After the infamous meltdown in 1986 resulted from a flawed reactor design and poor training, other nuclear reactors at the Chernobyl facility continued to operate until the turn of the century. For the past 18 years, Chernobyl has been nothing but an abandoned wasteland due to the high level of radiation, making the Chernobyl exclusion zone unsuitable for agriculture or forestry. This exclusion zone is a 1000 square mile area around the Chernobyl nuclear plant mostly uninhabited and unused since the 1986 disaster. Since there is already substantial electrical infrastructure in place left over from the nuclear plant and the fact that the land is unused and cheap, the site is an excellent choice for large solar farm(s) to be installed.
“It’s not just another solar power plant…it’s really hard to underestimate the symbolism of this particular project. ” the chief executive of Solar Chernobyl LLC, Evhen Variagin, told reporters at the unveiling of a 1 MW joint project that can power 2,000 homes, on Friday, October 5, 2018, by Ukrainian company Rodina and German company Enerparc AG, costing about $1.2 million (1 million euros) and benefiting from feed-in-tariffs that guarantee a certain price for power. The head of the Chernobyl nuclear plant Valery Seyda said, “It is the first time the site has produced power since 2000, when the nuclear plant was finally shut down. But now we are seeing a new sprout, still small, weak, producing power on this site and this is very joyful.”
Between January and September of this year (2018), more than 500 MW of renewable power capacity is added to Ukraine, more than twice as much as in 2017, according to the Ukrainian government.The head of the Office of the National Investment Council of Ukraine, Yulia Kovaliv, said investors want to reap the benefits from a generous subsidy scheme before parliament is due to vote on scrapping it in July next year. “Investors expect that in the renewable energy sector facilities launched before 2019 will operate on the current beneficial system of green tariffs…that is why investors want to buy ready-to-build projects in order to complete construction before that time.” Yulia Kovaliv told Reuters reporter on the sidelines of a conference in Odessa in September.
Cheap land and sunny skies are attracting interests from around the world. Two Chinese companies, GCL System Integration Technology Co. Ltd. and China National Complete Engineering Corp, are also building a one-gigawatt solar power plant (enough to power 100 million LED bulbs) to the South of Chernobyl. Another dozen smaller investors are also installing solar parks nearby on a smaller scale. These entrepreneurs are not deterred by the challenges of major construction projects in nuclear contamination zone. Engineering work has already begun, but there has not been any public disclosure about safety measures, the completion date, nor a price for the project.
Gathered, written, and posted by Windermere Sun-Susan Sun Nunamaker
More about the community at www.WindermereSun.com
Hurricane Florence was a Category 4 at its peak, at 130 miles per hour (or 210 kilometers per hour) wind two days before making its landfall on September 14, 2018. That was so close to the threshold (140-160 miles per hour) of the design of new solar farms. About a third of the 3,000 megawatts of solar capacity connected to Duke Energy Corp’s system went down initially, according to utility spokesman Randy Wheeless. As of this week, about nine projects in North Carolina remained offline. Four of these were due to damage to Duke Energy facilities and five were due to damage to the project themselves. Wheeless said facilities that suffered the most tended to be five megawatt projects connected to Due’s distribution system.
Duke had been trying to get developers to move toward larger solar projects to connect largely to its transmission system, the high-voltage wires that link Duke plants to the distribution system that delivered power to homes and businesses. With hundreds of solar projects connected to Duke’s grid in North Carolina, the number of damaged projects remained small. Senior vice president at Strata Solar, Brian O’Hara, said that the Chapel-Hill based solar developer with more than 140 projects in the state saw damage at only two facilities. O’Hara said, “Duke has done a commendable job responding quickly and getting our facilities back online shortly after we notified them that they were inspected and ready to reconnect….our teams have coordinated closely with Duke’s recovery team, and it has been professional, responsive and pretty seamless.” The chief operating officer for Durham-based Ecoplexus Inc., John Morrison, said his company also saw very little damage, with only two of the 16 sites operating in North Carolina suffering some broken modules, amounting to less than 0.34% of the the developer’s modules, “not enough to even exceed the insurance deductible.” Spokesman for the California-based Cypress Creek Renewables, Jeff McKay, also reporting no notable damage in its solar fleet. As for Duke itself, its only project that suffered damage was the 60-megawatt Monroe Solar project in Union County, with few panels being damaged by wind. Duke’s Fayetteville, Warswa and Camp Lejeuene solar projects were all undamaged and returned to service as soon as grid operations allowed. Most outages during and after the worst of the hurricane Florence were due to problems with Duke’s grid rather than problems at the projects themselves.
To see what solar had done for North Carolina, check out these videos below:
Video “The birth of a solar farm in Halifax, NC” below:
Video “What’s the future for solar energy in NC” below:
Video “Study shows North Carolina as number 2 for solar electric capacity installed through 2017“: below:
Gathered, written, and posted by Windermere Sun-Susan Sun Nunamaker
More about the community at www.WindermereSun.com
Aerial view of Apple Park, the corporate headquarters of Apple Inc., located in Cupertino, CA. The roof is covered in solar panels with an output of 17 MW, making it the biggest solar roofs in the world. Photo is taken from a Cessna 172M. (attribution: Daniel L. Lu (user: dllu), presented at: WindermereSun.com)
In China, solar panels are mounted high off the ground to let sunlight shine through so grass can grow and local yaks can eat it. (credit/attribution: Apple Inc., presented at: WindermereSun.com)
Apple’s headquarter in Cupertino, CA is powered by 100% renewable energy in part from a 17 megawatt onsite rooftop solar installation (credit/attribution: Apple Iinc., presented at: WindermereSun.com)
Ibiden, a component supplier outside Nagoya, Japan, maintains a floating solar photovoltaic facility to power 100 percent of its manufacturing. (credit/attribution: Apple, presented at: WindermereSun.com)
(Please click on red links & note magenta)
This week, Windermere Sun is devoting several posts on how some of the individuals, groups, or companies commit to help combat climate change and to create a healthier environment. Back in April of this year (2018), Apple announced its global facilities being powered with 100% clean energy. This was achieved through retail stores, offices, data centers and co-located facilities in 43 countries, including the United States, the United Kingdom, China, and India. Apple also announced nine additional manufacturing partners committed to power all of their Apple production with 100% clean energy, bringing the total number of supplier commitments to 23.
