The project developers will use “first-of-its-kind” emerging solar panel technology

Bifacial Solar Panels

Bi-facial solar modules on a tracker/ Bi-facial modules offer many advantages over traditional solar panels. Power can be produced from both sides of a bi-facial module, increasing total energy generation. They’re often more durable because both sides are UV resistant, and potential-induced degradation (PID) concerns are reduced when the bi-facial module is frameless.

The Canadian federal government has announced funding for the construction of a new solar power project in southeastern Alberta, specifically near Suffield.

Suffield is a hamlet in southern Alberta located roughly 250 kilometers east of Calgary along the Trans-Canada Highway.

The project, now called “The Suffield Solar Project”, will be developed and owned by Canadian Solar and its subsidiary, Suffield Solar LP. .

The project is projected to employ about 250 people during construction and will be a first to demonstrate the potential in using two-sided or bi-facial solar photovoltaic panels at a large-scale in Canada.

For some insight, bi-facial solar panel technology is fairly new to the market.

Unlike a traditional solar panel that captures light on one surface, this emerging panel technology generates more solar energy by capturing sunlight on both the top and the bottom surfaces.

Even better, this project will add trackers—which means the panels will continuously follow the sun through the sky from sunrise to sunset, guaranteeing higher power production.

When complete, the project will generate 23 MW, which is estimated to power approximately 7,400 homes each year.

Funding for the project is being provided through Natural Resources Canada’s Emerging Renewable Power Program which has committed $15.3 million over two years for the $49-million solar project.

Source: PvBuzz Media

I started covering the solar energy industry seriously in 2009. It seemed like a hopping, exciting time in the industry — growth was exploding. I remember one early story in which readers admonished me a little because I put “Solar Power Exploding” in a headline, and they thought I was referring to genuine explosions. In 2019, 2009 and 2010 progress looks like anthills.

Scrolling back through our What Changed archives, below is a lengthy rundown of notable changes within the solar energy and energy storage industries in 2018. I’m sure I missed some of them — drop a note in the comments if you have a favorite I skipped. I’m also sure this post is far too long for the casual reader — do your best. Additionally, stay tuned for record-breaking progress in 2019.

Policies

Nevada raised its renewable electricity standard (requirement) from 15% by 2025 to 50% by 2030.

California approved new standards requiring that solar panels be installed on the roofs of nearly all new homes, condos, and apartment buildings by 2020.

California approved the “Million Solar Roofs of Energy Storage” bill.

California passed a law requiring 100% clean energy by 2045.

The California Public Utilities Commission (CPUC) kicked off a $1 billion Solar on Multifamily Affordable Housing (SOMAH) program — $100 million a year for solar power on multifamily housing buildings.

Illinois Governor Rauner signed two bills to support solar development conditions for Illinois farmers and rural areas, bills projected to generate $250–350 million in tax revenue.

New York started becoming much more of a solar power player in the United States, with 26 new large-scale solar power plants approved for development, a community solar push, and broader efforts to stimulate the industry.

Washington, DC, passed a 100% renewable energy bill.

It was revealed the US Department of Energy (DOE) “may be sitting on approximately $600 million in Fiscal Year 2018 (FY18) funding for clean energy research and development (R&D), despite clear and strong congressional guidance to invest public dollars in new technologies and innovation that will pave the way for America to be a leader in a clean energy future.”

The DOE awarded research grants to several universities to develop new solar integration technology.

The DOE also issued $72 million to efforts at next-gen concentrated solar power (CSP).

The Trump administration awarded $46 million for solar power & grid resiliency progress.

Trump tariffs on Chinese solar panel tariffs got implemented in the first quarter of 2018, based on an obscureabsurdirrationalcounterproductive law no one treated as serious. Minor backlash outside of the cleantech world and in the major media almost totally missed the story —  which is that more US jobs will be lost than saved or created. Did that poor reporting and lack of attention empower Trump to implement steel tariffs as well?

100% clean energy

10 US cities modeled how to get the US to 100% clean energy.

The Australian Renewable Energy Agency invested in a 5 gigawatt wind & solar energy push.

Moreland, Australia, launched a solar power program for renters and landlords.

Engie announced it had “signed a 50-year strategic alliance with the city of Greater Springfield in Queensland, Australia, to help transition it to being a zero net energy city by 2038.”

Victoria, an Australian state, announced it would increase its renewable energy target to 50% by 2030. Yep, that’s the same as Nevada’s new target.

