California’s energy resources have the potential of sustaining the state and solve the problem of power outages. If this state’s leadership agrees to indemnify the institutions offering these services, they will transform it into a clean energy region.
Research into the capacity of California by Wood Mackenzie indicates that the existing distributable energy potential of the state can cover for about 10% of their peak times. This peak is because of electric vehicle charging from households with the remainder spanning over the other industries and sectors.
In the next five years, California will have a distributable energy potential equal to 13.5 GW, with an enormous percentage of this covering the electric vehicle industry.
California’s energy plans revolve around the strategies drafted close to two decades ago, whose partial implementation in September cushioned the state against power outages. The immediate implementation of these strategies in the past have propelled the state to minimize their expenditure on electricity.
Wood Mackenzie‘s researcher, Elta Kolo, stated that it is time that California stopped relying on emergency aids and explore the potential in distributed energy resources to sustain the state through all the seasons.
Kolo explained that for the potential energy distributable resources to expand and meet the state’s businesses and residents’ needs, they must venture the appropriate technology and invest in it fully. Kolo advised California to gather details of the energy resources available in the state and evaluate how to integrate them to realize their full potential.
WoodMac anticipates a quick emergency response by the laid down electric vehicle chargers and other energy facilities since they have better performance than the previous sources. Analysts explained that the installation of rooftop solar resources would help minimize the pressure imposed on-grid electricity.
If California can integrate the smart thermostat and the traditional power outage response resources, they will never experience blackouts, primarily if they utilize renewables.
Electricity suppliers and grid operators are keen not to put a lot of pressure on the distributed energy resources. At any particular time, the batteries will be acting as emergency support in case of blackouts. They will charge to a quantity less than their capacities and only gain usage when the other electricity supply channels have blacked out.
To conclude, one of the visible advantages of this plan is that these energy resources will save on response time for emergencies like blackouts. Additionally, the integration of the resources will help tap into the capacities of energy that have been idle for some time and keep them active for a long time.