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Leading-Edge GIS Applications in Utility Environments

Posted by Utilimetrics on January 3, 2012

Geospatial technology (GIS) evolved from a highly specialized, niche-oriented application to a much broader-based platform widely used in government agencies, private sector companies and utilities. It has become an essential tool for improving service levels, providing for increased infrastructure protection, enabling enhanced emergency response and serving to integrate enterprise solutions. 

The benefits for a utility integrating GIS are:

  • Interoperability: Common language and data access API
  • Transaction management: Consistent and durable
  • Topological consistency: Seeing connecting objects as a visual
  • Referential integrity: Data maintenance, observing different behavior
  • Mobility: Local data storage and visualization
  • Security: Privacy with confidentiality agreements and good passwords

When utilities invest in GIS, they are looking for the technology to provide asset and customer location data. By integrating AMR and other systems, GIS helps increase enterprise benefits for the utility. Beyond that, several municipalities and utilities have joined together to optimize the rewards of this IT investment.

Following are highlights from the Sept. 28 Autovation GIS panel discussion…

Moderator:         Matt Bell, Vector1 Media
Panelists:          Robert F Austin, City of Tampa; Thomas Conry, Fairfax County; Mark Reichardt, Open Geospatial Consortium

Visualizing New Developments in 3D 

Virtual Fairfax, enables the residents of Fairfax County to view their community in 3D. Conry explained how using 3D GIS helps visualize new developments. The technology can be used to see a scaled-down but realistic depiction of the user’s environment, as if walking down the street through a computer. New GIS technology can detect small details beyond the basic infrastructure, even down to the furniture in each building.

Thousands of buildings in Tyson’s Corner, an area in Northern Virginia, are fully modeled in 3D. But Conry explained the technology goes beyond being able to see the picture: Residents have access to detailed information about a property through integrated connections to the TAX administration’s assessment website and more.

GIS As a Tool for Pattern Predictions

GIS can be used to measure, scale and manipulate the environment, but what about fighting crime? GIS technology has helped the City of Tampa track and prevent crime. According to Austin, crime in Tampa has dropped 62% since 2003 because GIS technology has revealed noticeable patterns in behavior. Austin described how a string of robberies could be used to predict a pattern using GIS, for example. The technology is also useful in predicting traffic patterns and preventing accidents. By reading information on specific zones where accidents occur more frequently, GIS can measure the probability of an accident happening in the same place, and when.

Working Together To Maximize the Benefits of GIS

The panelists agreed that when municipalities and utilities work together, benefits are maximized for both.

Communication is key

Above all, it’s important to recognize that as with any transition, communication is a large part of the shift. Ball said, “Communicating conditions prior to deployment is very important.”

Posted in Autovation | Leave a Comment »

Success Factors for Implementing Change Management

Posted by Utilimetrics on December 21, 2011

Utilities considering smart grid technology recognize that implementation depends on the successful integration of new technologies with legacy system infrastructure. But it also depends on human dynamics, which are essential to effective change management.

This article highlights the Autovation Change Management Education Session from Wednesday, Sept 28.

Speakers:        
Shawn McDonough, Rappahannock Electric Cooperative
Tom Kerestes, West Monroe Partners
Kathy Cowan Sahadath, Hydro One Networks, Inc.
Deb Bradbury, Enspiria Solutions 

Implementing a Program Management Office for What’s Beyond the Smart Grid

Rappahannock Electric Cooperative (REC) is the ninth largest cooperative in the U.S., serving 22 Virginia counties. West Monroe Partners is a full-service business and technology consulting firm working in strategy and execution. West Monroe Partners provided project management solutions to REC as it implemented smart grid technology. The utility and consulting company partnered to oversee strategic development with projects, but executives recognized more was needed including:

  • Coordination and management of projects
  • Formalized project management and prioritization process for all major projects to properly manage resources and investments
  • Business process improvement for business transformation activities resulting from REC’s smart grid implementation

Utilities typically implement Program Management Offices (PMO) focused on IT activities. Under the Smart Grid Investment Grant (SGIG) funding, REC created a PMO to:

  • Monitor progress of multiple projects
  • Enable cross-functional team collaboration
  • Centralize specific financial and operational reporting requirements

By designing the PMO for use beyond the initial three-five year Department of Energy (DOE) SGIG funding period, REC planned to maximize capital investment. Kerestes described the best practices of a PMO:

  • Time management
  • Resource management
  • Risk and issue management
  • Scope and change management
  • Communication management
  • Quality management
  • Integration management
  • Cost management

Some problems may arise with change management, business process redesign and quality assurance. The top obstacle to successful change management is employee resistance. But the “number one success factor to implementing change management is strong sponsorship with an organization,” said Kerestes.

Some of the questions you should ask:

  • What are the requirement specifications for this project and does everyone know what they are?
  • What should a quality assurance plan look like for this project?
  • How do we know that we’ve managed this project to ensure a quality product is delivered?

All suggestions come into the PMO for review and analysis based upon strategically established filters. Projects are then grouped into categories based on whether or not they move forward, and how the PMO will treat them.

Change Management Enables Smart Grid Innovation

Hydro One, a utility that delivers electricity to 1.3 million customers across Ontario, is utilizing change management strategies to foster an environment of innovation. Hydro One’s Advanced Distribution Project (ADS) is one of several initiatives to sustain and modernize Ontario’s electricity grid. It is driven partially by the Ontario Green Energy Act, which mandates the connection of more renewable energy sources.