Apple CEO Tim Cook said, “We’re committed to leaving the world better than we found it. After years of hard work we’re proud to have reached this significant milestone. We’re going to keep pushing the boundaries of what is possible with the materials in our products, the way we recycle them, our facilities and our work with suppliers to establish new creative and forward-looking sources of renewable energy because we know the future depends on it.”
Excerpt from Apple’s press release, in italics, from April of 2018, below:
Apple and its partners are building new renewable energy projects around the world, improving the energy options for local communities, states and even entire countries. Apple creates or develops, with utilities, new regional renewable energy projects that would not otherwise exist. These projects represent a diverse range of energy sources, including solar arrays and wind farms as well as emerging technologies like biogas fuel cells, micro-hydro generation systems and energy storage technologies.
Apple currently has 25 operational renewable energy projects around the world, totaling 626 megawatts of generation capacity, with 286 megawatts of solar PV generation coming online in 2017, its most ever in one year. It also has 15 more projects in construction. Once built, over 1.4 gigawatts of clean renewable energy generation will be spread across 11 countries.
Since 2014, all of Apple’s data centers have been powered by 100 percent renewable energy. And since 2011, all of Apple’s renewable energy projects have reduced greenhouse gas emissions (CO2e) by 54 percent from its facilities worldwide and prevented nearly 2.1 million metric tons of CO2e from entering the atmosphere.
Apple’s renewable energy projects include:
Apple Park, Apple’s new headquarters in Cupertino, is now the largest LEED Platinum-certified office building in North America. It is powered by 100 percent renewable energy from multiple sources, including a 17-megawatt onsite rooftop solar installation and four megawatts of biogas fuel cells, and controlled by a microgrid with battery storage. It also gives clean energy back to the public grid during periods of low occupancy.
Over 485 megawatts of wind and solar projects have been developed across six provinces of China to address upstream manufacturing emissions.
Apple recently announced plans to build a 400,000-square-foot, state-of-the-art data center in Waukee, Iowa, that will run entirely on renewable energy from day one.
In Prineville, Oregon, the company signed a 200-megawatt power purchase agreement for an Oregon wind farm, the Montague Wind Power Project, set to come online by the end of 2019.
In Reno, Nevada, Apple created a partnership with the local utility, NV Energy, and over the last four years developed four new projects totaling 320 megawatts of solar PV generation.
In Japan, Apple is partnering with local solar company Daini Denryoku to install over 300 rooftop solar systems that will generate 18,000 megawatt-hours of clean energy every year — enough to power more than 3,000 Japanese homes.
Apple’s data center in Maiden, North Carolina, is supported by projects that generate 244 million kilowatt-hours of renewable energy per year, which is equivalent to the energy used by 17,906 North Carolina homes.
In Singapore, where land is scarce, Apple adapted and built its renewable energy on 800 rooftops.
Apple is currently constructing two new data centers in Denmark that will run on 100 percent renewable energy from day one.
To get to 100 percent renewable energy for its own facilities, the company worked to set an example for others to follow. Apple also announced that 23 of its suppliers are now committed to operating on 100 percent renewable energy, including nine new suppliers. Altogether, clean energy from supplier projects helped avoid over 1.5 million metric tons of greenhouse gases from being emitted in 2017 — the equivalent of taking more than 300,000 cars off the road. In addition, over 85 suppliers have registered for Apple’s Clean Energy Portal, an online platform that Apple developed to help suppliers identify commercially viable renewable energy solutions in regions around the world.
New supplier commitments include:
Arkema, a designer of high-performance bio-based polymers, which manufactures for Apple at its facilities in France, the United States and China.
DSM Engineering Plastics, which manufactures polymers and compounds in the Netherlands, Taiwan and China that are used in many Apple products, including connectors and cables.
ECCO Leather, the first soft goods supplier to commit to 100 percent clean energy for its Apple production. The leather that ECCO produces for Apple is of European origin, with tanning and cutting occurring at facilities in the Netherlands and China.
Finisar, a US industry-leading producer of optical communication components and vertical-cavity surface-emitting lasers (VCSELs), which power some of Apple’s most popular new features like Face ID, Portrait mode selfies and Animoji.
Luxshare-ICT, a supplier of accessories for Apple products. Luxshare-ICT’s production for Apple is predominantly located in Eastern China.
Pegatron, which assembles a number of products, including iPhone, at its two factories in Shanghai and Kunshan, China.
Quadrant, a supplier of magnets and magnetic components in a number of Apple’s products.
Quanta Computer, one of the first Mac suppliers to commit to 100 percent renewable energy for Apple production.
Taiyo Ink Mfg. Co., which produces solder masks for printed circuit boards in Japan.
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