Climate Tech
At Engineering Lab, one of our main focus areas is working on a sustainable future through innovation and technology. We actively seek partnerships with companies working in climate tech, including fields such as sustainability, decarbonization, clean energy, and circular economy solutions. Our expertise in product design, prototyping, and production enables us to support cutting-edge technologies that address critical environmental challenges.
Whether you are developing renewable energy systems, low-carbon technologies, or breakthrough innovations to reduce emissions and build climate resilience, we are here to collaborate with you. Together, we can turn bold ideas into impactful, market-ready solutions that make a difference for both the planet and the future of industry. Let’s create a sustainable tomorrow.
High Performance Electrolysers
Electrolysers are at the heart of the green hydrogen revolution, enabling the production of clean hydrogen by splitting water into hydrogen and oxygen using electricity. As the demand for sustainable solutions grows, the need for custom electrolyser designs tailored to specific applications becomes more critical.
At Engineering Lab, we leverage our experience in design, materials, CNC machining, resin printing and electronics to rapidly develop innovative and custom solutions.
At Brineworks we supported with the core electrolyser design and development, working closely with the R&D team. By using short iteration loops we accelerated the overall pilot deployment.
We helped elevate marketing materials by providing high quality renderings and 3D models leading to higher visibility and increased interest from future customers.
The core of a DAC system is its reactor, where the air capture process occurs. Our clients use two primary types of reactors:
Solid Sorbent Reactor at Skytree: This system uses solid materials to bind CO₂ from the air. The sorbents are then heated or exposed to low-pressure environments to release the CO₂ for storage or use.
Liquid Solvent Reactor at Parallel Carbon: This system utilizes liquid solutions to chemically absorb CO₂ from the air. The CO₂ is later extracted through regeneration processes involving heat or pressure changes.
Each reactor type has unique advantages and challenges, influencing its energy requirements, scalability, and cost-effectiveness. At Engineering Lab we helped with iterative design taking into account the given reaction parameters to deliver functioning pilot-ready reactors and reactor parts for solid and liquid systems.
By advancing DAC technologies and optimizing reactor designs, DAC has the potential to become a critical component in global decarbonization strategies.
Direct Air Capture
Direct Air Capture (DAC) is an innovative technology designed to remove carbon dioxide (CO₂) directly from the atmosphere, offering a promising solution to mitigate climate change. Unlike traditional carbon capture systems that operate at emission sources such as power plants, DAC systems capture CO₂ from ambient air, making it a versatile approach to addressing emissions from diffuse sources like transportation and agriculture.
DAC technologies are increasingly recognized for their role in achieving net-zero emissions and even enabling negative emissions when coupled with carbon storage solutions. The captured CO₂ can either be permanently stored underground in geological formations or utilized in various applications, including the production of synthetic fuels, carbonated beverages, and building materials.
Energy Storage Systems
As the demand for sustainable energy storage grows, novel battery technologies are emerging to address limitations of traditional lithium-ion systems, such as resource constraints, safety concerns, and energy density limits. Among these innovations, companies like ORE Energy are pioneering solutions that promise to redefine the energy storage landscape.
Novel battery technologies focus on improving energy efficiency, longevity, and scalability while reducing environmental impacts. These advancements are critical for supporting renewable energy integration, powering electric vehicles (EVs), and enabling next-generation electronics.
What we can do for you
Shorten the time to MVP by closely collaborating with your R&D team
Quick iteration to get to a product where necessary
Elevate your marketing materials by developing high quality 3D drawings, renderings and animations
Support and accelerate your IP development and IP is always yours
Help navigate certification and perform pre compliance tests