Hydro One’s ADS project is a multi-year initiative to analyze, identify and deploy applications, equipment and new processes to better serve their customers with the following business objectives:

  • Optimize connection of Distributed Generators
  • Improve distribution reliability and operations
  • Optimize outage restoration
  • Optimize network asset planning

Working with IBM Canada, GE Canada, Telvent Canada and Enspiria Solutions Advisors, Hydro One prepared a project schedule and identified the implementation challenges:

  • Utilizing new tools, technology and business process to make better business decisions
  • Staging a complex implementation
  • Managing an aggressive schedule
  • Securing resources needed for multi-disciplines
  • Managing impact to lines of business
  • Communicating effectively
  • Coordinating 10 project work streams working in parallel
  • Realizing business transformation

To tackle these challenges, a thorough change management strategy was established to provide a shared vision of the future. Through community and training activities, ADS awareness established a network of change leadership, delivering the “right messages to the right people at the right time.”

The team is working toward success by maintaining active and visible executive sponsorship, facilitating frequent and open communications, monitoring performance and leveraging best practices and lessons learned.

Attention utility professionals: please share your change management experiences (challenges and successes) with your peers. There are several ways you can do this:

We look forward to hearing from you!

Posted in Autovation, Change Management, Project Management | Leave a Comment »

Empowering Customers to Take Control

Posted by Utilimetrics on December 7, 2011

AMI deployment is a hot-button issue. Negative media attention has conveyed the wrong message to consumers, and utility companies are working to rectify misconceptions. By initializing strategic communication plans, utilities can show their customers they have more options, and ultimately more control with smart meters. By communicating the benefits of smart grid, utilities will have engaged and satisfied customers.

This article highlights the Consumer Engagement Session at Autovation. Read on to learn best practices for customer outreach and learn how early communication plans push deployments to succeed.

Empowered Customers, Smarter Grid

San Diego Gas & Electric (SDG&E) is working to give over 1.4 million electric and gas customers’ visibility into their energy usage habits, empowering their consumers and open energy markets. By taking a unique approach to the smart grid, SDG&E is improving grid reliability, resiliency, security and efficiency in the face of increased complexity.

Farrell Cox, smart meter deployment manager, SDG&E shared the strategic components of the program:

  • By using smart energy devices, new products and services, SDG&E is encouraging customer participation in energy management.
  • Incorporating and enabling all generation and storage options to support customer choice, improving grid stability and power supply options while reducing GHG.
  • Enhancing the grid to reduce customer disruptions, resist attack, improving workforce and asset optimization and improving efficiency.

Cox described the factors that are driving the need for energy system changes:

  • Customer empowerment: Choice, control and convenience.
  • Centralized renewables: Increased volume threatens grid stability.
  • Distributed renewables (rooftop solar): No control, can’t see it and no communication.
  • Electric vehicles: Current electric grid cannot manage potential volume.

As SDG&E installs smart meters it is increasing customer empowerment. The customer benefits of the deployment are:

  • Enhances reliability and outage detection, and speeds restoration.
  • Gives customers more control over every day energy usage, opportunity for lower bills.
  • Reduces need to access property, more privacy.

SDG&E uses online tools, demand response, dynamic pricing and Home Area Network pilots to empower its customers, giving them direct control over their data. Customers can track problems and rectify them on their own. By observing their energy spend, they can compare day-to-day energy usage and manage their bill.

A Smarter Path to Smart Meters

Pepco Holdings, Inc. (PHI) works to supply power to over 1.5 million customers through Atlantic City Electric, Delmarva Power and Pepco. The company is working to advance the smart grid with the utilities it serves. Jay Demarest, PHI and Susan Komornik, The Cadmus Group, Inc. shared lessons learned in early deployments. New technologies often bring an anxiety and a vacuum of misinformation, so it’s extremely important to communicate the benefits of smart grid deployment to customers early on.

Smart meter installation has been under way in Delaware since 2009, the District of Columbia since 2010 and in Maryland since June 2011. Delmarva Power’s aim with its communications plan was to strike a balance:

  • Don’t overpromise.
  • Keep stakeholders involved in planning.
  • Be flexible in timing and execution.
  • Provide good communications/not noise.
  • Offer credible benefits customers can understand.
  • Answer all questions factually.
  • Simple message in customer language/not utility speak.

Where did the communication play into the project lifecycle? For Delmarva, the planning began early:

  • In 2007, PHI announced its “Blueprint for the future” plan to meet the challenges of rising prices and the impact on the environment.
  • In 2008, the Commission approved installations.
  • In 2009, Delmarva initiated research, surveys and field testing to measure customer awareness and understanding.
  • In 2010, deployment began and meanwhile, marketing teams were selected to develop strategies for educating customers on smart meter benefits.

Customer research on smart meters showed positive indicators that 80 percent feel neutral to positive and half see smart meters as an advantage. Research showed the key benefits customers recognized are:

  • Tool to monitor usage.
  • Provide accurate readings.
  • Better customer service.

The challenge was that about one-third of Delmarva customers surveyed know little to nothing about energy efficiency, and while customers are aware of the online tools, most were not enrolled.

And when deployment began, the marketing team developed and implemented a phased plan with creative execution, focus group testing of messaging and communications planning.

Komornik described the goals of an education and outreach phased approach:

  • Introduce and educate customers about proactive energy management.
  • Position smart meters as key to their energy empowerment.
  • Activate customers in energy management with a phased approach.

The Delmarva marketing plan was all about empowering the consumer, with slogans like “Stop Guessing,” “Now you know that your smart meter can help reduce energy bills” and “Take Control of Your Energy.”

It’s vital to reach your consumer. Delmarva send a newsletter to customers. “A QR code is a very effective tracking tool,” said Komornik. And social media is vital because that’s how utilities can integrate themselves into the daily lives of their customers: “Get on the train or get off the tracks,” said Komornik on social media strategy.

Having a well-designed website is key. Easy navigation will help spread your message. Delmarva used a microsite approach which had different pages for:

  • Smart meter definition.
  • Understanding smart meter data.
  • How to start saving energy.

