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Case study – San Jose City College
The San Jose City College Microgrid project is a campus-wide, innovative microgrid project that includes solar, storage, EV chargers, load management, energy efficiency and workforce development.
Gridscape is the largest and a well-established name specializing in developing and deploying standards-compliant future-proof products and solutions for renewable energy microgrids and fleet charging. Intended to serve as a locally produced sustainable power plant, these microgrids allow sites to become less reliant on the grid by using local sources of energy. They can provide as much as 90% independence from the grid energy, and thus reduce overall energy cost & provide backup clean emergency power during PSPS or other power disruption events. Gridscape with its ‘Product Centric’ approach to microgrids integrated with fleet EV charging solutions allows for lower cost of installation and reduces the time for deployment by substantially lowering integration issues. It expects to deploy and operate over 35 microgrids in California public and commercial facilities over the next 12 months.Â
Unlike traditional microgrid developers, Gridscape employs a holistic product-centric, artificial intelligence (AI) based software-driven approach to designing, deploying, and managing microgrids. It also integrates Electric Vehicle (EV) charging and other controllable loads into its solution. Through its broad partnerships with various Tier 1 and Tier 2 financiers, design engineering firms, energy storage manufacturers and other renewable energy product providers, it leverages the best-in-class mix of technology and finance to provide maximum return on investment to customers.
Gridscapeâs solution is unique, and it differentiates from traditional systems in following manner.
Product Centric Approach (vs Project Centric Methodology) for scalability, maintainability, and longevity of microgrid assets
Software driven architecture resulting into no technology obsolescence and ability to adapt to changing PG&E tariffs and distribution grid conditions.
Dynamically configurable with an ability to change the microgrid operational modes on demand
Energy Information System: A cloud-based distributed energy resource management system (DERMS) that includes
Smart AI-based energy management and optimized load and generation dispatch; and
Very powerful visualization dashboard for accessing real time and historical data about PV, Storage and EV charging stations.
Inherently Integrated with EV charging infrastructure
Full Energy Management including demand charge reduction, TOU arbitrage, grid services.
Integration with various Cloud platforms such as Google, Amazon for grid services and load management.
This $8.4M project is funded by Rosemawr LLC, which has signed a 25-year PPA agreement with the San Jose City College. Gridscape and its subcontractor team is responsible for EPC and OAM for 10 years. The project is currently in design phase, and it will start construction in Q1 2023.
Business Innovation: Gridscape is in the process of designing a renewable energy and sustainable living class that will be offered at San Jose City College (and Chabot College) based on practical knowledge acquired during this project. Several college intern students will be part of the project team. This business innovation will lead to future workforce development, trained in renewable energy and sustainable living.
Technical Innovation: This project includes following technical innovations
This project met with few business and technical challenges so far. On business side, since the time Gridscape won the RFP from the SJCC, the cost of material and labor increased by 25-30% making the project unviable. However, the PG&E utility rates also increased by 10%+ and so Gridscape and Rosemawr had to reassess the project economics several times until the project became viable again.
On the technical side, the college has a very old (40+ years) 12kV electrical loop around the campus that has an old-style design for hardware based electrical redundancy. This loop makes it harder for the design team to propose a straight replacement of existing 12kV switches with modern, smart 12kV switches, capable of islanding any section or building on campus. The project team is currently evaluating several other innovative options to overcome this challenge.