Written by Sammy Roth, LA Times. Full article here.

Even before California’s rolling power outages threatened to become a full-on crisis in the last few days, long-standing critics of the state’s aggressive push into renewable energy were sharpening their knives.

Solar power, they said, had failed California, never mind that state officials never expected the sun to keep shining into the night.

The Wall Street Journal’s famously conservative editorial board was particularly gleeful Sunday, calling brief blackouts the previous two evenings “a warning to the rest of America about the risks of Green New Deal policies.” President Trump echoed the theme Tuesday, tweeting that the “Bernie/Biden/AOC Green New Deal plan would take California’s failed policies to every American!”

The president of California’s power grid operator, Stephen Berberich, dismissed those types of criticisms, saying renewable energy wasn’t to blame for the outages. The real problem, he said, was a statewide failure to assemble the right mix of energy sources for the completely predictable situation of electricity demand staying high after the sun goes down.

Although the exact causes of the blackouts are still up for debate — some critics have blamed the California Independent System Operator for poor management of energy markets — there’s no question that lining up enough power on hot summer evenings is one of the main challenges California must confront as it continues to phase out fossil fuels.

Fortunately, experts say, there are many possible clean energy solutions.

Nearly every approach has its drawbacks and detractors. But they all have their strengths too. Here are eight ideas for how the Golden State can keep the lights on while continuing to reduce planet-warming emissions.

Build lots of batteries

Lithium-ion batteries, which typically store about four hours’ worth of power, appear to be following the same rapidly declining cost curve as solar panels did over the last decade. Batteries can be charged with solar energy during the middle of the day, when California frequently generates more electricity than it can use, then distribute that stored power after the sun goes down.

Last year, the California Public Utilities Commission ordered utilities to add 3,300 megawatts of new power capacity, most of which is expected to be big batteries connected to the power grid. But that’s a small fraction of what the state may ultimately need.

An 2019 analysis from Lawrence Berkeley National Laboratory found California could get 90% of its electricity from climate-friendly resources by 2030 while reducing energy prices, even if the costs of solar power, wind power and batteries don’t decline as quickly as they have in recent years. Doing so would require about 25,000 megawatts of batteries, the analysis estimated.

“Storage is a total game-changer,” said Sonia Aggarwal, vice president of the research firm Energy Innovation.

Build lots of solar and wind too

Batteries are useful, but they don’t create energy; they only shift the time during which it’s available. That’s why many experts say California should go on a solar and wind plant building spree.

“Batteries won’t fix this alone,” Berberich, president of the Independent System Operator, said Monday. “In fact, solar and other renewables will have to be overbuilt to both charge the batteries and serve the load at the same time.”

This strategy could also help keep the lights on during cloudy or overcast days because an abundance of solar farms and rooftop panels can squeeze more juice out of the limited sunlight.

It helps that solar has gotten so cheap. In fact, a 2019 study found that intentionally “overbuilding” the solar fleet — and accepting it’ll sometimes need to be dialed down in the absence of sufficient demand — may be the best way to keep electricity prices low on a power grid dominated by renewable energy.

Go big on rooftop solar (and batteries)

California celebrated a milestone last year with the completion of its 1 millionth small solar system, primarily rooftop installations. Now clean energy advocates want the state to pursue 1 million small batteries.

The end goal is for networks of far-flung solar panels and storage systems to operate as “virtual power plants” that can help electric utilities meet demand, including during heat waves. Homes and businesses would sign up for programs in which they’d agree to occasionally discharge their batteries in unison when called upon, in exchange for financial compensation.

“It takes the Flex Alert and puts it on speed,” said Bernadette Del Chiaro, executive director of the California Solar and Storage Assn., a trade group. “It’s not just, ‘Turn off your lights and set your thermostat to 78.’ It’s do those things and give us 5 kilowatt-hours from your battery in your garage. And we’ll pay you for it.”