France announced that it would “close the country’s remaining four coal-fired power plants by 2022 and 14 of the country’s 900 MW first-generation nuclear reactors by 2035.” Naturally, they’d be replaced by wind and solar power plants.

Ireland approved its long-awaited Renewable Electricity Support Scheme (RESS) and announced that it intends to deliver the first RESS auction sometime in 2019.

Austrian Federal Railways (ÖBB) launched a pilot project powering its trains with solar power.

The European Union removed trade barriers on Chinese solar panels.

The European Union passed a new legally binding EU-wide target of 32% renewable energy by 2030, which is expected to result in strong small-scale solar growth in the EU, as well as more large solar projects.

The World Bank Group announced “a new set of climate targets for 2021–25 and that it was doubling its current five-year investments to around $200 billion in support of countries taking ambitious climate action.”

The Green Climate Fund approved $1 billion for climate action in developing countries.

India announced $1 billion in assistance for solar power projects in several African countries.

Japan’s TEPCO announced it is aiming to develop 6–7 GW of renewable power to move away from nuclear.

South Africa replaced nuclear energy with more renewables in a new national energy plan.

IRENA teamed up with Southeast Asian countries to scale up renewables in the region.

A coalition made up of 26 Caribbean nations, more than 40 private sector giants, 8-time Olympic gold medal winner Usain Bolt, and global music superstar Sean Paul combined to launch the $1 billion Caribbean Climate-Smart Accelerator, which aims to make the region the first climate-smart zone in the world.

CleanTechnica launched a new Clean Revolution political campaign to help get cleantech leaders elected to political office.

Rooftop Solar Companies

Azuri Technologies and Unilever Kenya started bringing pay-as-you-go solar home systems to off-grid homes in Kenya.

Kazang Solar was awarded $1.6 million from the Africa Enterprise Challenge Fund to provide solar home lighting to 7,000 mostly off-grid homes in Zambia.

Kingo, backed in part by Leonardo DiCaprio, aims to bring small-scale solar + storage to 500 million people in Latin America.

Nissan brought “all-in-one” solar + storage to the UK market for EV drivers who want to go a step further — or non-EV drivers, for that matter. Building on its EV leadership, it also started offering energy storage from 2nd life batteries.

Panasonic & SolarEdge announced a new power-optimized solar panel that speeds up installation times.

Panasonic Eco Solutions started “aggressively building out its residential solar installer network on a national basis [in the US], seeking to compete more evenly with the likes of Tesla, Sunrun, SunPower, Vivint, and others.”

Pika Energy Storage unveiled its upgradable residential energy storage solution.

Real Goods Solar received $127 million in pre-orders for its solar shingles, which are based on a technology bought from Dow Chemical. (We reported on Dow solar shingles all the way back in 2009, 2011, and 2012.)

Simpliphi Power, another California-based energy storage company, cut its prices after seeing a tripling of its sales.

SolarEdge announced that it would acquire solar energy storage firm Kokam.

sonnen & tiko Energy Solutions received pre-qualification from the transmission system operator for the grid in Germany, TenneT, to leverage its existing distributed network of energy storage systems pooled into a virtual power plant to provide primary balancing power.

sonnen launched a second sonnenCommunity in the US, this time in Manatee County, Florida (which is actually the county I live in).

sonnen launched the EcoLinx for residential energy management.

sonnen pulled in €60 million ($70 million) in a new round of investment, with the financial influx led by Royal Dutch Shell. “The investment will help it to develop its U.S. and Australian solar + storage market share.”

SunExchange & Powerhive partnered to bring solar power to 175,000 Kenyans.

Sunflare brought a new solar shingle to market.

Sunnova introduced a solar + storage offering, SunSafe, in the US. SunSafe uses the Tesla Powerwall 2 for the storage.

Sunnova also brought solar leasing & loans into Illinois.

Sunnova brought its new solar+storage offering to its home state of Texas.

Sunnova also rolled out residential solar insurance nationwide.

SunPower offered National Parks Conservation Association members a $500 cash rebate + a donation for the organization when they go solar before July 2019.

SunPower unleashed a new solar + storage offering.

Sunrun was ranked the leading residential solar-plus-storage vendor.

Sunrun expanded its solar as a service and energy storage offerings in Florida.

Tesla slashed its home solar prices 10–20% thanks to cost benefits from moving sales into Tesla stores.

Tesla also announced that its Powerwall energy storage system is getting new features … at a higher cost.

Tesla laid off 9% of its staff, many of them in the solar & energy storage side of the business, including a dozen SolarCity facilities across 9 states.

