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China Turns On The World’s Largest Floating Solar Farm

By Jason Daley

June 7 2017

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Last week, workers switched on a solar energy plant capable of producing 40 megawatts of power, which floats on a manmade lake in China’s Anhui province near the city of Huainan, reports Sarah Zheng at the South China Morning Post. The array is the largest floating solar project in the world, though at the brisk pace China is building new renewable projects it’s unlikely to hold that title very long.

Built by the company Sungrow Power Supply, the power plant will produce enough energy to power 15,000 homes, Zheng reports. While the company has not revealed the exact size of the operation, it produces twice as much energy as the previous holder of the largest-floating-solar-plant title, which is located in the same area and was launched by the company Xinyi Solar in 2016.

Anhui province is a coal-rich region, and the Sungrow plant is located on a lake that was once the site of intensive mining. Heavy rains filled the area with water. As Zhen reports, the depth of the lake varies from 12 feet to 30 feet.

So why build solar plants on top of lakes and reservoirs? Fiona Harvey at The Guardian explains that building on bodies of water, especially manmade lakes that are not ecologically sensitive, helps protect agricultural land and terrestrial ecosystems from being developed for energy use. The water also cools the electronics in the solar panels, helping them to work more efficiently, reports Alistair Boyle for The Telegraph. For similar reasons Britain built a 23,000-panel floating solar farm on the Queen Elizabeth II reservoir near Heathrow airport in 2016 to help power the Thames Water treatment plant.

The Sungrow solar farm is just one tiny piece in China’s push towards renewable energy. According to Irina Slav at Business Insider, the country recently announced it would invest $361 billion in renewable power by 2020, and by 2022 could produce 320 gigawatts of wind and solar power and 340 gigawatts of hydropower. Zheng reports that currently renewables are responsible for 11 percent of China’s energy and may reach 20 percent by 2030.

While the floating solar plant is the largest in the world, it pales in comparison to some of China’s non-floating solar projects. The Longyangxia Dam Solar Park on the Tibetan plateau hosts 4 million solar panels that produce 850 megawatts of energy. Even that will soon be eclipsed by a project in the Ningxia Autonomous Region, which will have 6 million solar panels and produce 2 gigawatts of power.

US Army Base Goes Green With Renewable Energy Project

By Reuters

June 6, 2017

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The U.S. military’s biggest base on American soil has begun drawing nearly half of its power from renewable energy, days after President Donald Trump’s decision to pull out of a global agreement to fight climate change.

Fort Hood, in Texas, has shifted away from fossil fuels to wind- and solar-generated energy in order to shield the base from its dependence on outside sources, a spokesman said.

“We need to be autonomous. If the unfortunate thing happened and we were under attack or someone attacked our power grid, you’d certainly want Fort Hood to be able to respond,” Chris Haug, a spokesman for Fort Hood, said in a phone interview.

The project brings the Army base, home to 36,500 active-duty personnel and some 6,000 buildings, in line with the Department of Defense’s decade-long effort to convert its fossil fuel-hungry operations to renewable power.

It comes in the wake of Trump’s decision last week to withdraw the United States from a landmark global agreement to fight climate change, the Paris accord, a move that drew condemnation from world leaders and heads of industry.

The project is already fully operational. Its 63,000 solar panels, located on the base’s grounds, and 21 off-base wind turbines provide a total of some 65 megawatts of power, according to an Army statement.

Previously, some 77 percent of base’s energy was generated by fossil fuels, a 2015 draft report assessing the renewable energy plan shows.

Burning fossil fuel generates greenhouse gases that are blamed by scientists for warming the planet.

The Paris accord aims to reduce such emissions, including by encouraging a shift to clean energy.

Fort Hood’s new solar field and wind farm will result in savings of more than $100 million over some 30 years, the Army said.

Over the last decade, the U.S. military and intelligence officials have developed a broad agreement about the security threats that climate change presents, in part by threatening to cause natural disasters in densely populated coastal areas, damage American military bases worldwide and open up new natural resources to global competition.

The number of military renewable energy projects nearly tripled to 1,390 between 2011 and 2015, a Reuters analysis of Department of Defense data previously showed.

The Defense Logistics Agency (DLA), a Department of Defense agency assisting the Army in its renewable-energy shift, is also working with the U.S. Air Force on long-term renewable energy projects, a DLA spokeswoman told the Thomson Reuters Foundation.

Home solar power becomes a brighter prospect for many

By Sarah Shemkus

May 28, 2017

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Just out of view on the back side of Rob and Irene Kneeland’s Colonial house in Sutton, 28 photovoltaic panels are transforming light into power every time the sun shines.