Several government-run energy providers in the San Francisco Bay Area have plans for one of the largest virtual power plants yet. But Del Chiaro said big utility companies and state regulators, including the Public Utilities Commission and the Independent System Operator, are biased toward traditional power plants and have mostly failed to embrace the concept.

People power

To understand the power of asking people to use less electricity, look no further than Monday. Grid officials warned that millions of Californians could lose power that evening, far worse than what had happened over the weekend. But the foretold blackouts never materialized.

It helped that temperatures dropped more than expected. But households also appear to have offered a robust response to statewide Flex Alerts. David Olsen, who chairs the Independent System Operator’s board of governors, pointed to a chart showing that electricity demand on the state’s main power grid Monday afternoon and evening was significantly lower than officials had forecast it would be.

“On low-carbon grids, demand will be as important as supply. We’re going to have to be able to manage demand, flexibly, to match the constantly changing output of wind and solar,” Olsen said in an email.

Going forward, experts say, it will be crucial to expand “demand response” programs that automate energy-saving measures and pay people to conserve, rather than depending on frantic pleas to the public. With the right technology, grid managers could cut huge amounts of demand during peak periods by directing pool pumps, electric vehicles, cooling systems and other devices to draw power from the grid — and potentially contribute power to the grid — at different times of day.

Expand the power grid

When Jerry Brown was governor, in 2018, he cared so much about an expanded power grid that he reportedly threatened to veto California’s 100% clean energy legislation if he didn’t get it. The idea is for California to link its electricity system with those of other western states, creating a coordinated system under a single governing body.

Critics, including the Sierra Club and labor unions, have argued the “big grid” concept would give red-state politicians too much sway over California’s energy supply and could lead to jobs building solar and wind farms getting shipped out of state.

Supporters counter that a coordinated regional grid would reduce the costs of phasing out fossil fuels, partly by giving California easier access to powerful winds that blow across the plains of New Mexico and Wyoming. A single western grid might also make it easier for power managers across the region to coordinate supplies during a heat wave like the one this week, without having to scramble to find available resources.

“We shouldn’t need to scramble,” said Ralph Cavanagh, co-director of the energy program at the Natural Resources Defense Council. “The scramble is itself evidence that we continue to suffer from an excessively fragmented system of grid management.”

Keep Diablo Canyon

In 2024, Pacific Gas & Electric plans to begin shutting down Diablo Canyon, the state’s last nuclear power plant, along the coast near San Luis Obispo. The Public Utilities Commission approved that plan in 2018, satisfying environmental groups and wary Californians who see nuclear as an inherently dangerous technology, especially after a high-profile meltdown in Japan a decade ago.

But Diablo Canyon’s supporters point out the facility still generates nearly 10% of the state’s electricity — and that power is carbon-free, meaning it doesn’t contribute to climate change. Although it may be possible to replace that power with other climate-friendly resources, as of yet there’s no plan for doing so.

Assemblyman Jordan Cunningham (R-Templeton), whose district includes San Luis Obispo, has a bill pending in the Legislature that would require state officials to count nuclear toward California’s target of 60% renewable electricity by 2030. Right now, nuclear is excluded from the mandate. Cunningham is hopeful the legislation would be an incentive for PG&E to change course.

“We’re experiencing [these blackouts] with Diablo Canyon still operational, producing 10% of our state’s electricity,” Cunningham said. “I can’t imagine what kind of situation we’re going to be in if there’s a heat wave in 2025 when Diablo is offline.”

Geothermal and offshore wind

There are two renewable energy technologies that have mostly gotten short shrift in California.

One is geothermal power — energy generated by tapping subterranean heat. The state already gets about 5% of its electricity from geothermal plants, but there hasn’t been a new facility built in nearly a decade, because of high upfront costs compared with solar and wind. But unlike solar and wind farms, geothermal plants can generate carbon-free electricity around the clock. Some energy providers have been giving the technology another look.

