AlphaStruxure Initiates Groundbreaking Microgrid Project for Green Hydrogen Transit Depot
Key Ideas
- AlphaStruxure embarks on constructing a cutting-edge microgrid project in Montgomery County, set to be the US East Coast's first to produce on-site green hydrogen for transit operations.
- The microgrid will support 200 hydrogen fuel cell electric buses by 2035, contributing to the county's transition to zero-emission buses and aiding in achieving a 100% reduction in CO₂ emissions by 2035.
- The project, utilizing solar and battery energy storage, will reduce 4,000 tonnes of CO₂ emissions annually, provide power during outages, and supply renewable energy back to the national grid.
- Partnerships with Mortenson, Schneider Electric, WSP, AZZO, The Mobility House, and Heliox ensure seamless design, construction, and operation of the groundbreaking microgrid infrastructure.
AlphaStruxure has commenced construction on a pioneering microgrid project at the David F. Bone Equipment Maintenance and Transit Operations in Montgomery County, Maryland, USA. This initiative aims to establish the nation's largest renewable energy-powered transit depot, featuring on-site green hydrogen production, a first on the US East Coast. The project, scheduled for completion in 2025, will incorporate electric bus charging facilitated by solar and battery energy storage.
AlphaStruxure, a joint venture of Carlyle and Schneider Electric, will fund the project through an energy-as-a-service business model, covering design, construction, and long-term operations without county capital expenditures. The microgrid's deployment will not disrupt ongoing transit services during the 28-phase construction period.
The microgrid is pivotal in Montgomery County's transition to zero-emissions buses, aiming to host 200 hydrogen fuel cell electric buses by 2035. By contributing renewable energy to the national grid, the project aligns with the county's objective of achieving a 100% reduction in CO₂ emissions by 2035, targeting a yearly reduction of 4,000 tonnes.
Additionally, the microgrid will ensure a continuous power supply to the facility's fleet of electric buses and buildings, even during extended power outages. Collaborations with partners such as Mortenson, Schneider Electric, WSP, AZZO, The Mobility House, and Heliox will facilitate the project's smooth execution, ensuring efficient design, construction, and operation.
This endeavor signifies a significant stride towards sustainable transit operations, with AlphaStruxure's innovative approach showcasing the potential for green hydrogen in the realm of public transportation infrastructure. The project's positive environmental impact, coupled with its strategic partnerships and advanced energy solutions, positions it as a noteworthy development in the realm of renewable energy and sustainable transit infrastructure.
Topics
Public Transit
Renewable Energy
Sustainability
Energy Storage
Carbon Reduction
Zero Emissions
Microgrid
Transit Operations
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