Tesla & the City of Taipei, Taiwan joined forces “to establish a new 1.5 hectare hub to help local startups find footing and get training for new energy ventures in the city.”

Western Australia, another Australian state, started introducing a Tesla, Synergy, + Western Power “PowerBank” community storage system to residents in Meadow Springs who can take part in the trial.

Vivint Solar started offering solar leasing in the Sunshine State, Florida, and Illinois.

Vivint Solar reached 1 gigawatt of rooftop solar power capacity in the US.

Projects

In Connecticut, solar power showed its muscle by winning 9 out of 12 auction contracts. Solar has become the most competitive option for new electricity even in Connecticut!

California utilities sped up replacements of natural gas peaker plants with large battery storage units.

California utility PG&E proposed a massive 730 MWh, 567.5 MW battery storage project.

SDG&E, another California utility, approved energy storage projects that double its utility-scale energy storage capacity.

California got its first floating solar power system.

ACWA Power won a contract for a 250 megawatt solar PV power plant in India at an extremely low bid of 2.4¢/kWh, a record low in the country.

ACWA Power also won a solar power plant contract in United Arab Emirates (UAE) for 2.4¢/kWh, an apparent world record at the time.

A record-low US solar power price was also set, 2.155¢ per kWh (with an escalator) for a project in Nevada. That was right after a record-low US solar price bid in Arizona.

Enel Green Power reached 1 gigawatt of solar power in Mexico.

Enel announced an intention to invest €10.6 billion into 11.6 gigawatts of renewable energy in the next 3 years.

Portugal indicated it will be getting 31 new solar power plants totaling 1 GW of capacity by 2021.

Indian coal mining companies announced plans for $1.6 billion of solar investment.

Global Infrastructure Partners acquired a 4.7 gigawatt SunPower solar project pipeline.

World Bank committed $1 billion to battery storage in developing countries.

Capital Dynamics closed $1.2 billion of new investment in a clean energy infrastructure fund.

Macquarie Capital’s Green Investment Group, which used to be called the UK Government’s Green Investment Bank, acquired the solar development portfolio (including staff) from Conergy Asia & ME.

India announced plans for a 5 gigawatt solar park. Yes, 5 gigawatts! The solar park is to be located in Gujarat.

A few months later, India announced plans for a 25 gigawatt solar power park. Yes, 25 gigawatts! The solar park is to be located in Jammu & Kashmir.

Vestas started testing a solar + wind hybrid project in Spain.

ACWA Power became 1st utility anywhere in world to adopt blockchain currency SolarCoin.

WePower raised $40 million for blockchain-based Green Energy Trading, the largest ever ICO in the energy sector.

SkyPower “announced a landmark foreign direct investment of $1.3 billion into Uzbekistan to build 1 gigawatt (GW) of solar capacity.”

Tesla debuted its Grid Controller in Samoa as part of the effort there to bring the country to 100% renewables.

Greenpeace Energy, a Germany electric utility, has “proposed a takeover bid for the lignite open-cast mines and power plants currently belonging to German electric utilities company RWE, to shut them down by 2025.” Those power plants would be replaced with wind and solar power plants.

Research

Floating solar could supply 14% of the USA’s electricity needs, according to a report published by the US Department of Energy’s National Renewable Energy Laboratory.

BNEF found that “unsubsidized solar and onshore wind [have] become the cheapest source of new bulk power in all major economies except Japan.”

Lazard published its Levelized Cost of Energy 12.0 report, showing solar power’s extreme cost competitiveness even without subsidies. (But wind power is still cheaper, on average.)

US electricity from renewables surpassed US electricity from nuclear for the first time.

The Institute for Local Self Reliance released a report showing where “distributed solar” is leading in the US.

IHS predicted that the global solar industry will reach 123 GW of new capacity installed in 2019, a record-breaking forecast indicative of all the progress in the solar energy industry.

BNEF estimates that the world passed 1 terawatt (1,000 gigawatts) of globally installed renewable energy capacity sometime in June 2018.

Stanford mapped approximately every solar roof in the US and found 1.47 million.

Environment America indicated that new home solar laws and loans could triple the country’s solar base by 2045.

Indiana is getting more new jobs from renewable energy than any other sector, according to research from Clean Energy Trust and the national, nonpartisan business group E2.

A study found that US solar tariffs will cost customers $236.5 million.

Another study found that US open market solar funding rose $800 million during the first 3 quarters of 2018.