The other is offshore wind power. There are now two wind farms off the Atlantic Coast of the United States, but none out west, in part because of concerns raised by the military that offshore turbines could interfere with training exercises.

If those concerns can be resolved, offshore wind facilities could help California keep the lights on because the wind blows more consistently over the ocean than it does over land — including in the evening, and after the sun goes down.

“Resource diversity is good,” said Nancy Rader, executive director of the California Wind Energy Assn., an industry trade group. “Solar and wind together are much more reliable than a solar-heavy portfolio.”

Long-duration storage

Batteries aren’t the only way to store energy. Companies have developed technologies to store larger amounts of electricity for longer periods of time, including “pumped storage” systems that can pump water uphill when excess solar or wind energy is available, then let it flow downhill through turbines during high-demand periods. There are also “compressed air” storage systems that use surplus power to pack air into underground caverns, then release the air to turn turbines when electricity is needed.

Pumped storage projects can be controversial, especially near national parks and other protected areas, because they use large amounts of land and water. And compressed air systems typically require unique geology that is only found in certain places.

But both technologies offer large amounts of storage that could help sustain the grid through sweltering evenings, said Julia Prochnik, executive director of the Long Duration Energy Storage Assn. of California, a trade group. And there are other, more nascent long-duration storage technologies with minimal environmental footprints, such as flow batteries.

“We could have definitely delayed or shortened these blackouts,” Prochnik said.

What comes next

It’s a bitter irony of the climate crisis that rising temperatures are already raising demand for air conditioning, meaning even more clean energy resources will be needed to meet electricity demand. An analysis released last week by the nonprofit research group Climate Central projected that air conditioning use by U.S. homes will increase by 59% over the next 30 years.

And it’s not just California dealing with this challenge. Across the country, policymakers and activists working on climate change are focused on achieving net-zero greenhouse gas emissions by the middle of the century, which scientists say is needed to avoid the worst effects of global warming. Joe Biden says if he’s elected president, he would support a national goal of 100% climate-friendly electricity by 2035.

Whether Biden’s ambition is achievable may depend in great part on whether California, long a leader in the clean energy arena, takes the lead. But Gov. Gavin Newsom has been mostly focused on the immediate fallout from the COVID-19 pandemic in recent months, and critics say he’s allowed the state’s response to the climate crisis to take a backseat.

“We are continuing to focus on energy conservation during peak hours through this unprecedented heat wave, while at the same time looking into the causes that led to unacceptable rolling blackouts,” Vicky Waters, a spokeswoman for the governor, said in an email. “The administration is already working on longer-term solutions to make California’s energy system more resilient and reliable as the state shifts away from fossil fuel reliance to become carbon neutral in the next 25 years.”

What's needed is more solar-charged batteries, not more peaker plants

Some headlines and quotes from experts erroneously lay blame for the recent blackouts on solar energy. This couldn't be further from the truth. In fact, solar energy technologies did exactly what solar energy can be relied upon to do: generate tons of energy on hot sunny days! In fact, if not for all the solar power on the grid this past weekend, the outages would have likely lasted far longer and been more widespread.

The blame should be laid at the feet of the fossil fuel industry who had power plants fail to produce when they were most needed. The idea of building more peaker plants, or prolonging the life of the old plants, is a recipe for more energy outages in the months and years ahead. 

Moving beyond blame, what is really needed is more solar energy, not less, combined with more batteries to cover evening peak. The state is not doing enough on this front. 

The chart below based on August 14, 2020 CALISO data demonstrates this point.

August 14, 2020 Statewide Load With and Without Local Solar and Energy Storage

Since the last electricity crisis in 2001, California has built 9 gigawatts (GW) of local solar energy at over a million customer sites throughout the state. Without those systems helping lower peak demand on hot summer days, such as August 14, 2020, the strain on the state’s electric grid would have been much greater, as portrayed in the yellow line of actual total energy usage. The red line depicts CAISO’s visibility on electricity demand. Because the electricity generated by behind-the-meter solar systems is consumed entirely on local circuits, CAISO data does not reflect the contribution of local solar and storage to the state's energy picture. 
 
