Seven Tips to Get the Lights Back on:	 How Utilities can Prepare for Heat Waves

Seven Tips to Get the Lights Back on: How Utilities can Prepare for Heat Waves

September 03, 2013 at 09:09am

In the past 10 years, the Middle East has witnessed several blackouts caused either by an equipment failure  or a natural disaster. Prolonged outages caused by severe weather are a clear reminder of the important role electricity plays in sustaining life and enabling commerce in today’s fast-paced, technology-driven environment.

We have experienced several heat wave challenges in countries such as Lebanon, for example. Oftentimes in summer months demand for energy is high due to increased air conditioning loads, and the large number of tourists and visitors who add to the load.

With this year’s high summer temperatures in full swing across the Middle East, utilities should consider having a strategy in place to ensure rapid power outage detection and restoration.

To do this, utilities must invest in the right modern technologies and integrate them together within the electrical grid. These actions will improve the grid’s reliability and resiliency while also educating and empowering customers.

Here are seven tips to help grid operators prepare for the hot summer months:

  1. Communicate with customers ahead of severe weather about steps they can take to prepare and what they should do if an outage occurs. Proactive, clear lines of communication will set expectations and help customers to understand the process for power restoration. This can be done through traditional channels such as phone calls and digital channels such as email, text messaging and social media. Customers also should be encouraged to contact utilities through these same channels if their power goes out, creating a two-way dialogue between utilities and their customers.

  2. Integrate the five core components of the modern grid, such as smart meters and an advanced metering infrastructure (AMI), geographic information system (GIS), outage management system (OMS), distributed management system (DMS) and distribution automation (DA) capabilities. Doing this will allow these core components to cohesively work together to quickly restore power.

  3. Leverage the capabilities of all grid technologies by enhancing the flow of information across the electrical network—the communications infrastructure that is the foundation for all grid applications. Utilities can use the power of big data and analytics to improve restoration time by enabling their workforce—both in the office and out in the field—with improved grid visibility and management platforms, mobile applications, social media and Google Maps™ technologies.

  4. Invest in bringing power to your customers. The distribution area, or the part of the grid that allocates power to customers, has traditionally received the least amount of grid investment. Of the 48,000 distribution substations in the U.S., less than half have automation installed, making it difficult to monitor for and detect outages in the distribution system.

  5. Leverage “last gasp” smart meter communications in tandem with AMI’s two-way communications system to more quickly identify outages and restore electricity. When power is lost, these meters have stored enough energy to send a final communication to the utility alerting them of the outage and its location. Pinpointing the exact location of an outage will help crews to restore power quickly and reduce downtime.

  6. Prepare for extreme weather by anticipating additional needs and repairs of current electrical infrastructure and the possible reconfiguration of it. During and after the storm, damage assessment and restoration teams should then work closely to document major damage and prioritize the deployment of work crews to restore power where it is critical.

  7. Invest in software capabilities to receive and analyze data in real time during the restoration process. This will give utilities important status reports on the restoration process that they can communicate to stakeholders. After a major weather event, it is critical to ensure the accuracy of the data captured – especially outages that impact many people and industries.
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