Energy Storage Solutions
Adopting renewable energy creation and long-term energy storage solutions in India is essential for achieving energy security, sustainability, and economic growth, while effectively addressing challenges related to energy access and climate change mitigation. As India prepares to embrace renewable energy sources such as solar, wind, and tidal power to reduce reliance on fossil fuels and combat climate change, it faces inherent challenges related to the variability of energy generation due to factors like weather conditions and the cyclical nature of solar or tidal energy creation.
Therefore, the implementation of long-term energy storage solutions in India is crucial for several reasons.
Intermittency of Renewable Sources
Solar and wind energy generation fluctuates based on weather patterns such as cloud cover or wind speed. This intermittency often does not align with energy demand, necessitating stable and predictable electricity supply solutions.
Overcoming Seasonal Variations
Solar energy production, for example, varies seasonally due to changes in daylight hours. Long-term storage solutions are necessary to store surplus energy generated during peak periods for use during periods of lower production.
Grid Stability and Reliability
- Energy storage systems help balance supply and demand on the grid by storing excess energy during periods of high generation and releasing it during peak demand times. This enhances grid stability, reducing reliance on backup fossil fuel power plants.
At Aurick Solutions & Services, we are committed to facilitating India’s journey towards energy independence through our comprehensive range of services
Energy Auditing
- Collaborating with AISSMS Institute Of Information Technology, we offer reliable energy auditing services.
Feasibility Assessment and Planning
- Resource Assessment: Identify suitable locations based on renewable energy availability (e.g., solar, wind) and proximity to existing infrastructure (grid connections).
- Technical Feasibility: Evaluate potential storage technologies that align with the project’s requirements (e.g., duration of storage, power capacity).
- Economic Viability: Conduct a cost-benefit analysis considering capital costs, operational costs, revenue streams (e.g., grid services, capacity payments), and potential financial incentives or subsidies.
Technology Selection and Design
- Select the appropriate energy storage technology based on the feasibility assessment and project requirements (e.g., lithium-ion batteries, pumped hydro storage, thermal energy storage).
- Develop detailed engineering designs including specifications for equipment, infrastructure, and integration with existing or planned renewable energy generation facilities.
Supplier Selection
- Identify suppliers with right type of battery solutions such as lithium ion battery, Vanadium flow battery, Iron flow battery etc.
Contracting and Procurement:
- Procure necessary equipment, materials, and services through competitive bidding processes or negotiations with suppliers and contractors.
- Execute contracts for construction, installation, and commissioning of the storage facility, ensuring adherence to project timelines and budget.
Grid Integration and Optimization
Thru network of our reputed consultants provide our customers with identification of suppliers for
- Integrate the energy storage facility with the electrical grid, including establishing communication protocols and control systems to facilitate grid stability and optimize energy dispatch.
- Participate in grid services markets (e.g., frequency regulation, peak shaving) to generate additional revenue and enhance the economic viability of the project.