New flexible demand appliance standards are “coming down the road” in California for water heaters, behind-the-meter batteries and electric vehicle chargers, said California Energy Commission (CEC) Commissioner Andrew McAllister at a CalFlexHub symposium.
CalFlexHub is a proving ground for flexible load technologies at Berkeley Lab, funded by the CEC, that is evaluating 12 technologies for flexible demand, in collaboration with manufacturers.
After setting flexible demand appliance standards for pool controls last month, the CEC expects to open a dialogue on a new appliance category every six months, said a spokesperson.
McAllister expects that a rulemaking for electric water heaters will be “in full swing” by late 2024. Ten of the largest heat pump manufacturers have committed to help California reach its goal of 6 million heat pumps for water or space heating by 2030, he said.
California’s standards for pool controls, which McAllister said have created a template for future standards, will require new equipment to default to flexible demand, yet allow the customer to override that setting. Maintaining the default flexible demand setting will save customers money on their electric bills, as the appliance will operate more often on lower-cost renewable generation.
Mary Ann Piette, who leads CalFlexHub, said one concern is whether that lower cost of operation will motivate adoption of flexible demand appliances. She suggested that adding an emergency demand response capability with customer compensation would “provide the most value.”
Piette said “We believe that flexible load in many cases will be more cost-effective than installing a battery.” She also noted that CalFlexHub is exploring heat pumps with thermal storage.
As the CEC sets standards for appliances that can respond to flexible rates—such as lower rates when renewable generation is high—the California Public Utilities Commission is working with the state’s utilities to develop flexible rates. The CPUC aims for the state’s investor-owned utilities to offer hourly marginal cost-based rates and programs by January 2027, according to a slide that McAllister presented.
McAllister said that for California to reach its goal of 7 GW of load flexibility, the state aims to combine 3 GW of price-responsive demand from appliances with 4 GW of traditional demand response, in which some customers “drop load” during the 100 highest-demand hours of the year.
Global interest
“People are so excited globally about what we’re doing with load flex,” McAllister said. “I mean, the word is out, and the light bulb goes on.” People decide, he said, “Of course we’re doing that; that makes sense, and we really want to learn from what California is doing.”
The CEC foresees a future that goes beyond flexible demand to “transactive energy.” While flexible demand involves one-way communication of rates from utilities, through a state database known as MIDAS, to appliances, transactive energy would involve appliances with two-way communication capability, enabling electric vehicles, for example, to send energy stored in the battery back to the grid.
Noting that California’s grid is set to become carbon-free by 2045, McAllister said that in the near term, “load flex is going to help decarbonize,” and over the long term, “load flex is going to help us optimally run the grid when it is 100% carbon-free.”
California’s work on flexible rates builds on analytical support provided by a white paper by the CPUC energy division staff and an analysis of potential cost savings from the Pacific Northwest National Laboratory.
Recordings and slides from the CalFlexHub symposium are expected to be made available later this month, said a Berkeley Lab spokesperson.
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Great ideas here. How about giving incentives for all-in-one clothes washer/dryer units that run automatically from 10:00 AM until 3:00 PM once set and loaded with laundry since no one needs to be present to move the wash load into the separate electric dryer. Most laundry is done by working people when they are home from 5:00 PM to 9:00 PM making the loads on the grid higher because they have to move the clothes in the middle of the job. Also heat exchanger hot water heaters could be programed to run only on heat exchanger operation and not on “Boost” from 4:00 PM to 9:00 PM. Those that like a long hot shower will find out quickly that showering before 4:00 PM or after 9:00 PM will give them a steady temperature. it will also save them money on time-of-day billing. Inductive stove could also be programed to only run on Two burners and not four burners between 4:00 PM and 9:00 PM so meals will be planned ahead. Programable three stage heat exchanger splits can be run on the lowest usage setting from 4:00 PM to 9:00 PM unless a manual override is pushed so the units will save energy when no one is at home. EV charging units could also be programmed to not charge from 4:00 PM to 9:00 PM unless a bypass button is pushed and then only runs for 20 minutes to give just enough power to get to the store and back.