The Grenada experience helped me realize that a reactive, batten-down-the-hatches approach to storm management still allows major disruptions to customers’ lives, while incorporating proactive strategies, like equipment sensors, can prevent or reduce outages.
One day, we’ll have a system that minimizes equipment failure because it has been repaired or replaced — thanks to its digital twin, automatic data feeds and work orders created by artificial intelligence. We’ll have a more efficient system with facilities that last longer due to load optimization and equipment that “talks” to other equipment.
We’ll have instant access to data that can be used for better planning and to help customers save money on their PSE&G bills.
Technologies like electric vehicles, solar and battery storage will be supported by the system, as well as smart meters that help customers save money and reduce their carbon footprint through energy efficiency.
Energy Strong
It’s a vision that we started realizing through Energy Strong, a $1.2 billion 
Energy Strong II, a proposal to invest an additional $2.5 billion during the next five years to further strengthen the utility’s electric and gas systems, currently is before the New Jersey Board of Public Utilities. It will bring the benefits of Energy Strong to many more customers.
As part of the Energy Strong II filing, we’ve proposed to add an Advanced Distribution Management System (ADMS) and build a secure fiber communications network. These advances would improve storm management assessment and restoration, significantly enhancing customer satisfaction.
Smart devices, computing power and fewer outages
Before SCADA our divisions had various computer systems that didn’t interact, making it difficult to share resources. Service technicians and others did not have remote or mobile access to critical information. SCADA allows better planning and communication by delivering mobile access to more people and better views of useful information.
Now, during storm response, divisions can easily access each other’s information to help each other out or to learn about responses to similar events. Senior managers have better oversight for making time-sensitive decisions. Contractors and those providing mutual aid services have shorter learning curves.
Under Energy Strong II, ADMS would bring new computing power to analyze the problem so that a troubleshooter could head out armed with a plan and the equipment to fix the problem.
Better still, real-time data from the field, fed from the proposed communications network, would allow ADMS to identify potential problems before they arise.
Currently equipment, like transformers, wears out based on age and loading, and can be damaged by external conditions such as weather and lightning. Estimating exactly when a transformer might fail can be difficult, but is made easier using analytics through ADMS.
Not only will ADMS predict when a transformer might fail, but it will also offer recommendations for intermediate repairs or load shifting before an expensive replacement is necessary.
Proactive and predictive systems
The Energy Strong upgrades have primarily improved our reaction to storms and other situations. We can serve customers better, however, by taking proactive measures like replacing older field devices with smart equipment.
Under Energy Strong II, we plan to enhance reliability by adding needed equipment to our utility circuits — like advanced reclosers that quickly correct faults without allowing an outage. In addition to their safety functions, these modern field devices automatically send real-time data to SCADA.
ADMS and the communication network support the grid of the future. They allow for more distributed energy resources, including solar, wind and batteries, and enhance system efficiency.
Satisfied customers
The Energy Strong II proposals would upgrade our system so that we have more advanced functionality; better outage management; more precise fault location; better communication, planning and maintenance; more technical support; and, a better foundation so that we can support renewables.
When planning these highly complex and robust systems, we only request what we absolutely need to deliver the best possible services to our customers.