RE100 members increased their use of renewable energy 41% from 2016 to 2017, with 37 new companies “bringing the total up to 155 companies creating demand for a phenomenal 188 terawatt-hours of renewable power each year.”

Research found that home solar loans have passed up third-party financing for rooftop solar systems in 2018. Last year, loans passed up cash to become the second most popular option to pay for home solar power systems.

A new report found that new renewables are cheaper than old coal in Southeast Asia.

Another new report found that “not one country” is on track to limit global warming to 2°C.

NIPSCO, an Indiana utility, estimated that a renewable energy future will save customers $4 billion.

Global floating solar power capacity passed 1 gigawatt.

UK renewable power capacity hit 42 gigawatts in the third quarter and passed up fossil fuel power capacity.

Maryland published a report indicating that the economic value of solar power in the state over the coming decade would be a whopping $7 billion.

Other News

HBI and IREC developed a program to help at-risk youth get jobs in the solar power industry.

Sony moved its 100% renewable energy goal up by a decade.

Airbus Zephyr S, a solar-powered airplane, set a world record by staying aloft for 26 days.

Shell rejoined the solar energy market, after a long hiatus, acquiring a $217 million stake in Silicon Ranch Corporation and then putting money into a UK solar PPA.

Capital Dynamics acquired First Solar & SunPower Yieldco 8point3.

Hanwha Q CELLS, a Korean solar cell and solar module manufacturer, announced that it would build a +1.6 gigawatt solar module factory in Georgia (the US state, not the country).

Hanwha Q CELLS also went private for $825 million a few months later.

Solar tracker producer Soltec raised €100 million for expansion.

Solar energy emerged as the top new microgrid energy source.

Facebook committed to 100% renewable energy by 2020.

The US Wind Energy Foundation rebranded as the Wind Solar Alliance.

The Solar Panel Art Series made its way to North America, with a launch in NYC.

Source: Cleantechnica

About the author

Zachary Shahan Zach is trying to help society help itself (and other species). He spends most of his time here on CleanTechnica as its director and chief editor. He’s also the president of Important Media and the director/founder of EV Obsession and Solar Love. Zach is recognized globally as an electric vehicle, solar energy, and energy storage expert. He has presented about cleantech at conferences in India, the UAE, Ukraine, Poland, Germany, the Netherlands, the USA, and Canada. Zach has long-term investments in TSLA, FSLR, SPWR, SEDG, & ABB — after years of covering solar and EVs, he simply has a lot of faith in these particular companies and feels like they are good cleantech companies to invest in. But he offers no professional investment advice and would rather not be responsible for you losing money, so don’t jump to conclusions.

Countries from the Gulf Cooperation Council are expected to install almost 7 gigawatts (GW) of new power generation capacity from renewable energy sources by the early 2020s, according to a new report published by the International Renewable Energy Agency.

Solar Array Dessert

The new report, Renewable Energy Market Analysis: GCC 2019, launched by the International Renewable Energy Agency (IRENA) during the Abu Dhabi Sustainability Week held last week, concludes that renewable energy is the most competitive form of new power generation in Gulf Cooperation Council (GCC) countries — countries which include Bahrain, Kuwait, Oman, Qatar, Saudi Arabia, and the United Arab Emirates. A combination of abundant renewable energy resources and a strong enabling framework put in place by local governments have led to solar PV prices of below 3 cents per kilowatt-hour (kWh) and dispatchable concentrated solar power (better known as CSP) of 7.3/kWh — less than some utilities pay for natural gas.

Further, achieving existing 2030 renewable energy targets is expected to bring significant economic benefits to the region, including the creation of over 220,000 new jobs while at the same time saving over 354 million barrels of oil equivalent (MBoE) in regional power sectors. Specifically, IRENA expects renewable energy targets in the GCC to reduce the power sector’s carbon dioxide emissions by 136 million tonnes, a 22% reduction, while cutting water withdrawals in the power sector by 11.5 trillion litres, a 17% reduction, by 2020.

“The GCC is among the most attractive regions in the world to develop large-scale solar and wind energy projects as a result of resource abundance and a favourable policy environment, a fact that is backed up by record low prices,” said outgoing IRENA Director-General, Adnan Z. Amin. “As a fossil-fuel exporting region, the GCC’s decisive move towards a renewable energy future is a signal to global investors and to the energy community that we are experiencing a step-change in global energy dynamics and a true energy transformation.”

