Solar
Daniel E. Chartock
Energy Storage
Emerson
Solar
Garth Schultz and Mark Cerasuolo
PSB Industries, a specialist in the design and fabrication of systems for dehydrating and purifying gasses and liquids, highlights the Deox-H2 + TSA system, a cutting-edge technology designed to meet the growing demands of hydrogen purification in the green energy sector. This fully customizable packaged skid offers an advanced approach to purifying hydrogen gas by removing both oxygen and moisture, helping renewable energy companies meet strict industry specifications.
The Deox-H2 + TSA system effectively handles inlet oxygen concentrations up to 4%, reducing oxygen levels to less than 1 ppmv. In addition, it can process hydrogen gas with high moisture content, reducing water levels to below 1 ppmv. With the ability to operate under a wide range of conditions, including pressures from 100 psig to 800 psig and temperatures from 50°F to 300°F, the system is highly versatile and suitable for various hydrogen production facilities.
Designed for minimal operator intervention, the fully automatic system integrates essential subcomponents, instrumentation, and controls into a single efficient package. The inclusion of multiple regeneration strategies ensures zero gas emissions or losses, optimizing operational efficiency and sustainability in green energy operations. Additionally, the multi-layered adsorbent bed provides a cost-effective solution, reducing operating expenses while ensuring the highest level of purification for renewable hydrogen processes.
For applications that do not require oxygen removal, PSB Industries offers a stand-alone Dryer package option, providing further flexibility to meet the specific needs of hydrogen producers.
“With the Deox-H2 + TSA system, PSB Industries continues to push the boundaries of hydrogen purification technology,” says Brian Meyer, Application Sales Manager, PSB Industries. “Our goal is to provide businesses with solutions that not only meet the strictest purity standards but also offer long-term operational savings and environmental benefits."
PSB Industries manufactures and designs the Deox-H2 + TSA system in accordance with North American standards such as ASME, ANSI, NEC, UL, etc. and can further provide CRN registration for Canadian projects, ensuring it meets stringent industry standards for pressure vessels and safety. The system’s comprehensive design and customizable features make it a valuable asset for any hydrogen production facility.
PSB Industries | https://psbindustries.com/psb_hydrogen_bulletin
About PSB Industries:PSB Industries specializes in the design and fabrication of systems for dehydrating and purifying gasses and liquids. With a global presence, PSB Industries serves multiple industries, offering advanced solutions that enhance the purity and quality of gas streams.
Brightcore Energy, a leader in developing and implementing renewable energy solutions for the commercial and institutional market, and Luminace, one of the largest decarbonization-as-a-service providers in North America, jointly announced a new community solar project portfolio to be installed on eight commercial rooftops in New Jersey.
“We are thrilled to collaborate with Luminace to bring this project portfolio online,” stated Mike Richter, President of Brightcore Energy. “Beyond increasing the availability of clean, renewable energy, community solar offers the additional advantage of making this energy source accessible to commercial and residential customers who might not otherwise be able to utilize clean energy due to the suitability of their home or facility for solar installations.”
“Luminace is pleased to add the Brightcore Energy team to our strategic channel partnership network this year, and simultaneously announce the closing of our first portfolio of projects together,” stated Brendon Quinlivan, CEO of Luminace. “Serving our mutual C&I and community solar customers with solutions that are catered to meet their decarbonization goals is a key priority for Luminace. These latest New Jersey projects highlight the current market opportunity available for C&I landlords looking to enable sustainable economic value from their real estate assets.”
The 6.6 megawatt (DC) community solar portfolio will be constructed on the rooftops of eight commercial properties located in Fairfield and Montville municipalities in New Jersey. Once operational, the projects are expected to generate nearly 8 MWh of clean, sustainable electricity annually. According to U.S. Environmental Protection Agency estimates, this is equivalent to eliminating 5,553 metric tons of CO2 from being emitted into the atmosphere, or avoiding burning more than 6,000,000 pounds of coal or nearly 13,000 barrels of oil. These projects are expected also to provide clean energy benefits to over 600 low-to-moderate income New Jersey households via bill credits applied to their monthly utility bill, enabling significant subscriber utility bill savings during the term of their agreements.
Luminace | www.luminace.com
Brightcore Energy | www.brightcoreenergy.com
Stratasys Ltd. (NASDAQ: SSYS) announced that Gulf Wind Technology, a company dedicated to advancing rotor design for wind turbines, is using Stratasys additive manufacturing solutions to enhance their ability to test and improve wind turbine models. Gulf Wind Technology’s implementation of Stratasys technologies showcases the unique advantages of additive manufacturing alongside traditional methods, offering significant improvements in design iteration turnaround time and flexibility.
By adopting Stratasys Neo® stereolithography (SLA) technology, Gulf Wind Technology has dramatically reduced the design and fabrication cycle for wind tunnel models. What previously took 30 to 40 days to iterate and finalize a design can now be completed in just 3 to 4 days. The technology also allows for specialized features such as pressure taps for real-time airflow data, which are difficult or impossible to execute with conventional manufacturing methods.
