For industrial or municipal operators desiring an energy independent solution to grid instability but starting from square one, we offer a managed microgrid development service. This services on combining solar and battery storage into a comprehensive, end-to-end microgrid development offering. Our fully managed service spans the entire project lifecycle – from initial pre-feasibility studies, through financing, installation, and finally, post-installation operations and maintenance.
At the heart of Asoba’s offering is the integration of solar energy and battery storage solutions. Solar energy, an abundant and renewable resource, offers substantial benefits including lower emissions, reduced energy costs, and independence from the traditional power grid. Pairing this with battery storage systems means that excess energy produced during the day can be stored and utilized during non-sunlight hours, ensuring a stable and constant energy supply.
Pre-feasibility is the first step in Asoba’s service offering. During this phase, Asoba’s team first performs a desktop study to assess baseline project size and financial viability. conducts thorough site evaluations and energy needs analyses. These assessments determine the optimal system size and configuration, the potential solar and storage capacity, as well as any unique challenges presented by the location or environment. This process ensures that the designed microgrid system aligns perfectly with the client’s needs, setting a solid foundation for the entire project.
For the crucial financing stage, Asoba an extensive network of debt and equity investors to the table. This network is composed of a mix of private investors, financial institutions, and green energy-focused funds, all sharing a commitment to sustainable energy. By aligning the project’s financing requirements with the right investment partners, we are able to secure the necessary capital for each microgrid development project, ensuring both its economic feasibility and long-term sustainability.
Once the funding is in place, the project transitions into the installation phase. Asoba relies on its carefully vetted set of Engineering, Procurement, and Construction (EPC) partners for this crucial step. These EPC partners have a proven track record in the industry, offering superior technical expertise, efficiency, and reliability. They are responsible for the system’s physical installation, ensuring that it is done correctly, safely, and in compliance with all necessary regulations.
The final part of our offering is post-installation operations and maintenance. Maintaining a microgrid’s optimal performance requires regular monitoring, preventive maintenance, system optimization, and occasional repairs. Asoba’s team takes on this responsibility, utilizing our virtual power plant technology to monitor system performance, diagnose potential issues, and carry out necessary repairs or adjustments. This proactive approach guarantees the longevity of the system and secures the maximum return on the investment.
Asoba’s managed microgrid development service goes beyond simply delivering a product. It provides a comprehensive solution, one that is tailored to each client’s unique needs and circumstances. The service empowers clients by offering them control over their energy supply, reducing their reliance on traditional power grids and lowering their carbon footprint. By offering a fully managed, end-to-end service, Asoba is taking a significant step towards making sustainable, decentralized energy a reality for all.
In conclusion, Asoba’s managed microgrid development service represents a truly holistic approach to energy management. The service harnesses the power of solar energy and battery storage technology, paired with meticulous project management and comprehensive financing solutions, to bring reliable, sustainable energy to clients. By spearheading this new approach to energy, Asoba is not only responding to the environmental and energy needs of today, but also actively shaping a sustainable, energy-independent future.