Using TV commercials, online banners, billboards, radio announcements, press releases and print advertisements, Delmarva got the message across that smart meters help curb energy spend, empowering customers to engage with their online tools and manage their energy usage.

Customer smart meter education can be successful if executed with:

  • Research and testing.
  • Careful planning.
  • Proactive partnership.
  • Phased messaging and an integrated media approach.

Please share your customer engagement experiences (challenges and successes) with your peers. There are several ways you can do this:

We look forward to hearing from you!

Posted in Autovation, customer engagement, Deployment, Smart Grid, Smart Meters | Leave a Comment »

Improvisation is Key for Some Gas Utilities

Posted by Utilimetrics on November 9, 2011

Gas utilities are considering advanced metering infrastructure programs to enhance operational efficiencies, customer service and safety and energy conservation. However, some utilities have to improvise when it comes to making the switch to AMI.

 In some cases, leveraging existing technology has proved most beneficial to the deployment of new technologies. In other cases negative media attention has caused several utilities to reconsider how they communicate the deployment to their customers. The goal is the same, but the path to deployment can vary.

This article highlights the Autovation Gas Session from Monday, Sept 26. Read on to learn how two resourceful utilities used improvisational methods to get the job done efficiently and effectively.

Leveraging the Value of Gas Datalogging

Brad Anderson, AMR project manager, Alabama Gas Corporation (Alagasco), shared how advanced AMR systems bring value beyond periodic meter reading. Anderson explained how Alagasco leverages additional information collected during the readings to better serve the customers.

Alagasco is a natural gas distributor, providing clean-burning, energy-efficient natural gas to roughly 440,000 homes, businesses and industries throughout Alabama. Beginning in March 2010, Alagasco partnered with Itron for a three-year deployment to implement AMR within the territory to approximately 497,000 meters.

Anderson described the datalogging collection components and their capabilities:

  • The datalogging module is capable of transmitting up to 40 days of daily or hourly read data.
  • Utilities can collect 40 days of daily consumption data at normal drive-by speeds.
  • Utilities can request a specific day’s read for a move-in/out scenario at normal drive-by speeds.
  • Utilities can collect 40 days of hourly data, which doesn’t slow down speed.

Anderson said that in order to store the data being collected, Alagasco’s existing data warehouse system was used for storage of the meter reading data.

How does this datalogging work? It’s actually “built in” so “no additional configuration is needed to enable datalogging of hourly and daily data,” said Anderson. Each meter receives a datalogging gas module programmed for its unique configuration. Then, a mobile collector vehicle is utilized, which requires no additional configuration for monthly reading sessions.

Once the data is collected, it is viewable from within the software client along with the periodic (SCM) reading used for billing. Utilities can organize the datalogging per individual route or universally on all meters.

When implementing this, utilities can reap the biggest benefits if they leverage existing data warehousing, business intelligence infrastructure and staff experience. According to Anderson, in choosing the data collection system, Alagasco was able to specify the datalogging class module as its standard module to be deployed company wide. There was “no noticeable impact to drive-by speeds.”

Datalogging collection allows Alagasco to leverage daily consumption data comparable to AMI systems while enjoying the ROI of an AMR drive-by system:

  • Datalogging returns important information regarding ERT configuration with every drive-by read.
  • Verification of BPI/ Electronic Correctors by comparison of daily readings and consumption of the corrected module vs. uncorrected module.
  • Back office and customer service groups use daily read data for various customer accounting tasks.
  • Datalogging gives the commercial marketing group access to daily consumption information on all of the commercial and industrial customers.

Anderson closed with important information to consider for those interested in leveraging datalogging. Here are a few of his points:

  • MDM (meter data management) software application or a third party warehouse/data analytics package will be required.
  • Work with the IT department to determine what is the best solution for long-term data storage needs.
  • Set accurate expectations for stakeholders in regards to datalogging.

Building the Business Case for AMI and Natural Gas

Atmos Energy Corporation, the nation’s largest pure natural gas distribution company, serves 3.2 million customers in 12 states. David Anglin, director regulated operations, Atmos, explained the differences between gas AMI and electric smart meters:

  • Gas meters are decades old, proven measurement devices.
  • The same meter remains in place with a wireless transmitter attached to the meter.
  • The index from the existing meter is reinstalled on the AMI device.
  • Ultimate use of data differs substantially from electric AMI.

Anglin explained that negative media coverage of AMI deployment in Texas led to a new way of implementing changes for Atmos: “We created a new term for the technology” that was self-explanatory. Whenever referencing the new technology in public, they said Wireless Meter Reading (WMR) instead of AMI. This term, according to Anglin, covers a broader range of technology and takes away nothing from the features and capabilities of the system.

So how was the WMR utilized for Atmos? Anglin described the data collection model:

  • SmartPoints collect hourly readings
  • Transmit every four hours
  • Daily reading success rate was 99.4%
  • Post one daily read to CIS

The benefits to using this system are:

  • Bills are produced with readings from the day of the bill
  • Customer access to daily usage online allows for more control, leads to higher acceptance from customers

This new technology also has a great benefit to utilities, said Anglin, because it allows for smaller, tactical deployment. In the near future, utilities will enjoy remote gas shutoff, pressure monitors communicated across WMR network, and cathodic protection voltage collection across WMR network.

Attention gas utility professionals: please share your technology experiences (challenges and successes) with your peers. There are several ways you can do this:

  • Submit an abstract for Autovation 2012, Sept. 30-Oct. 3 in Long Beach, Calif. The Call for Speakers deadline is Jan. 13, 2012.
  • Provide a byline article for News Link or agree to be interviewed by News Link staff for an article. Or, submit a blog post. Contact Janice Greenberg.
  • Consider hosting a regional learning lab or participating in a webcast. Contact Debby Scheck.
  • Start a discussion on the Utilimetrics LinkedIn Group

We look forward to hearing from you!