“By leveraging the Stratasys Neo SLA system we can generate far more data in a shorter time. This has enabled us to run our design process with more rigor, become more efficient, and take on business that we previously had to turn away,” said James Martin, CEO of Gulf Wind Technology. “Additive manufacturing allows our engineers to design internal structures, and pressure taps directly into our test models, which we couldn’t achieve with traditional methods.”
Rich Garrity, Chief Business Unit Officer at Stratasys, added, “Our work with Gulf Wind Technology demonstrates how manufacturers are adopting additive manufacturing where it makes the most sense for their business. By leveraging its unique advantages, Gulf Wind Technology can rapidly prototype and test complex designs, greatly improving their efficiency and ability to innovate. This is a perfect example of how 3D printing is expanding its place on the manufacturing floor alongside traditional methods.”
The technical capabilities of 3D printing have been essential to Gulf Wind Technology’s rotor design process. Using Stratasys Neo® SLA technology, Gulf Wind Technology can produce models with Somos® PerFORM Reflect™ material, which offers high strength, stiffness, and temperature resistance – critical attributes for wind tunnel testing. Due to the superior attributes of the resin, the printed parts post process and handling is simple and straight forward – from removal of support materials, to cleaning resin from internal channels to placement in a wind tunnel.
Inspired by the use of 3D printing in Formula 1 racing, Gulf Wind Technology’s engineers recognized the potential for rapid iteration and optimization in wind turbine design. With Stratasys' solutions, Gulf Wind Technology can test airfoil shapes and rotor designs faster than ever, allowing them to maximize wind energy efficiency for applications in the Gulf of Mexico.
Stratasys | www.stratasys.com
MN8 Energy (MN8) proudly announces the successful completion of the Dry Bridge Solar facility, marking a transformative milestone for clean energy in the region and a significant step toward Brown University’s goal of achieving net-zero greenhouse gas emissions by 2040. This state-of-the-art solar project is one of the largest of its kind in Rhode Island, representing a major advancement in renewable energy adoption in the state.
With a capacity of approximately 40 Megawatts (MW) AC, the Dry Bridge Solar facility is located on a rehabilitated brownfield site in North Kingstown, previously used for gravel and sand extraction. The project comprises four co-located solar installations, each with a 10 MW ACcapacity, designed to maximize efficiency while minimizing land use impacts.
“We are thrilled to announce the completion of the Dry Bridge Solar facility, a project that provides substantial benefits to the North Kingstown community where it is situated, Brown University, and the people of the State of Rhode Island. The facility exemplifies the collaborative spirit needed to drive meaningful change,” said Jon Yoder, President and CEO of MN8 Energy. “At MN8, we work relentlessly to help our cherished enterprise customers such as Brown University achieve their decarbonization goals by delivering innovative energy solutions that benefit site host communities and create jobs.”
Key Benefits of the Dry Bridge Solar Project
“Dry Bridge is a transformative milestone for clean energy in the region and signals a significant step toward Brown’s net-zero goals,” Brown President Christina H. Paxson said. “The project underscores the need to ensure the University does all it can — through our physical plant and our leading-edge environmental research and scholarship — to contribute to global efforts to seek climate solutions and combat the threats posed by climate change.”
The Dry Bridge Solar facility stands as a testament to the collaborative nature of deploying renewable energy projects. Key counterparties include CS Energy and Energy Development Partners.
MN8 Energy | https://mn8energy.com/
Canadian Pacific Kansas City (TSX: CP) (NYSE: CP) (CPKC) and ATCO EnPower, a division of Canadian Utilities Limited (TSX: CU) said construction of hydrogen production and refuelling facilities in Calgary and in Edmonton is now complete and the facilities are fully operational.
As part of its innovative Hydrogen Locomotive Program, CPKC is retrofitting a number of diesel locomotives with hydrogen fuel cells so they can operate without directly generating emissions.
"These fuelling facilities are an important part of advancing the ongoing testing of our hydrogen locomotives and advancing the development of our industry-leading program working toward a lower carbon transportation future," said Kyle Mulligan, CPKC Assistant Vice President, Operations Technology.
ATCO EnPower provided engineering, procurement and construction services for each of the dedicated, on-site hydrogen locomotive refuelling stations and has signed an agreement to operate these facilities.
"We are proud to announce the completion of the two-hydrogen production and refuelling stations for CPKC. This advancement marks significant progress in utilizing hydrogen as a fuel source for commercial transportation and reflects ATCO EnPower's commitment to building a sustainable future by providing innovative energy solutions for our customers," said Mark Brown, Executive Vice President of Projects and Operations, ATCO EnPower.
Each of the facilities includes a 1 - megawatt (MW) electrolyzer, compression, storage, and dispensing systems for locomotive refuelling. In Calgary, the electrolyzer is powered in part by renewable electricity from CPKC's existing 5 MW solar power facility co-located at CPKC's headquarters.
The two new facilities will serve as a model for future and complementary projects across the country. By harnessing the power of hydrogen, CPKC aims to create a cleaner, more efficient mode of freight transportation that can serve as a model for the rail industry with support from ATCO EnPower.