If California builds 3 GW of additional energy storage systems at customer locations that can be dispatched during grid shortages, it would further trim evening peak needs. This is shown in the figure as the dotted blue line. CALSSA estimates the state can achieve this level of build-out within the next five years with state policies.

What is interesting to those of us who were around for the previous rolling blackouts is that California’s electricity needs still peak in the late afternoon, around 3pm. All the solar we've installed on the grid via NEM interconnected systems has had a significant effect of lowering peak demand, and shifting it into the evening hours. Because CALISO only manages the centralized grid and no other energy regulator (CEC or CPUC) has stepped in to communicate the complete picture, the public is left thinking Californians use more electricity at 6pm than we do at 3pm. The problem with this is of course it gives the impression that solar energy is either not doing its job or it is irrelevant to today’s energy needs (or both!). Nothing could be further from the truth. We do, of course, have an evening peak which requires more energy storage, not more fossil plants. 

This is the message CALSSA is pushing out to the public, policy makers, and the media. Please follow us on on various social media platforms (Twitter, Facebook, LinkedIn) to share this content and spread the word. 

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This article also appeared as an op-ed in PV Magazine, you can view it here.

Solar thermal for district heating is on the rise worldwide. In Denmark, this market grew by about 170% in 2019 and other countries like China and Germany, primarily due to its improved cost-competitiveness. Market growth was also driven by the rising demand for industrial and agricultural applications. While residential water heating systems, the largest market sector, were under pressure in China and Central Europe from competing technologies, residential sales increased significantly in South Africa, Greece, Cyprus, and Brazil.

These are some findings from this year’s report, Solar Heat Worldwide 2020, published by the International Energy Agency’s Solar Heating and Cooling Technology Collaboration Programme (IEA SHC). The full report is available for free on the IEA SHC website.

“It is true that solar thermal is going through challenging times, but it is important to note that this is mainly due to declines in the Chinese market. But despite this trend, solar thermal is experiencing steady growth in two key sectors – district heating and industrial processes. Plus, solar heating and cooling technologies will always have a positive impact on climate protection,” states Daniel Mugnier, Chairman of the IEA SHC Programme. SHC systems in operation globally in 2019 totaled 479 GWth (684 million square meters) and saved 41.9 million tons of oil equivalent and avoided 135.1 million tons of CO2 emissions.

Shifting Global Markets

The market for new installations once again varied by country, with shrinking volumes in large markets like China, the USA, Germany, and Australia. Driven by the decline in new collector installations of about 8% in China, the worldwide market shrank approximately 6% in 2019 compared to 2018. On the flip side, Denmark reported another banner year with a 170% growth rate, followed by Cyprus, South Africa, Greece, Tunisia, Brazil, and India.

 Small-scale Solar Thermal Heating Systems

Systems that provide hot water and heating in residential and public buildings, as well as hotels and hospitals and public buildings, represent around 60% of the newly added systems. A key point to note is that significant market growth occurred mostly only in those countries with market sales dominated by small scale systems (in particular thermosiphon systems). The report shows that national social housing programs linked with the installation of solar water heating systems have a very successful impact on market development.

Large-scale Solar Systems

Megawatt installations are on the rise. At least 74 new large-scale (>350 kWth) systems were commissioned in 2019 to provide heat for district networks and large buildings. About 400 large solar thermal systems (>350 kWth; 500 m²) connected to district heating networks and in residential buildings were in operation at the end of 2019 with a total capacity equal to 1.62 GWth or 2.3 million m2.

As of early 2020, 800 solar process heat plants with a collector area of 1 million m2 were installed worldwide.