Posted in Autovation, datalogging, Gas, Smart Grid, Smart Meters | Tagged: , | Leave a Comment »

Water Management: It’s Much Easier With AMI

Posted by Utilimetrics on November 7, 2011

While much of the utility technology attention seems to circulate around efforts by electric utilities, some water utilities are implementing AMR/AMI solutions to increase revenue, control expenses, comply with regulatory mandates and increase infrastructure spending without burdening customers. The most common reasons for implementation are:

  • Improve understanding of water consumption and flow patterns
  • Ability to track and predict changes in trends and demands
  • Highlight anomalies
  • Warn of high or low flows
  • Identify leaks or other waste minimization opportunities
  • Shift water consumption to other parts of the day

The demand is higher, particularly among public or city-owned municipal utilities—More than 25% of water meters in the U.S. are now equipped with AMR.

The most common benefits to water smart meters are:

  • Leak detection
  • Reacting to billing disputes
  • Remote turn-off
  • Better water use prediction
  • Determining time of water use

An Aclara water AMI case study reveals a network system for meter reading, implemented in Leesburg, Va., has reduced unaccounted-for water from 15 to seven percent. In addition, the system provides daily data that helps Leesburg identify service-line breaks where water use increases suddenly and remains elevated, as well as intermittent spikes.

More benefits: A Sensus water AMR case study shows how advanced metering systems can grow water revenue. A progressive water authority in Lockport, Ill., treating 1.4 million gallons a day from its own wells, saw a 12 percent increase in revenue with AMR deployment. Prior to the AMR system, it would take 16 days to read all of the city meters, compared with just four days after the installation.

Responding to requests from members about the need for more water programming, Autovation 2011 included an AMI Water Vendor Panel Big Picture Session.

The panel, moderated by Charles Kiely, DC Water, featured:

  • Paul Lekan, Aclara
  • Thomas Butler, Itron
  • Doug Neely, Sensus
  • David Hanes, Neptune Technology Group
  • Akeyma Broden, Elster AMCO Water
  • Morrice Blackwell, Badger Meter

“We are having conversations at Autovation that we were not having four years ago,” said Lekan, who described how providing solution options to collect and manage usage data benefits large and small utilities.  According to Lekan, meter readings from AMR/AMI provide the data and information needed to conserve resources, reduce theft and improve customer service.

Butler described how smart meters for residential customers have the ability to integrate into an existing water metering program smoothly. AMR/AMI offers functionality and remote configuration, which streamline operations for water utilities, resulting in real cost savings.

“[Water management] is much easier with AMI,” said Neely, who agreed that AMI for water significantly helps in conservation efforts, as well as distribution automation, home area networking , demand response and smart grid operations.

Driving Client and Customer Relations

Hanes stressed the importance of a true partnership between water utilities and vendors. Vendors can assist water utilities in moving from mobile to a fixed network AMR, acting to cater to the specific needs of the utility.

AMR/AMI systems give more power to the consumer, as customers are encouraged to access their own information online. Panelists noted that their utility customers see improvements in customer service efficiency and complaint resolution on a daily basis.

Panelists also explained how some industry products meet the current and future needs of water utilities. For example, today’s advanced equipment has up to a 20-year battery life, with the ability to operate with one- and two-way communications.

Everyone on the panel agreed that water utilities should start investigating AMR/AMI. A visit to the Utilimetrics Smart Utility Marketplace is the first step in the process. This online product and service guide will help you identify potential consultants and services providers.

Utilimetrics wants to hear from water utilities that have deployed AMR/AMI.  Share your best practices and lessons learned with peers from all over the world.

There are several ways you can do this:

We look forward to hearing from you!

Posted in Autovation, Smart Meters, Water utilities | 1 Comment »

DTE Energy and PECO’s Experiences With Outage Management Systems

Posted by Utilimetrics on October 27, 2011

With AMI deployment comes the benefit of having real-time information. New and advanced outage management systems (OMS) collect automatic messages for alarms and outages. But as utility companies adjust to the advanced levels of maintenance that come with AMI, AMR and OMS, do they have field operations, dispatch teams and call centers ready for all of this data?

This article highlights the Outage Management Systems education session at Autovation 2011 Monday, Sept. 26.

DTE Energy has been working to integrate AMI into its OMS agenda, starting with internal workshops, which explain the benefits of OMS for utilities:

  • Obtain early outage detection.
  • Receive notification of momentaries.
  • Receive improved restoration information.
  • Send the right crew the first time.
  • Reduce okay on arrivals (OKA).
  • Prevent/ reduce customer callbacks.
  • Detect trouble behind trouble.
  • Improved customer satisfaction.
  • Reduce call center volume

Bob Sitkauskas, DTE Energy manager of AMI, reviewed DTE’s implementation of AMI data into their outage systems and the use of their Complex Event Processor (CEP).   Items to be considered in the implementation include:

  1. Collection Engine
  2. AMI/MDM
  3. Enterprise Service Bus
  4. Complex Event Processor (CEP)
  5. Outage Processor Interface (OPI)

The CEP successfully filtered out over 12,000 momentaries incorporating the “brother/ sister” concept in CEP where PONs received after 10 minutes are matched against PRNs (Power Restoration Notification) received on the same transformer in the previous two hours. If found, the late PONs are dropped to avoid creating an outage and an erroneous field visit

The advanced OMS also identifies problem meters in the field and intentional interruptions that were not properly reported by field personnel.

Although the integration has proven successful for DTE Energy, Sitkauskas outlined several challenges that come with interfacing to a legacy OMS. For example, the CEP could not handle the volume of PONs in a timely manner. In addition:

  • Work that was planned and scheduled through DTE’s customer service billing was not processed through the CEP and into OMS resulting in false outages.
  • Electricians were performing work for customers which required them to remove the meter, thus resulting in an outage.
  • Line crews were performing intentional interruptions without following established process of notifying Central Dispatch prior to an outage.
  • The Power Restoration Notification was received after five minutes resulting in an outage. A circuit breaker opened for 30 seconds and then closed resulting in an erroneous truck roll.