With operations in Canada and Mexico, ATCO EnPower is leading the energy transition with inspired energy solutions, including renewable energy, carbon capture and storage, hydrogen and derivatives, and energy storage.
CPKC | cpkcr.com
Canadian Utilities Limited | www.canadianutilities.com
Amerlux, a Delta Group company with award-winning design and manufacturing expertise in performance-grade lighting, announced today that it would install a 1.525 MW rooftop solar system at its global headquarters and manufacturing facility. This initiative underscores Amerlux's commitment to achieving Net Zero Energy and leadership in sustainable lighting in the U.S.
The project, set to begin in late 2024 and complete in 2025, aligns with Amerlux's goal to decarbonize its 200,000-square-foot manufacturing facility in Oakland, N.J., much like its parent company, Delta Electronics, has accomplished at its Americas headquarters in Fremont, California.
"Our goal is to be the first U.S. lighting company to achieve Net Zero Energy in its entire operation, with 100% of energy demand being met by on-site renewable energy," said Amerlux CEO Chuck Campagna. "This initiative aligns with our long-term sustainability goals and underscores our commitment to creating a greener future for the next generation. By harnessing solar power, we are taking a significant step toward reducing our carbon footprint and leading by example in the lighting industry."
Details of the solar project, the second of Amerlux's three-step sustainability phase, include:
Additionally, Amerlux plans to upgrade its HVAC system with advanced sensors and controls from Delta Group companies Delta Controls and LOYTEC to enhance annual HVAC energy efficiency and optimize performance. This commitment to sustainability not only addresses customer demands for eco-friendly practices but also highlights the dedication of both Amerlux and Delta to global sustainability.
Solar Installation Includes Delta Technologies
The integration of Delta's Next-Gen 60kW inverters will reduce Amerlux's carbon footprint, lowering costs by $200k annually. This effort also supports Delta Group's Internal Carbon Pricing (ICP) strategy, which charges $300 per metric ton of CO2e emissions. By incorporating ICP, Delta incentivizes projects like Amerlux's solar installation to reduce operational emissions and drive investments in renewable energy, reinforcing the company's broader mission to help create a sustainable, low-carbon future.
Amerlux | https://www.amerlux.com/
Delta Electronics | www.delta-americas.com
Delta | www.deltaww.com
PVHardware USA (PVH USA), a leading global solar tracker manufacturer with facilities in Houston, proudly announces its collaboration with Energix Renewables for the Northumberland Solar Project in Milton, Pennsylvania. As the solar tracker supplier, PVH will provide 78MW of its state-of-the-art AxoneDuo Infinity trackers, playing a key role in powering this ambitious renewable energy venture with American-made components.
The Northumberland Project, owned and operated by Energix, represents a major milestone in PVH’s expansion within the U.S. solar market. The project is poised to generate enough electricity to power more than 15,000 homes, marking a significant contribution to the region’s clean energy transition. The collaboration with PVH will enable Energix to speed the completion of the project by taking advantage of PVH’s in-house pre-assembly process, which reduces the number of components delivered to a solar construction site by more than 65%, resulting in a more than 40% reduction in installation time for solar projects. In addition, 70% of PVH’s solar tracker components are produced in the United States including the use of U.S. manufacturer foundations, helping to meet ambitious goals for domestic manufacturing capacity.
“Our collaboration with Energix demonstrates the importance of the American domestic manufacturing supply chain, with PVH working hand in hand with Energix to ensure a long-term, successful partnership.” said Rodolfo Bitar, VP Business Development of PVH USA. “This collaboration solidifies PVH’s position as a leading solar tracker supplier in the United States and underscores our commitment to supporting large-scale renewable energy projects.”
As a recognized leader in the U.S. renewable energy sector, Energix has established a strong track record of developing and managing large-scale solar projects that contribute to a sustainable future. The Northumberland Project is Energix’s second project in Pennsylvania, following its successful completion of its 105MW Adams Project and many more in Virginia. Slated for completion by 2025, the Northumberland Solar Project will consist of approximately 170,000 solar panels and reach a full capacity of 78MWdc. This project not only strengthens Energix’s presence in Pennsylvania but also exemplifies the company’s broader strategy to expand its footprint in the U.S. market. Energix’s continued growth is fuelled by the demonstrated success of its projects, which consistently deliver on performance and environmental goals.
“It’s exciting to be part of a project that not only helps increase renewable energy capacity in Pennsylvania but also underscores Energix’s commitment to the clean energy transition in the United States. We are excited to partner with PVH on this project, and glad to find a partner that is enthusiastic as us about creating sustainable, reliable and affordable energy solutions for communities across the country.” Said Itamar Sarussi, Deputy CEO and CCO of Energix Renewables.
The Northumberland Solar Project will significantly enhance Pennsylvania’s solar capacity, contributing to the region’s renewable energy goals and reinforcing PVH’s presence as a pivotal player in the local solar industry.
PVHardware USA | https://pvhardware.com/usa/
Energix Renewables | energixrenewables.com
Energy Storage Nov 30, 2023
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