Drafting vs. Engineering: Choosing the right partner for commercial projects

SunHydrogen, Inc. (OTCQB: HYSR), the developer of a breakthrough technology that produces renewable hydrogen using sunlight and water, announced that GTI Energy will provide safety review and on-site systems integration support to SunHydrogen’s hydrogen production pilot installation at the Hydrogen ProtoHub.

GTI Energy and The University of Texas at Austin – Center for Electromechanics (UT-CEM) co-manage the ProtoHub, located at UT Austin’s J. J. Pickle Research Campus. It expands upon the success of the H2@scale in Texas and Beyond project, which built and demonstrated the technical feasibility of an integrated hydrogen ecosystem.

The Hydrogen ProtoHub is a first-of-its-kind hands-on demonstration and training site where emerging technologies, ranging from hydrogen to renewable natural gas, are tested, validated, and showcased under live conditions.

More than a single pilot installation, the ProtoHub is designed as a multi-purpose platform:

• Technology Demonstration: A host site where innovators can install, integrate, and operate advanced energy technologies, from electrolyzers and fuel cells to hydrogen blending systems and RNG applications.
• Workforce Training: A unique facility for training operators, engineers, and codes and standards officials, giving professionals direct, hands-on experience with properly designed and installed systems. It helps set industry expectations for safe and effective deployments.
• Data Center and System Modeling: A living laboratory for collecting operational data from component-level demonstrations. These learnings are being used to model larger, commercial-scale systems, such as future data center power control and supply solutions, ensuring the transition from pilot to practice is grounded in evidence.

With advanced infrastructure, strict safety systems, and experienced technical staff, the ProtoHub serves as a launchpad for projects that can shape the future hydrogen economy.

SunHydrogen’s pilot system will feature sixteen solar-to-hydrogen production reactors, each 1.92 m2, configured in a scalable modular array totaling more than 30 m² of active area. The demonstration marks the company’s first multi-panel system deployed in an outdoor environment, operating solely on sunlight and water. Over a six-month period, the project will validate performance, durability, and scalability, while generating data critical for commercialization. A successful demonstration will confirm real-world viability, paving the way for larger deployments and commercial partnerships.

“This collaboration represents a pivotal step in continuing to bring SunHydrogen’s vision to life,” said SunHydrogen CEO Tim Young. “Deploying a pilot demonstration system at the Hydrogen ProtoHub allows us to validate our technology under real-world conditions and generate the data needed for commercialization. With GTI Energy’s decades of leadership, including its Hydrogen Technology Center operations experience and role in major national hydrogen programs, GTI Energy is the right collaborator to help ensure safe and successful execution.”

GTI Energy brings decades of leadership in energy technology development, safety, and oversight. With more than 80 years of innovation, 1,300+ patents, and a state-of-the-art Hydrogen Technology Center, GTI Energy has played a central role in advancing safe, scalable energy solutions. The organization also leads national collaborations such as the Low-Carbon Resources Initiative and participates in multiple regional clean hydrogen hub projects in the U.S. GTI Energy’s involvement adds credibility and underscores the commercial significance of SunHydrogen’s demonstration system.

“We are pleased to collaborate with SunHydrogen and UT Austin in taking the next step in showcasing direct solar-to-hydrogen capabilities," said Ted Barnes, Executive Director, Low Carbon Energy Solutions, GTI Energy. “We look forward to working with the teams on demonstration of this renewable hydrogen production technology.”

SunHydrogen | http://www.sunhydrogen.com

GTI Energy | www.gti.energy

Conflux Technology has announced its role in supporting Airbus’ ZEROe project by developing an advanced heat exchanger using additive manufacturing, designed for hydrogen-electric propulsion systems. The heat exchanger, currently undergoing a technology readiness maturity assessment, plays a critical role in thermal regulation within megawatt-class fuel cell systems.

Hydrogen fuel cells generate significant heat, requiring compact, efficient thermal management solutions. Conflux’s heat exchanger, developed through rigorous Computational Fluid Dynamic (CFD) modelling and validated in lab-scale testing, offers a lightweight, high-performance approach tailored to the demanding conditions of aerospace integration.

“Our work with Airbus marks a significant step forward in the application of additive manufacturing to sustainable aviation,” said Michael Fuller, CEO of Conflux Technology. “Thermal management is a core enabler for hydrogen propulsion, and our expertise is helping to advance this technology from lab to flight.”

The Airbus ZEROe project is focused on delivering a commercially viable, fully electric, hydrogen-powered commercial aircraft into service and suppliers like Conflux are contributing with critical components that will enable safe, efficient, and certifiable flight systems.

The Conflux heat exchanger is being evaluated for integration into Airbus’ broader hydrogen fuel cell architecture, with continued development and system-level testing targeted over the next coming months.

Conflux Technology | www.confluxtechnology.com

Greentown Labs, the world's largest climatetech and energy startup incubator, and Shoreless, which enables AI adoption for enterprise systems, announced the launch of an AI lab within Greentown's Houston incubator.

The Shoreless AI lab will support startups developing solutions for supply-chain optimization and decarbonization. Shoreless will offer Greentown members "climate sprint" sessions to deliver AI-driven insights into ways startups and their corporate partners can reduce Scope 3 emissions, lower expenses, and drive new revenue streams.

Many Greentown startups are using AI as a tool for accelerating the energy transition—from enabling technologies to decarbonize diverse sectors, to creating market appetite for energy abundance, to integrating clean-energy power sources. This AI lab will enable these companies to build and test their ideas with minimal friction, ramping up the pace at which they can take disruptive technologies from the lab to global scale.