Sixty days after the initial installation, AMI was reinstalled in the OMS process flow. The installation consisted of creating additional CEP/ OPI filters, implementing OMS enhancements, reinforcing process with Central Dispatch and Field Operations. This implementation was restarted in phases, from station to station.

After working to re-tie the AMI to OMS, DTE Energy has been able to prevent false outage and erroneous truck runs, perform on demand reads in OMS, utilize AMI data for system outage data and analysis (SODA) reviews, utilize supervisory control and data acquisition (SCADA) data to validate sustained outage, and provide a daily status report.

“Start small,” recommended Sitkauskas. Prior to implementation, it’s important to test the installation.

Outage Management with AMR at PECO

PECO completed integration of its AMR and OMS systems in 2006, and eight years later, the Exelon Corp subsidiary that served the southeastern region of Pennsylvania revisited the journey to integrate and reviewed the benefits.

Kevin Cornish, Enspiria Solutions and Glenn Pritchard, PECO discussed the opportunities that have resulted from advanced OMS:

  • Improved customer satisfaction
  • Power status verification
  • Reliability analysis
  • Future outage prediction

Today, this system provides significant benefits daily, and specifically during storm restorations.

Pritchard explained that “pinging” is a valuable tool in outage verification. Pinging refers to querying the AMR network to determine if a meter has recently communicated. (PECO received roughly 125,000 pings annually). Whether you’re checking to see if a customer is truly out, the validity of a job packaged prior to dispatch or that a job is complete, pinging will save your company a lot of headaches, according to Pritchard.

If an automatic assessment outage lasts longer than 20 minutes, it is automatically pinged. If the ping responds with “Power On,” the outage is cancelled. In the instance that it indicates “Power Off,” a transformer analysis is performed to potentially escalate the event into a larger outage. PECO’s results show that since 2004, 64,205 pings were cancelled, 19,550 were not.

The outage is identified, dispatched and resolved before any customers notify PECO of the event.

As an example, Pritchard described a “Summer Slam” event in July, 2006. Thunderstorms caused nearly 400,000 power outages. Twelve hundred customer outage calls were cancelled without crew dispatch due to the meter pings. Seven hundred fifty customer calls were escalated into primary events via pings to neighboring customers’ meters. Conservative estimates indicate AMR helped save in excess of $200,000 in avoided labor costs during this storm alone.

With the success of the simple meter pinging application, several enhanced tools were developed:

  • Transformer analysis
  • Fuse analysis
  • Circuit analysis
  • Batch pinging

PECO’s AMR and OMS implementation project was a transition from concept to success, and now AMI. The project has created daily benefits well beyond the original estimates. The success of this project has advanced the metering industry as a whole by proving that meter-based outage management benefits are real.

If your utility has an OMS story to tell, please share your experiences (challenges and successes) with your peers. There are several ways you can do this:

  • Submit an abstract for Autovation 2012, Sept. 30-Oct. 3 in Long Beach, Calif. The Call for Speakers will open soon.
  • Provide a byline article for News Link or agree to be interviewed by News Link staff for an article. Or, submit a blog post. Contact Janice Greenberg.
  • Consider hosting a regional learning lab or participating in a webcast. Contact Debby Scheck.
  • Start a discussion on the Utilimetrics LinkedIn Group

We look forward to hearing from you!

Posted in Autovation, Meter Data Management, Post Deployment, Smart Grid, Smart Meters | Leave a Comment »

Beyond the Meter

Posted by Utilimetrics on October 25, 2011

Lessons Learned from Oncor and Portland General Electric

For many years attention has focused on pre-deployment and deployment of advanced metering systems (AMS).  As utilities enter the final stages of deployment they face new challenges as well as tremendous opportunities for integrating technology within the utility and improving operations. 

Autovation 2011 covered the entire utility technology lifecycle. This article highlights the Beyond the Meter education session Tuesday, Sept. 27.

Oncor, the sixth largest utility in the U.S. began deploying fully functional AMS in late 2009. About two million of Oncor’s 3.2 million meters have been deployed with full deployment scheduled for 2012. This fully integrated system provides:

  • 15-minute VEE (validate, edit, estimate) data to customers, REPs and ERCOT (for settlement).
  • 2-way transactions (disconnects/ reconnects, on-demand reads, etc.).
  • Secured connections and services to home area network (HAN) devices via ZigBee SEP 1.0 radio frequency interface.
  • A common Web portal for REP, customers and customer authorized 3rd parties (GUI and APIs)

So how does it all work?

“You need a robust testing environment,” said Mark Carpenter, CIO of Oncor, Texas’ largest regulated transmission and distribution utility that serves 7.5 million people statewide. Carpenter is also a newly-elected Utilimetrics board member.

“In theory,” he said, “it’s nice to specify exactly what you want before you actually start building it.” Carpenter explained that when inventing the system in a dynamic environment, clarification and modification contribute to a continuous and repetitive process.

“Remember, [AMS] is not just a meter reading system,” said Carpenter. “This is a SCADA system.”  And as Carpenter specified, “It’s extremely important to know and understand your market.” According to Carpenter, the Public Utility Commission of Texas-led Advanced Metering Implementation Team process has worked well in Texas.

