日本語はこちら
Demand response, which refers to the ability of consumers to adjust their electricity usage in response to price signals or grid conditions, has been widely recognized as a highly effective and economical method for managing electricity demand during peak times. By incentivizing consumers to reduce their electricity consumption during periods of high demand, demand response programs help to alleviate stress on the grid and prevent the occurrence of disruptive power outages. In addition to its cost-effectiveness, demand response also offers other benefits such as promoting energy efficiency, reducing greenhouse gas emissions, and enhancing grid reliability. Thus, implementing demand response measures can play a crucial role in ensuring a stable and sustainable electricity supply for both residential and commercial consumers.
By participating in demand response programs with Greenphard Energy, users can gain resource that actively contribute to the stability and reliability of the power grid while also enjoying various advantages.
Some of these benefits include reduced energy costs, increased grid resilience, and enhanced environmental sustainability. Moreover, demand response empowers customers by giving them greater control over their energy usage and the opportunity to contribute to a more efficient and sustainable energy future.
Overall, demand response is a win-win solution that not only benefits power grid customers but also promotes a more reliable, resilient, and sustainable power grid system.
Since we connect directly to power consuming machines to create electricity resources, we have higher ability to achieve DR. With the connection we can choose the DR timing, Up or Down, where, how much for each site, and with complex control creating more surplus resources. This connected solution will help power supply side to stabilize the grid with much ease.
Greenphard Energy is a registered Resource Aggregator in Japan.
Registered Resource Aggregator [JP]
We work in collaboration with Aggregation Coordinators and Power Supply sde to realize the power stability.