Two new applications to note in this sector are solar heated greenhouses, which include systems ranging from 126 m² collector area to just over 14,000 m² and solar heated gas pressure control systems, which use solar to heat natural gas at gas pressure regulation stations during pipeline transportation, an interesting niche application being used in several systems in Germany.

Heat and Electricity from the Same Roof

For the second time, Solar Heat Worldwide carried out a market survey among Photovoltaic-Thermal (PVT) collector manufacturers. A PVT system is unique in that it combines the production of both types of solar energy – solar heat and solar electricity, thus reaching higher yields per area. This application is particularly valuable when the available roof area is limited, but a climate-neutral energy supply is wanted.

The PVT market is gaining momentum in several European countries and represents 58% of the global installations, of which 41% are in France. Asia, excluding China, follows with 24% of the installations and then China with 11%. Total PVT capacity by the end of 2019 reached 606 MWth and the PV power was 208 MWpeak worldwide, an increase of 9% compared to the end of 2018.

Solar Heat Worldwide

First published in 2005, Solar Heat Worldwide 2020 provides market data on installed capacities, costs, and share of applications from 68 countries. The 86-page report includes a special focus on thermosiphon systems and overviews of different commercial applications. Solar Heat Worldwide has a solid reputation as a reference source for solar heating and cooling data among international organizations, including REN21 and International Renewable Energy Agency (IRENA). The study was again the main contributor to the solar heating and cooling chapters of REN21’s Renewable 2020 Global Status Report (GSR), one of the key policy adviser reports on renewables.

About  IEA SHC

The International Energy Agency, Solar Heating and Cooling Technology Collaboration Programme (IEA SHC) is an international research and information program on solar heating and cooling technologies. Over 150 experts from 19 countries, the European Commission, and six international organizations conduct collaborative research on a wide range of topics from solar envelope solutions to future storage tank concepts and the integration of large-scale solar fields in district heating and cooling networks. SHC is one of the oldest Technology Collaboration Programmes of the IEA, founded in 1977 and one of ten addressing a specific renewable energy source.

Contact information
IEA SHC Communications: communications@iea-shc.org, http://www.iea-shc.org

Free download – Solar Heat Worldwide 2020 & Key Messages

https://www.iea-shc.org/solar-heat-worldwide-2020

Sustainable energy is popular far from liberal strongholds, particularly among Central Valley farmers.

By MARTIN WISCKOL | mwisckol@scng.com | Orange County Register

Solar energy use throughout the state and the nation is expanding rapidly — and it’s not just liberal strongholds embracing the transition away from fossil fuels.

While Los Angeles produces the most total solar power nationwide, Bakersfield and Fresno generate more on a per person basis — and all three outproduce San Francisco, according to the new “Shining Cities 2020” study by Environment California.

“You’ll find the Central Valley comes in very strong in the number of people going solar as well as (in) the size of the systems,” said Bernadette Del Chiaro, executive director of the trade group California Solar & Storage Association. “This is because a lot of farmers go solar and they tend to build big systems.”

Also scoring high is Riverside, which produces the ninth most solar juice per person of the cities surveyed nationwide.

But even as it offers a report card on rankings, the “Shining Cities” study also outlines dramatic gains in solar use and makes a call for more public policies to promote solar use, including batteries to store solar energy so it’s available when the sun isn’t shining.

Key California landmarks have included the Million Solar Roofs Initiative, a goal signed by then-Gov. Arnold Schwarzenegger in 2006 and attained last year, and a mandate that all new homes in the state have solar panels beginning this year. The state’s target is 100% carbon-free electricity by 2045, with natural-gas power plants already being phased out.

Climate change and pollution are key drivers behind the push, but economics help too. Solar energy is now cheaper than that produced by fossil fuels — at least once the equipment and infrastructure is in place, according to David Hochschild, chairman of the California Energy Commission. Citing Bloomberg data, Hochschild said solar cost has fallen from 50 cents a kilowatt hour in 2000 to 2 cents a kilowatt hour today.