When designing the system, Oncor adhered to solid design principles, factoring in security from the very beginning. In an effort to make the systems most efficient, Oncor:

  • Included performance monitoring;
  • Designed the system for ease of upgrade/ modification;
  • Planned for evolving CIM interface changes;
  • Considered multiple software/ FW changes in advance; and
  • Provided robust system synchronization

In the testing/ building phase, Carpenter said that the two most important things to consider are:

  • Establishing robust development and test environments will help to maintain strict version control; and
  • Maintaining strict version control

“Managing data is a big deal,” said Carpenter. He explains that utilities must be continuously monitoring these large integrated systems, which require “constant care and feeding.” Oncor generates about one terabyte per month, within the two million meters. “Don’t wait to establish data retention policies.”

And continual performance improvement is imperative: “It’s important to always remember to continually validate the end-to-end production system,” said Carpenter, “especially after modifications.”

As a utility, your main focus on customers and stakeholders is key: “There are stakeholders in this business,” says Carpenter. “This isn’t just about technology—it’s about everybody.”

Revenue Protection with Smart Meters

Eric Spack and Steve Sprague are leading a unique mission at Portland General Electric (PGE). The PGE team is taking revenue protection to the next level and beyond, utilizing new technology to work more efficiently.

A proactive approach to revenue protection utilizes alarms and generates leads based on interval data and primary metering. A major part of the team’s workload consists of confronting marijuana growers whose operations result in huge losses for the utility.

“We had 45 meters, from which we were missing about 1,400 kilowatt-hours,” said Sprague, “and at the end of the month, we had 20,000 kilowatts missing.” Utilities are facing huge losses from thefts like these, and at PGE, in a state where growing medical marijuana is legal, these operations are oftentimes extended beyond legal limits, and utilities are paying the price.

Over the last three years, AMI has dramatically improved energy recovery for PGE, from 32 Mwh in 2007 to 44 Mwh today and 75 percent of leads for the Lost Revenue Protection are generated by readers:

  • Tampers & Diversion;
  • Stopped/ Damaged meters;
  • Multiplier errors;
  • Lost meters;
  • Drug houses; and
  • Safety issues

These smart meters maintain current capability, allowing for real-time usability. What specifically can the meters do?

  • Tamper alarm: If the meter is pulled or removed, an alarm is generated with a date and timestamp.
  • Alarms scored: Leads are automatically prioritized.
  • Lead generator: All the leads are sent through a portal to Energy Recovery where they are reviewed and assigned to ERU Investigators or meter men.
  • Leads filtered: Without filters, alarms are useless and “we are filtering out 68 percent of the alarms and leads coming in.”
  • Filtering against: WMIS, Service Link, Outage, which avoids wasted time on wasted trips.
  • Added benefit: Not only generates leads but allows PGE to use the information on existing cases and leads from other sources.
  • KWH analytics: Low use, high use and zero use, it reads abnormal usage patterns

Once the norm is established, Point of Passage metering installations are screened to prevent from losses. Meter failures and alarms, however, do not cause the largest losses. The problem therein lies with theft and particularly, grow houses.

When marijuana grow operations overload transformers and connectors, it’s at the expense of PGE.  “Houses are not meant to be greenhouses,” said Sprague. The usage thefts are typically in the range of $1,500 to $2,500 per month, according to Sprague and Spack. Ninety percent of power thefts supporting grow operations are done by splicing in ahead of the meter.

“[At PGE] we have a 100 percent success rate in criminal grow diversion cases,” said Sprague. In 80 percent of those cases, money was recovered.

By learning how grow operations work, PGE adjusted to them and hunted them down, and by the time they were done, according to Sprague, they worked about 60 grow sites and billed roughly $620,000.

If your utility is near completion or has already completed deployment, please share your experiences (challenges and successes) with your peers.  There are several ways you can do this:

  • Submit an abstract for Autovation 2012, Sept. 30-Oct. 3 in Long Beach, Calif. The Call for Speakers will open soon.
  • Provide a byline article for News Link or agree to be interviewed by News Link staff for an article. Or, submit a blog post. Contact Janice Greenberg.
  • Consider hosting a regional learning lab or participating in a webcast. Contact Debby Scheck.
  • Start a discussion on the Utilimetrics LinkedIn Group

We look forward to hearing from you!

Posted in Autovation, Post Deployment, Revenue Protection, SCADA, Smart Grid, Smart Meters | Leave a Comment »

A Brilliant Path to the Smart Energy Home

Posted by Utilimetrics on October 17, 2011

Though the vision of a smart energy home is still in its formative stages, smart meters, demand response systems, energy efficiency programs and home-area networking technologies are being deployed in significant numbers by utilities.

So what’s next? Smart appliances, home energy management systems, electric vehicles and a greater variety of other systems and devices are likely to follow. How should utility companies prepare, and which devices will have the greatest impact on residential energy consumption? More importantly, which of these devices will consumers embrace?

The panelists at the Autovation 2011 Closing General Session, moderated by Clint Wheelock, founder and president of Pike Research, explored several visions of the future for residential smart energy applications, assessing the likely consumer adoption patterns and preferences, along with the business models holding the greatest promise. Panelists included:

  • Ron Zimmer, president and CEO of CABA Energy
  • Val Jensen, vice president, marketing and environmental programs for Commonwealth Edison
  • Ogi Kavazovic, vice president of strategy & marketing for Opower

Consumer Engagement

Smart customer engagement was the vanguard of discussion. “There’s no one person or one company that can possibly follow all of the permeations and changes, particularly today, in what’s happening in the connected home or in intelligent buildings,” said Ron Zimmer.

“We’re going to have to be more engaged, better engaged with the customers,” said Jenson. To date, there are approximately 27 million smart meters, and they’re not all the same.  Future projections are that by 2015, that number will be 65 million, which is 54% of the households in the U.S.

“Our analysis shows,” said Wheelock, “that the most compelling cases for smart grid…. center around the opportunity to improve the efficiency of utility grid operations, things that most customers don’t see.”

