Navigant Research Blog

Big Retailers Boost Home Energy Management

— October 28, 2014

Home energy management solutions have struggled to gain much traction beyond early adopters and consumers enrolled in a sprinkling of utility programs for demand response.  That could be changing as more retailers push connected home devices that have advanced energy controls as a component.

Best Buy, for example, has been selling a handful of smart home products for several years, and for a time it tested dedicated home energy management sections in three of its locations.  But now the electronics retailer plans to set up new connected home departments within about 400 of its 1,400 stores.  These new sections are expected to show up around Thanksgiving, and will be staffed with blue-shirted experts who will be trained to offer smart home solutions for homeowners.  Products on the energy side will include smart thermostats from Nest and Honeywell and smart lighting controls from Philips and Belkin, ranging in price from about $50 to $350.

Out on the Floor

Beyond hardware products, Best Buy will also highlight services for the connected home from a variety of providers, including Comcast, DirecTV, Time Warner, ADT, and others that can tie the hardware to services geared toward automation, security, and energy management.  This could be a key to wider adoption of home energy management, since many people have not heard much about energy management services.

Other retailers, such as Walmart, Lowe’s, and Home Depot, offer similar products and services for increased home automation, security, and energy management.  Office supply giant Staples now offers Connect, which combines a hub with a single mobile app to connect door locks, thermostats, and lighting for homeowners or small business owners.

One of the main inhibitors to growth for home energy management products and services has been a lack of awareness among consumers, as noted in Navigant Research’s Home Energy Management report.  This current wave of retailers promoting a variety of solutions to create a more intelligent home should help increase customer knowledge and drive adoption.  It will likely take a couple of more years to reach widespread consumer adoption, but this current retail push is a start.

 

What Robots Can Teach Us about Energy Management

— October 14, 2014

The Tennessee Valley Authority (TVA) has learned some valuable lessons from a study involving the use of robotics to simulate human behavior.  The results show that dramatic improvements in efficiency can be obtained with a combination of new technology and a focus on energy efficient construction techniques.

The 5-year Campbell Creek project involved three similar Knoxville, Tennessee-area homes.  Each has the same floor plan, with two stories, and measures between 2,400 and 2,500 square feet.  Here is how they differ:

  • Builder House: This was the control home, or benchmark, built to represent a typical residence constructed for the Tennessee Valley and built to local building codes.
  • Retrofit House: This house was essentially the Builder House, but retrofitted with energy efficiency technologies, such as more energy efficient windows, ENERGY STAR appliances, compact fluorescent lights, sealed attic with foam insulation, and high efficiency heat pumps.
  • High Performance House: This house was built using the latest available construction technologies aimed at energy efficiency, as well as PV panels and solar water heating to help make it a near zero energy house.

The TVA then outfitted each home with robotic devices to mimic human behavior.  For example, a robotic arm on the refrigerator in each home would open the door simultaneously at 3:00 in the afternoon, when kids typically arrive home from school.  Each home had the same automated systems to turn on lights, televisions, appliances, and showers.  The homes also had a device that replicates how a person’s body heat affects the temperature and humidity of a room.  In addition, each home had hundreds of sensors installed to monitor energy consumption of all the subsystems.

Results and Lessons

The Builder House had a utility bill of about $1,600 a year, the Retrofit about $1,000, and the High Performance was slightly more than $400, according to project managers.  Based on the Home Energy Rating System (HERS) Index, the homes scored as follows: Builder House, 101; Retrofit House, 68; and High Performance House, 34 (a lower score is better).

The TVA project was conducted with partners Oak Ridge National Laboratory (ORNL) and Electric Power Research Institute (EPRI).  Near real-time data from the project as well as archived results are available at the EPRI web site.

These are not exactly startling results, but this intriguing study has valuable lessons for all stakeholders – utilities, homebuilders, and homeowners.  One main lesson is that doing basic things like tightening a home’s envelope with enhanced insulation and energy efficient windows will have lasting benefits.  Also, investing in the most efficient HVAC and water heating systems one can afford will pay off in energy savings.  The manager of the project, David Dinse, who has just retired, told me the project has generated quite useful data – so why aren’t more builders and utilities taking these lessons and running with them?

 

French Smart Meter Rollout Gains Momentum

— October 7, 2014

There is finally clarity on which companies will supply the devices for France’s rollout of smart meters.  France’s electricity distribution company, Electricité Réseau Distribution France (ERDF), has chosen six firms to supply the state-controlled utility with the first 3 million of the meters known as Linky: Landis+Gyr, Itron, Elster, SAGEMCOM, Ziv, and Maec.