In California, solar energy went from 4% of state’s electricity grid in 2014 to 11% in 2018, according to the most recent data available. And that near-tripling doesn’t include “behind-the-meter” energy from rooftop solar panels directly used by homes, schools and businesses.

California’s hardly alone. Of the 57 cities annually surveyed nationwide since 2013 by Environment California, nearly 90% have more than doubled their solar capacity over that seven-year period, and 45% have more than quadrupled it.

By far the biggest user of solar, on a per-resident basis, is Honolulu.

“First, it’s an island, so climate change is a bigger issue,” said Dan Jacobson, state director of Environment California. “No. 2, energy is a lot more expensive. And, No. 3, you have companies seeing they can make money from it.”

Second in the national rankings is San Diego, followed by Albuquerque, San Jose and Burlington. Also represented in the top 15 are San Antonio, Salt Lake City, Indianapolis and New Orleans.

More rankings

If you want to know how your city is doing, you may need to look beyond the “Shining Cities” study.

That report looked at just nine of California’s largest cities, one for each of nine geographical areas. But a statewide ranking of more than 1,100 cities and unincorporated areas has been compiled by the California Solar & Storage Association.

The association’s list differs from “Shining Cities” in two key ways. “Shining Cities” includes solar energy produced directly by utilities as well as behind-the-meter solar panels on homes, schools and businesses. The association’s list only includes behind-the-meter solar electricity used directly by the owner of the panels, and it ranks cities according to how many roofs have solar.

San Diego, Los Angeles, Bakersfield and Fresno are at the top of the list with the most solar rooftops.

In Los Angeles County, top cities also include Lancaster (ranked 15th), Brentwood (26th), Long Beach (28th) and Palmdale.

In Riverside County, Corona tops the list at No. 12, followed by Murrieta (14th), Temecula (18th), Riverside (34th) and Lake Elsinore (35th).

In San Bernardino County, Fontana is at the top at No. 16, followed by San Bernardino (36th), Victorville (54th), Apple Valley (57th) and Rancho Cucamonga (68th).

In Orange County, Irvine leads off at No. 26, followed by Santa Ana (62nd), Huntington Beach (70th), Mission Viejo (76th) and Orange (78th).

In a state often seen as unfriendly to business, regulations are generally favorable for solar, according to experts. But cities can vary in how welcoming they — and their utility companies — are to rooftop installations.

“In cities like San Diego, the permitting is very easy,” Jacobson said. “In other cities, there are horror stories about homeowners waiting for months.”

Push for batteries

Before the COVID-19 pandemic, the solar industry in California employed 74,000 people — more than the five biggest utilities combined, according to Del Chiaro. But like many industries, solar recently has taken a big hit: a 21% loss of jobs in March and April.

So Del Chiaro has added job recovery as a component in her pitch to encourage more solar generation and solar batteries. That’s on top of consumer saving, energy resiliency and clean air.

One solar initiative her trade group is pushing for is a coronavirus-safe, “no touch” permitting process that would allow homeowners and businesses to apply online and allow virtual inspection tours to be conducted via live phone video once the units are installed. The group also wants to make it easier to connect solar power with electrical utilities for putting energy into the electrical grid, and it wants protections against taxes targeting solar energy.

Additionally, Jacobson, Del Chiaro and other solar advocates are pushing for an initiative that would result in a million solar batteries, a development that would help minimize the need to use natural gas when the sun isn’t shining. Specific measures Del Chiaro’s group wants to see include  expanding the federal tax credit, state help in installing storage at 2,000 schools, and a consumer-rebate program similar to that which helped jump start solar panel usage.

“We’ve got a good product,” Del Chiaro said. “The lithium ion batteries have gotten a lot better because of the electric car market and the innovation happening there. We just need to ramp up production and, to do that, we need demand.”

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