 “All customers want is for their lights to be on and for it to be cheap,” said Kavazovic, reiterating the sentiments of a utility executive. “When you think about the energy management space, it’s a really difficult value proposition for the consumer because in one way, what we are saying and essentially asking them to do is a lot more work and pay a lot more attention to continue receiving the same level of service they’ve been receiving for decades—And that’s tough.”

“Customers are not aware of problems they are trying to solve—from their perspective there is no problem,” said Kavazovic. “The utility…. Is almost the only entity that can play this role in terms of opening up the eyes of the customers, and educating them about what they don’t instinctively know.”

The Opportunity for Utilities

The good news is that there is quite a bit of wasted energy use throughout homes in this country, so while the rates may be low, there’s an opportunity to do much better. Roughly 20% of energy use within the home doesn’t actually contribute to any lifestyle improvements. “For example,” said Kavazovic, “people leave the AC on when nobody is home for three, 10 hours at a time.” That’s the opportunity when it comes to communicating change to customers.

More good news: The majority of the customers get the notion that they can do better when it comes to energy conservation. That’s the opportunity when it comes to the smart home.

Appealing to a Mass Market

Can we take these initial ideas and make them more pragmatic and cost-effective to appeal to the mass consumer? “From a classical economics perspective, if you look at the electricity consumer, they pay a fixed fee for electricity, but the value they get from that kilowatt-hour electricity far exceeds their price,” said Jensen.  “It’s something they call consumer surplus. The value of the product far exceeds what we’re charging them for. It seems there’s a lot of value out there yet to be captured by somebody that could figure out how to translate a new product that could capture that consumer surplus.”

We have to maximize the net value to customers. By implicating the best network service provider possible, you can maximize the value, explained Jensen.

Looking Ahead

What’s really exciting is that what is happening now in energy, on smart grid, in the world of smart meters, is truly helping shape that vision that people had 30-40 years ago in terms of what we could possibly expect to see in intelligent buildings.

With AMI deployment, we’re taking the first steps.

“The utility…. has a very important role to play in customer engagement,” said Kavazovic. “The utility has the data in terms of usage and a captive customer base to help bridge the gap between where they are today and where they need to be. The biggest problem between the consumer and the math is that the customers don’t know what they don’t know.”

When customer demand grows, the utility has an important role to play: The utility should provide a basic level of awareness and information to all customers using practical and existing channels of communication. Give them a full diagnosis of where they are today.

“The utility certainly does play an integral role in all of this from a communications perspective,” said Wheelock. When Pike Research investigated how customers expect to be informed about changes like these, the majority of the customers said they expect to hear that information from the utility, because that’s whom they communicate with. “Even a monthly bill is a form of communication,” said Wheelock.

Posted in Autovation, customer engagement, Electric Vehicles, Emerging Technology, Home Area Networks, Smart Grid | Leave a Comment »

Opening General Session Sets a Fantastic Tone for Autovation 2011

Posted by Utilimetrics on October 11, 2011

Change and innovation were at the forefront of several informative presentations at the Autovation Opening General Session Sept. 26 in Washington, DC.

AMI Deployment and Smart Metering Initiatives

Today, 26 states have some type of government regulations requiring implementation of smart meters. These projects demand significant cost and resources, and as William M. Gausman, senior vice president, strategic initiatives at Pepco Holdings, Inc. explained, are much more than meter-to-meter deployment projects.

“This is a comprehensive initiative,” said Gausman.  Pepco is implementing new technologies, including a 300,000 meter deployment in Delaware. He specified that looking at the deployment holistically from the very beginning, to how data is managed, to educating the customers, is the key to successful deployment.

Pepco received $170 million in federal funding to invest in the smart metering project, and $4 million from a smart grid workforce training provider to assist in re-training meter readers. Smart planning is “under the umbrella of change management,” said Gausman. “We have to change the way we operate internally, from the skills and technicians…. Which impacts our whole design…. To be able to accommodate the data that’s coming back from all of these devices.”

AMI deployments lead to significant change, and companies must be willing to accept this challenge. “What we’re faced with,” said Gausman, “is being able to take the new technology and past technologies and integrate the system… that is really based on designs that are 80 to 90 years old.”

The challenge is making these systems operate in a way that works, and as Gausman described, this is not a program where “you wake up one day and decide that you’re implementing smart meters,” he said.

Gausman said it took a couple of years to develop the concept, then achieve approval. “It is a long path, and without the proper planning, you cannot have a successful program,” he concluded

Measuring and Managing Energy Spending

Paul Feldman, past chairman of the Midwest ISO, displayed data readings from a 24-hour period to present how energy demand varies from hour-to-hour, and how retail price for energy doesn’t properly mirror the real price.

By using a movie generated by the grid operator of the Midwest ISO, Feldman took attendees on a tour of how prices swing during one day, fluctuating from a price point of $0 or less MW/h to over $200 per MW/h. 

“The constant price motivates how you actually use electricity across the day,” says Feldman.  “What the movie shows is the actual price is moving around more than any other commodity on earth, and certainly shows that retail price bares no practical relationship to the real price.”

As the movie played, in just a few hours the prices shifted dramatically from one region to the next.

Exciting Innovation at DC Water

George Hawkins, DC Water general manager is involved with many ambitious projects designed to enhance and improve the water utility.

A repeated theme during Hawkins’ presentation was his passion for conservation.  He concluded his presentation by stating, “It is my strong conviction that you all are at the forefront of protecting human civilization.”

The Opening General Session was also an opportunity for Utilimetrics to recognize industry and association leaders and supporters.

Autovation Sponsors and Exhibitors

Dozens of exhibitors packed the expo and provided information, product and service demonstrations and advice to attendees. Click here for a list of all exhibitors and links to their websites.

