseous hydrogen to customers.
Modular Advanced Hydrogen Refueling Station
Benefits of Modular Advanced Hydrogen Refueling Stations
Flexibility
Modular hydrogen refueling stations can be customized to fit specific site requirements and can be easily relocated if needed.
Scalability
These stations can be expanded or downsized depending on demand, making them a cost-effective solution for businesses and governments.Ease of installation
Modular hydrogen refueling stations are designed for quick and easy installation, reducing downtime and minimizing disruption to operations.MAHRS-LTE
MAHRS-LTE is a modular take on dispensing in its simplest form. This solution can fill directly from storage without the need for a chiller. Its rudimentary design enables regulated filling while still integrating controls to manage safety.
MAHRS-PRO
MAHRS-Pro is an advanced turnkey hydrogen refueling system with simplicity in mind. Designed to fit your application specific needs, with capabilities that can support any fueling requirements.
Celly’s
Competitive Advantage
Celly envisions a cleaner world powered by hydrogen. As a leader in hydrogen fueling, we are committed to accelerating the transition to clean energy ecosystems through innovation and collaboration. Being hydrogen agnostic, we can provide hydrogen from various sources to meet diverse needs.
We plan to leverage our competitive advantage by partnering with clients who share our commitment to sustainability. By working with like-minded organizations, we aim to create a network of businesses dedicated to reducing their carbon footprint. This collaborative approach will not only benefit the environment but also help establish Celly as a leader in the hydrogen fuel space.
Through our hydrogen delivery, dispensing, and modular refueling stations, we cater to various sectors including municipalities, transit authorities, fleet owners, industrial users, refineries, ports, and businesses.