By the year 2020, ERDF intends to install 35 million new smart meters at an estimated total cost of $6.5 billion.  ERDF has been piloting smart meters since 2010, when approximately 300,000 meters were installed in the Tours and Lyon regions.  The Linky meters use a power line communications (PLC) technology called G3-PLC.  Among the meter vendors that took part in the pilot project was Slovenia-based Iskraemeco, though it was not selected to provide meters for the initial 3 million meter deployment.

Europe Ascendant

The program is expected to begin in the third quarter of 2015 and conclude at the end of 2016.  ERDF has not said when the next phase of meters will begin, but presumably vendor selection will take place within the next year.   The move by ERDF to choose multiple meter suppliers was not unexpected and is similar to what Spanish utility Iberdrola did 2 years ago when it selected seven different suppliers for the initial rollout following its 2010 pilot project.

The timing of the next big phase of France’s smart meter rollout coincides with the expected start of a wide-scale deployment of smart meters in Great Britain in the fall of 2015.  Utilities in Great Britain are to begin installing the meters in earnest in the fall of 2015, with a total of 53 million smart electric and natural gas meters to be in place by the end of 2020.

As noted in Navigant Research’s latest Smart Meters report, the expected large rollouts in France and Great Britain will make Europe the new focal point for the smart metering industry, as shipments have tapered off in North America since nearly all of the federal stimulus money that fueled deployments has been spent.

 

New Study of EcoFactor Home Energy Management Offering Sparks Responses

— September 16, 2014

Cloud-based home energy management (HEM) startup EcoFactor is touting data from a new independent study showing that its system delivers significant energy savings for residential customers enrolled in Nevada utility NV Energy’s mPowered program.  The analysis, conducted by ADM, found that in the summer of 2013, homes with EcoFactor-connected thermostats reduced electricity consumption by an average of 94.68 kWh per month, or 5.5%.

The study also showed that EcoFactor reduced peak load by 2.7 kW per thermostat, more than twice the load shed claimed by Google’s Nest Labs (1.18 kW per device) and 90 times the load shed Opower estimates it can achieve through its behavioral approach (0.044 kW).

It’s important to note that NV Energy’s mPowered program, which at that time had 14,500 participating customers, was (and still is) all EcoFactor – with no other competitors involved.  So there is no head-to-head comparison with Nest devices, for instance, nor with Opower’s approach.

The closest comparison between EcoFactor and a competitor involved a Carrier two-way communicating thermostat for residential customers.  In terms of per-device hourly reduction, EcoFactor’s thermostats came out on top, with a peak reduction of 2.37 kW.  Carrier devices followed closely at 2.33 kW.

EcoFactor’s approach is not limited to demand response (DR) events and electricity.  By persistently working in the background (similar to Nest), it can also help a homeowner reduce natural gas consumption via the thermostat, as the study points out.  The study’s authors calculated the expected natural gas savings from EcoFactor’s platform during months in Las Vegas when space heating would occur and found that they would amount to 18 therms per year.  When combined with the cooling reductions, about 635 kWh, the expected annual savings for an EcoFactor home was about $98.

The Competition Reacts

In a blog post, Yoky Matsuoka, Nest Labs’ vice president of technology, responded, “If we take a look at the hottest days in Austin, Texas (where we did a study of Nest homes last year) and compare them to similarly hot days for EcoFactor customers in Nevada, Nest customers and EcoFactor customers both reduced their peak energy use by about 1.3 kW of energy.”  This competition is healthy for the HEM sector.

It’s also helpful to contrast the EcoFactor-mPowered results with what Oklahoma Gas and Electric (OG&E) has reported from a similar smart thermostat-DR program called SmartHours.  Using Energate thermostats and the Silver Spring Networks software platform, the average participating OG&E customer saved about $191, or approximately 15%, off an annual bill in 2012.  That program has not undergone an independent study like NV Energy’s, but it shows that results can vary.

What this independent study of NV Energy’s programs shows is the need for common standards on which to evaluate HEM programs and devices, something we’ve pointed out in Navigant Research’s reports, Home Energy Management and Smart Thermostats.  Standardizing the measurement process across more utilities will help eliminate some of the confusion around the data and give key stakeholders – utilities, HEM vendors, and residential customers – more insight into what really lowers energy consumption and costs.

Lauren Callaway co-authored this blog.

 

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