Autovation sponsors helped support Autovation and its activities. We are very grateful to our sponsors:

Diamond Sponsor: Itron

Gold Sponsors: Neptune, Sensus and SilverSpring Networks,

Silver Sponsors: Aclara, at&t, Elster and Trilliant

Bronze Sponsors: On-Ramp Wireless, Siemens and Sprint

Autovation Host Utilities
Autovation 2011 host utilities Pepco Holdings, Inc. and DC Water were thanked for their hospitality and assistance in planning Autovation. 

Utilimetrics Awards
Utilimetrics presented four awards during the Opening General Session:

Utilimetrics Excellence in Project Management Award

Presented to Hydro One and accepted by Rick Stevens, Hydro One vice president of asset management.

Utilimetrics Consumer Outreach Award

Presented to San Diego Gas & Electric (SDG&E) and accepted by Farrell Cox, SDG&E smart meter deployment manager.

Ed Malemezian Utility Professional Best Practices Award

Presented to Charles Kiely, assistant general manager of consumer services, DC Water.

Robert J. Green Distinguished Service Award

Presented to Steve Hadden, SAIC.

After the Opening General Session, hundreds of attendees made their way to education sessions, networking receptions and the expo where they had numerous opportunities to learn, share, explore, experience and celebrate this great industry.

Thanks to everyone who participated in Autovation 2011. Autovation 2012 is Sept. 30-Oct. 3 in Long Beach, Calif. Make plans now.

 

Posted in Autovation, Change Management, customer engagement, Deployment, Grants, Smart Grid, Smart Meters, Water utilities | Leave a Comment »

Naperville IL Smart Meter Deployment Campaign Hits a Home Run with Customers

Posted by Utilimetrics on September 8, 2011

The city of Naperville, Ill., earns high grades for the educational campaign it’s assembled to accompany the city’s smart meter deployment.

Customer engagement is one of the most critical aspects to consider when deploying a smart meter program. Without customer buy-in, deployments can go wrong quickly, or fail to get off the ground entirely.

The municipal utility of Naperville, Ill., hit a home run when it comes to customer engagement and education. Make that a grand slam. Naperville officials have deployed numerous programs to peak the interest of rate payers as the city prepares for a full rollout this November to its 57,000 customers, which includes 50,000 homeowners.

Naperville, a city of 145,000 residents located 30 minutes west of Chicago, has turned to innovative measures such as recruiting smart meter ambassadors to promote the Naperville Smart Grid Initiative, and measuring RF signals in an effort to alleviate concerns about health issues from the very low levels of RF emitted from smart meters.

According to Nadja P. Lalvani, community relations manager for the city of Naperville, outreach programs like these are groundbreaking when it comes to the electric utility industry.

Autovation attendees will learn first hand about the special customer engagement programs utilized by Naperville, as well as other details regarding its DOE grant and partnership. Dave Tilson, a senior manager with smart grid consultant West Monroe Partners, will join Lalvani at the podium. West Monroe assisted Naperville with its smart grid application, built the business case and also assists with community outreach.

Naperville has installed 80 meters out of a 200-meter pilot that will be completed by September. The city sought customer buy-in for the project immediately upon receiving its $11 million stimulus grant in 2009 and has created an interactive web site where customers can learn about the program.

The utility has relied heavily on three highly successful portions of their community outreach campaign.

  • Recruiting residential and business customers to act as smart meter ambassadors to spread the word about the initiative and its goals.
  • Deploying a Smart Grid Customer Bill of Rights.
  • Including thorough RF emission testing to assure the safety of smart meters

The ambassador program has been highly successful in utilizing an educated customer base to promote the program to fellow rate payers. So far, more than 30 customers have signed up.

“We’re very excited about this program and the benefits that will result,” says Lalvani. “As far as we can tell, no one else has implemented a program like this.”

Tilson notes that having customers promote the benefits of the program allows rate payers to form their own opinion of the smart meter initiative. “This is not just something coming from the city, it’s coming from customers and neighbors,” says Tilson. “There is a culture of not trusting the government, but that element is taken away by having this group of people advocate for us.”

The Smart Grid Customer Bill of Rights spells out the rights of customers in terms of the right to be informed, the right to privacy, and the right to data security.

When it comes to addressing safety concerns, Lalvani says that the city will measure RF emissions from smart meters and collector units, and then isolate those readings from whatever ambient RF emissions are present naturally in each neighborhood. The effort will cost about $25,000, mostly in hardware costs to purchase the measuring meter.

“This is being done in direct response to some concerns expressed by our residents on the safety of smart meters,” says Lalvani. “I have not heard of other utilities that have added this additional step to their projects. But we’ve been contacted by several municipal and investor-owned utilities that are interested to see the results of our testing.”

Naperville’s smart grid initiative benefits from the fact that its customers are very tech-savvy and interested in energy conservation efforts. For example, 25 percent of the utility’s customers have signed up for paperless billing, and 10 percent are enrolled in voluntary renewable energy programs. Additionally, 7 percent of cars registered in Naperville are hybrids.

“As we expected, our residents are very excited about this smart grid project, mainly because it is great for the environment and offers customers more options and tools when it comes to managing their electric usage,” says Lalvani.

Naperville’s city-owned utility was the only electric utility in Illinois to receive a stimulus grant from the American Recovery and Reinvestment Act, when the U.S. government distributed more than $3 billion to modernize the U.S. electric grid. The $11 million Naperville received represents 50 percent of the expenditure for the initiative.

The smart grid program is funded entirely by the municipality. When the program is fully deployed, the city will offer both flat rates and time-of-use rates, which will allow customers to save money on their energy bill by converting their energy usage to off-peak hours.

The presentation at Autovation is Tuesday, Sept. 27 at 3 p.m.

 

 

Posted in Autovation, customer engagement, Deployment, Education, Pre-Deployment, Project Management, Smart Grid, Smart Meters | 1 Comment »

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