What does the future of smart grids look like? How can you harness energy storage technologies? We support our clients and partners to consider every variable, understand every opportunity and make informed choices.
We plan, design and implement microgrid and energy storage projects and programs around the globe, integrating new technologies into both existing and new electrical power grids to manage demand reliably, increase operational resilience and support energy supply decarbonization.
Introducing the future of smart grids, today
Smart, efficient power grids of the future will be made up of a network of campus- and community-scale microgrids. And these microgrids will leverage modernized transmission and distribution infrastructure. Traditional power consumers will transition to become producers (prosumers), who will offer generation, storage and ancillary services to a diversified energy market.
Energy storage will play a crucial role in this transition, stabilizing the electricity grid as more and more renewable energy comes online.
Analyzing for smarter development
Our global team can prepare case analyses, conduct feasibility studies and design for the most efficient and economically feasible microgrid deployment.
For analyzing renewable generation resources (solar PV) with battery energy storage (BESS) in a microgrid configuration, our power systems engineers utilize software such as HOMER to run microgrid simulation models to assist you in arriving at an optimal solution for both operational resiliency and financial viability. We put our global experience and expertise into motion to advance smart microgrid development anywhere you need it, quickly and efficiently.
Proven expertise, tailored to you
- Energy transition advisory
- Technology and equipment review
- Permitting and consenting
- Design and engineering
- Project and construction management
- Program management
Experience spanning the energy storage industry
Our significant experience in energy storage ranges from market analysis (international and domestic), siting and permitting, sizing and design and project execution.
For rapid battery energy storage system (BESS) analysis we use our Rosetta methodology to define, direct and deliver long-term energy security. Rosetta integrates site data, opportunity analysis and strategic visioning to enhance the speed and quality of project quantification and facilitate faster decision-making.
The interactive platform relies on parametric energy modeling and a vast project database to fill the gaps in facility and performance data and inform cost estimates, savings and project viability.
One of our key goals? To develop resilient energy storage systems to determine demand charge savings during peak and off-peak periods.