"The future of climatetech is intertwined with the future of AI," said Ken Myers, Founder and CEO of Shoreless. "By launching this AI lab with Greentown Labs, we are creating a collaborative ecosystem where innovation can flourish. Our agentic AI is designed to help companies make a real difference, and we are excited to see the groundbreaking solutions that will emerge from this partnership."

As part of the new lab, Greentown and Shoreless will co-develop and host specialized workshops tailored to the needs of technical teams across industries. Shoreless will provide resources and engagement opportunities for Greentown's startups, corporates, and ecosystem partners.

"Climatetech and energy startups are transforming industries, and AI is a critical tool in that journey," said Lawson Gow, Greentown's Head of Houston. "We're excited to bring this new offering to our entrepreneurs and corporate partners to enhance the way they think about reducing costs and emissions across the value chain."

Startups interested in tapping into these offerings from Greentown and Shoreless can get in touch here.

Greentown Labs | www.greentownlabs.com 

Shoreless.ai | https://shoreless.ai/

Companies that voluntarily buy clean energy play a critical role in clean energy projects being built. Without extensive voluntary commitments by corporate buyers to purchase clean energy, fewer projects will be financed and built, and the U.S. will struggle to meet growing energy demand. 

A new study commissioned by the Clean Energy Buyers Association (CEBA) provides some of the strongest data to date that long-term corporate virtual power purchase agreements (VPPAs) are crucial in getting new renewable energy projects off the ground.

Misti Groves, senior vice president of U.S. Strategy at CEBA, noted, "It confirms that corporate buyers are critical to ensuring the U.S. can build enough clean energy at the pace and scale that's needed to meet skyrocketing power demand from the growth in artificial intelligence, electrification, and a resurgence in U.S. manufacturing."

David Groleau, executive vice president of Pine Gate Renewables, which develops, owns, and operates utility scale solar and energy storage projects in the U.S., said, "Corporate buyers are the backbone of clean energy deployment, anchoring project financing and shaping the future of reliable, cost-effective power."

The study, which was completed by renewable energy data company REsurety, analyzed the economic performance of 251 wind and solar projects across three major power markets — Electric Reliability Council of Texas (ERCOT), Midcontinent Independent System Operator (MISO), and PJM Interconnection — and found that revenues for such projects often face significant financial headwinds without corporate buyer support. 

Corporate clean energy buyers often enter into long-term contracts with clean energy projects to purchase the future electricity produced for a fixed price, through a contract called a VPPA. It's only possible to finance a project if the loan provider knows who will buy the electricity and at what price, so without these contracts, projects won't get the necessary loans to finance development. 

REsurety found that VPPAs reduce the number of projects facing financial distress — defined as a negative cash flow — by 90% in MISO and PJM, and 80% in ERCOT. 

"In this next year, as renewable energy projects aim to meet deadlines for tax credits, the support and cooperation of corporate buyers will give developers the confidence to advance spending to secure tax credits to reduce the cost of renewable energy," said Joan Hutchinson, managing director of Offtake Advisory, Marathon Capital.

Renewable energy certificates (RECs) also have an impact, reducing projects in financial distress by 30% and providing additional stable revenue. 

Over the past decade, corporate buyers have become a steadying force in the U.S. clean energy market, accounting for more than 40% of new U.S. clean energy capacity additions. Maintaining that momentum is essential to ensuring that U.S. clean energy electricity grows at the pace and scale needed to meet the momentous challenge of increasing demand.

"The acceleration of corporate purchases from clean energy projects transformed the U.S. market over the past 10 years, providing developers and owners long-term, stable revenues on projects and a view on future demand to help maintain continued growth," said Emily Cohen, chief commercial officer of Primergy. "As new markets evolve, we are excited to see more corporates buying energy across the country to bring the benefits of new energy resources."

Clean Energy Buyers Association | https://cebuyers.org/

Stardust Solar Energy Inc. (TSXV: SUN) (OTCQB: SUNXF) (FSE: 6330) reports that recent forecasts for clean-power additions, together with the relaunch of the Canada Greener Homes Affordability Program (CGHAP), indicate continued demand for residential and small-commercial solar across Canada. The Company maintains an installation network and accredited training and certification programs, placing it in a strong position to respond to this demand.

A recent report by the Canadian Renewable Energy Association (CanREA) together with Dunsky Energy projects more than $200 billion in investment for clean power across Canada by 2035, largely driven by rising electricity demand. Wind and solar are expected to supply a dominant share of new generating capacity, especially in provinces like British Columbia, Ontario, Quebec, and the Maritimes, as barriers to renewable energy loosen. (Source: Canada's National Observer, September 17, 2025.)

Meanwhile, CGHAP has been relaunched with a direct-install model that removes upfront costs for low- and median-income households. Provinces and territories will deliver the program locally. The first implementation agreement is in Manitoba, where $29.8 million in federal funding is matched by provincial contribution to deliver energy efficiency retrofits including insulation, air sealing, and heat pumps. (Source: CBC News, September 12, 2025.)

Implications for Stardust Solar

As a licensed provider of solar PV installations and renewable energy training, Stardust Solar, together with its franchisees, may benefit from these policy developments. The Company's franchise network and certified professionals are well aligned with the local delivery model of CGHAP. In addition, its training and certification programs — recognized for meeting national standards (CSA, NABCEP) — help ensure that qualified installers are available for retrofits and solar system installations.

Outlook

With clean energy procurement pipelines increasing, the national rollout of CGHAP, and rising electricity demand, market conditions in Canada are supportive of solar and energy-efficient retrofit solutions. Stardust Solar plans to expand its reach in high-potential provinces, increasing installations of residential retrofits as well as distributed solar and storage projects. The Company will continue to work closely with its franchisees and certified professionals to deliver on this growing demand.

Stardust Solar | www.stardustsolar.com