Reon Energy is a solar brand that is paving way for a clean energy future that will enable businesses to get more reliable energy systems and benefit people and the environment. By connecting business, government, and the financial sector, there is a possibility of fundamental change in society. Over the years, Reon Energy offers solar energy solutions within the country. It also addresses the needs of many industries.
What Makes SPARK Stand Out?
In light of the increasing use of renewable energy, a real-time understanding of network status is necessary so that changes can be handled on-the-fly or in the backend. Reon Energy Analytics' SPARK application helps operators maximize performance, reduce risk, and increase flexibility.
Through Reon's Digital Solutions - SPARK, you can maximize your asset's annual energy production along with a favorable LCOE. In addition, by using Spark, you maximize your plant's predictive maintenance efficiency and minimize your on-site maintenance costs.
Operators can benefit from the Reon Energy Analytics SPARK application by increasing performance and reducing risk. In designing SPARK, the following objectives were in mind:
· Real-time data integration for visibility and control
· Energy cost savings using the economic dispatch order principle
· Predictive plant maintenance strategy
Relationship Between SPARK & Reflex Energy
The Reflex system is powered by SPARK, a digital intelligence application that improves Levelized Cost of Energy (LCoE) by optimizing storage and amplifying other sources of energy such as grid, generators, and renewables (solar and wind). It combines Li-ion batteries with highly efficient power conversion systems for a 15 to 20-year life expectancy.
Reflex Energy Storage enables a rapid transition to a resilient power system by customizing its energy storage capabilities. A conventional energy mix has several critical shortcomings that Reflex addresses by providing an affordable, accessible, and sustainable energy system.
A combination of Li-ion batteries and intelligent power conversion systems is used in this form of smart energy storage for common industrial applications and other specific applications.
Conclusion
The SPARK program integrates solar plant parameters, energy storage features, and weather variables to identify/dispatch energy at the lowest cost. In addition to identifying key performance indicators such as inefficiencies in energy generation (ideal versus actual), predictive analysis can also identify proactive maintenance strategies to avoid unplanned downtime and enhance energy plant maintenance strategies.
Additionally, if a team needs to be dispatched to the ground, they can receive alerts indicating unexpected consumption, deviations, and interruptions.
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