Solar power CSP Dubai

“The UAE’s commitment to diversifying the energy mix is central to our long-term economic growth and sustainable development objectives,” added H.E. Suhail Al Mazrouei, UAE Minister of Energy. “IRENA’s GCC analysis provides further evidence of the strong socio-economic case for renewable energy deployment, from job creation to emission reductions. As we look to add generation capacity to serve growing populations and expanding economies, renewables will increasingly serve as a central pillar of low-carbon development.”

Long-term ambition in the region is certainly seen as ambitious, but that has as much to do with the paucity of renewable energy currently installed as with the actual targets being set in place. At the end of 2017, according to IRENA, the region had a total of 146 GW of installed power capacity, of which only 867 megawatts (MW) was from renewable energy — a measly 0.6%, and 68% of this capacity was in the United Arab Emirates, leaving plenty of room for the region to expand.

However, the GCC now boasts several renewable energy targets and the region already has plans to install almost 7 GW worth of new renewable power by the early 2020s, dominated unsurprisingly by solar PV, accounting for three-quarters of the regional project pipeline. CSP and wind energy account for 10% and 9% respectively.

Source: Cleantechnica

Coming soon! Community Generation Capacity Building program! On January 14, 2019, Energy Efficiency Alberta, in partnership with the Municipal Climate Change Action Centre, will be accepting applications to fund community generation capacity building projects. Stayed tuned for updates on the program.

Overview

In response to the growing demand for renewable energy in Alberta, the Government of Alberta is investing $200 million over 20 years in Climate Leadership Plan funds to launch a new Community Generation Program. The Alberta government is making it easier for communities to develop their own renewable energy projects, which will reduce greenhouse gas emissions, spur investment, diversify local economies and support local jobs.

Community Generation

Community generation refers to renewable and alternative energy that is distribution system-connected and provides benefits to communities. Community generation allows communities and citizens to directly participate in energy projects through full or partial ownership of the projects. Participation in community generation projects gives Albertans the ability to access renewable energy and generate revenue by selling electricity to the grid.

Program Structure

The program will support a “contract for difference” model that guarantees a rate of return for electricity production over the long term – locking-in a rate for generators. This $200-million fund will facilitate investment in community-scale renewable energy projects by guaranteeing the price they receive for the power they produce. Up to $50 million of the fund will be dedicated to supporting community generation projects in communities affected by the phase-out of coal-fired electricity.

The Community Generation Program will improve access to low-cost financing by providing revenue certainty, opening the doors to new projects that will support community benefits, increase investment, and create local jobs. Communities wanting to generate their own electricity through a small-scale renewable energy project will have long-term revenue certainty for the power they generate and export to the grid.

Eligible groups include, but are not limited to:

  • Societies
  • Condominium corporations
  • Co-operatives
  • Educational institutions
  • First Nations
  • Métis Settlements
  • Municipalities
  • Non-profit organizations

To qualify as a community generating unit, projects must demonstrate social, economic and/or environmental benefits to the community, such as training and development opportunities, contributions to a community endowment fund, or development of community infrastructure.

More detailed program criteria will be provided once the application process for the Community Generation Program is established. This program is anticipated to launch in fall 2019.

Small Scale Generation Regulation

In order to make the Community Generation Program possible, the Alberta government passed the new Small Scale Generation Regulation which is intended to enable distribution-connected electricity generation from renewable and alternative sources to supply electric energy to the grid. It outlines rules to enable small-scale and community projects including definitions, set-up and operation. These rules also help reduce regulatory and financial barriers for generators.

Capacity-building

In partnership with Energy Efficiency Alberta and the Municipal Climate Change Action Centre, the province will undertake capacity-building efforts in the coming months to help communities prepare to participate in the program before it launches in fall 2019. This work will include:

  • Open houses in a dozen communities in early 2019.
  • An online resource hub featuring handbooks, community generation case studies, small-scale renewable energy fact sheets and more.
  • Grant funding.

Community Generation Roadshow 2019

Is your community interested in developing its own renewable energy projects? Now is your chance to learn more about Alberta’s Community Generation Program and how you can prepare to participate. Drop by the open house closest to you:

Red Deer

Stony Plain

Edmonton

High Level

Vegreville

Hanna

Okotoks

Calgary

Canmore

Lethbridge

Medicine Hat

Ft. McMurray

Grande Prairie

Grande Cache

More Information

Communities interested in participating are invited to submit an Expression of Interest to receive future program updates.

Email: commgen@efficiencyalberta.ca

Phone: 1-844-357-5604

Source: Energy Efficiency Alberta