The system came online in December. By March, the Kneelands’ monthly electric bill had dropped from $150 to $38.

“I imagine the next bill will be about zero,” Rob Kneeland said. “It appears that they’re performing as promised.”

Historically, installing solar panels was a pricey proposition — usually something only committed environmentalists with money to spend did. In recent years, however, improvements in technology, falling manufacturing costs, government incentives, and worries about the perils of fossil fuel dependence have come together to accelerate the adoption of solar technologies among everyday homeowners.

Between late 2013 and mid-2016, Massachusetts’ solar capacity more than tripled, from 362 megawatts to 1,174 megawatts, according to numbers from regional electric grid operator ISO-New England.

If you want to consider joining the surge, here’s how it works.

First, determine whether solar panels are feasible for your home. Generally, you will need a roof that isn’t facing north and doesn’t receive too much shade from the south, said Andrew Belden, senior director for renewable energy generation at the Massachusetts Clean Energy Center.

Your roof should also be large enough to accommodate at least 10 to 15 panels and be relatively new.

“You want to make sure you’re not going to be taking the system down in the next five years to replace your roof,” Belden said. Just about all installers will provide a free on-site assessment.

Next, study up on the basic economics of residential solar. In the past, leasing and power purchase agreements were popular ways for homeowners to get solar power. Under such arrangements, a business builds and retains ownership of a solar system then sells the energy produced to the homeowner.

But today, the price of a residential solar installation is about one-third what it was just 10 years ago, according to a report from the Lawrence Berkeley National Laboratory. At the same time, financing options have multiplied, making straightforward ownership more economically advantageous.

“More financial institutions are familiar with solar now,” said Tom Kimbis, interim president of the Solar Energy Industry Association, a Washington-based trade group. “Today, you’ve got lots of options.”

The median price per watt of capacity for systems financed through the Mass Solar Loan Program is $4, and the median installation size is 8.1 kilowatts. Those numbers suggest a new solar system could easily run more than $30,000.

Fortunately, several programs can help defray the costs. Federal tax incentives allow you to take a credit worth 30 percent of the cost of the installation. Massachusetts also offers a tax credit of 15 percent of the remaining cost after the federal incentive has been subtracted, with a maximum value of $1,000.

Together, these credits could reduce the cost of a $30,000 system to roughly $20,000 — still a pretty hefty total. To help cover that balance, the Mass. Solar Loan Program will assist you in locating a participating bank or credit union and, for income-eligible households, it also can provide further financial assistance.

Households below 80 percent of median income — the threshold is currently $87,183 for a four-person household — are eligible for a principal reduction of 30 percent. Those below 120 percent of median income — $130,774 for a family of four – qualify for a 20 percent reduction.

Some individual communities may have further incentives — DSIRE.org maintains an updated database of renewable energy programs, state by state

Once the system is installed, ongoing savings will come from two places: net metering and solar renewable energy credits, or SRECs.

When your system is producing more power than you use, the excess electricity flows back into the grid and your meter runs backward, deducting kilowatt-hours from your usage — and your bill. This phenomenon is known as net metering.

If your power is currently delivered by a utility company, your system will almost certainly be able to take advantage of net metering. Homes served by municipal electric plants, however, may not be, so research eligibility before moving forward.

SRECs are certificates representing the environmental benefits generated by your solar system. They can be sold to companies looking to meet regulations, boost their green credentials, or offset their carbon emissions.

An 8-kilowatt system could produce as many as 10 SRECs per year and, though prices fluctuate, one SREC can sell for well over $200. While homeowners can sell their SRECs on their own, many choose to work with aggregation companies, which pool many SRECs and then sell them on behalf of their members.

Once you understand the financial basics, it is time to start shopping for an installer. If you are interested in the Mass. Solar Loan program, start with its list of prequalified businesses. Make sure to contact several installers. But limit your search to companies that are solar specialists, rather than roofers or general contractors who have added solar to their menu of services.

Ask vendors questions until you are completely satisfied with the answers, Kimbis said. He recommended asking how many systems the company has installed in your area, and requesting at least three references.

A potential installer should provide detailed cost estimates, including expected annual production, available incentives, and projections of how long the system should take to pay for itself. Be wary of companies that offer vague assurances instead of hard numbers.

An installer also should arrange for local inspections, connections to the utility, and the paperwork involved in signing you up to receive SRECs.

Finally, once you’ve chosen a company, be prepared to wait. Solar is becoming so popular that there will probably be a delay before you can schedule installation.

“Crews might be scheduling six, eight, 10 weeks out,” Belden said. “There’s a lot of solar activity going on in the state.”

Sarah Shemkus can be reached at seshemkus@gmail.com.