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South Africa

Concentrated Solar Thermal Energy (CSP) installation

South African Team Cracks Miniature CSP Puzzle

by Steve Hanley August 28, 2015

If you have ever burned your initials into a block of wood using a magnifying glass, you understand the principles of concentrated solar power, known as CSP. In theory, using mirrors to concentrate the sun’s rays is an excellent way to harness the immense power of the sun. But it’s not quite that simple.

According to The Guardian, CSP installations are expensive and have proven difficult to make work at smaller scale. Called heliostats, the shaped mirrors in some types of CSP are usually large with a huge central base set in concrete. Using current technology, they are expensive to produce, have to be connected through costly wiring and need to be installed by highly skilled construction crews. That’s why electricity from CSP plants is more expensive than from solar panels. (Plus, solar PV is just super cheap these days.)

Paul Gauché is founding director of the Solar Thermal Research Group at Stellenbosch University in South Africa. His group is testing a new way to produce miniature CSP units that will be cheap and quick to install. “We are developing plonkable heliostats. Plonkable means that from factory to installation you can just drop them down on to the ground and they work.” If his process proves commercially viable, he may go down in history as the man who invented the word “plonkable.”

No costly cement, no highly-trained workforce, no wires — just two workers to lay out the steel frames on the ground and a streetlight-style central tower. “Every part in it is manufacturable and installable by two sets of hands — or one rugby player, as we found out,” he says with a laugh.

Helio100 is a pilot project with over 100 heliostats of 24 square feet each. In total, they generate up to 150 kilowatts of electricity — enough to power about 10 households. According to Gauché, the array is already cheaper than using diesel, the current fuel of choice during the regular power outages in South Africa. Google once attempted to build systems like this but abandoned its research after deciding it could not do it cheaply enough. What Gauché’s team has done differently is to reduce the cost of creating heliostats.

August 28, 2015 0 comment

4,000 Homes To Be Powered By Giant Solar Flag

by Jake Richardson January 7, 2015

written by Jake Richardson

You don’t see that headline every day; then again, there aren’t a great number of huge, creative, solar and plant-based national flags lying around.

A giant flag made of about 2.5 million desert plants and many solar panels is going to be built in South Africa. It will be huge, covering about 66 football fields and will be visible from space when completed. The target date for that is 2017, so it will be fairly soon.

Located in desert between Cape Town and Johannesburg it will generate enough electricity to power about 4,000 local homes, when there is adequate sunshine. The thing is, South Africa has an abundance of this free natural resource. In fact, it has about twice much as Europe, even though European countries like Germany are leading the world in solar power.

In other words, there is no reason why South Africa could not blow the doors off of Germany in solar power, at least in terms of raw potential.

It is expected that the millions of desert plants will remove CO2 from the atmosphere and help produce nutrients in the local soil. In human terms, it may attract tourists which could bring in some revenue for the area. (The unemployment rate near the intended site is about 40%.)

The project has the goal of both symbolizing ecological harmony and functioning that way. About 700 jobs will be created during the installation process. Arranging and planting all the live succulents will create most of them. Of course, taking care of them will be part of the work and ongoing maintenance.

Essentially the giant flag, which will resemble the South African national flag, will be a huge garden with a solar power plant.

Guy Lieberman conceived of the project, and sees it as, “an opportunity to do something dramatic and wonderful that embodies the spirit of the nation — beyond the politics and factions.”

Donations, partnerships and sponsorships — the typical kind of fundraising — has brought in some money so far, but a crowdsourcing campaign is in the works too. You can help by donating $10 for one succulent that will be planted to make the flag. These plants could live for over a hundred years, so you can’t beat that in terms of ‘bang for the buck’.

Image: Frederick Brownell

January 7, 2015 0 comment

Rooftop Solar Solar Policy

Solar Power Credits Considered In South Africa

by Jake Richardson January 6, 2015

written by Jake Richardson

In some countries, it is common for solar power system owners to receive credits on their electricity bills when they transmit electricity from their solar systems back to the grid. Utility companies that allow net metering help these solar owners save money on their bills by giving such credits, while also benefiting for more electricity production and a reduced need for transmission and infrastructure expansion.

South Africa currently is considering incentives like net metering for rooftop solar power. (It isn’t only home owners in South Africa that might quality for net metering if such a law is passed, but also business owners.)

Solar power could have a capacity of 22.5 GW by 2030 there, the country estimates. As you might imagine, South Africa has a large solar power potential. Solar radiation is twice as great as Europe, or more, so building out its solar capacity is extremely logical now that solar costs have fallen so low and continue to fall.

South Africa now has over 500 MW of utility-scale solar power capacity, which means it is a top solar nation in that category.

Reportedly, about 1700 MW of solar power capacity is in the pipeline, and if it is developed, then South Africa could become a top 5 nation for utility-scale solar.

So, South Africa has done well in that field, but allowing incentives for rooftop solar power owners would grow solar power in South Africa much more.

It is impressive that solar power has grown like it has in South Africa without such operator incentives. Most of South Africa’s electricity is generated from burning coal. Natural gas and oil are in limited supply and there is some nuclear. Renewables such as solar and wind are set to grow — mainly because they are clean but also because the country will need tens of thousands of megawatts of power in the future.

That there is an interest in solar and wind is impressive considering that South Africa has about 90% of Africa’s coal reserves. Some countries with plenty of coal might assume they could rely on it and not want to invest in new technologies. Of course, the health and global warming benefits of solar are tremendous, and should make everyone switch from coal to solar as soon as practically possible.

Image Credit: J.J Van Zyl

January 6, 2015 0 comment

CPV CSP Market Research PV Solar Projects Solar Research Solar Thermal

The Northern Cape Of South Africa To Develop Three New Solar Projects

by Cynthia July 22, 2014

written by Cynthia

South Africa is continuing to move up in the global renewable energy movement. With three new solar projects having a combined capacity of 225 MW, South Africa appears they may rise to near the top of the global marketplace for utility-scale solar energy projects this year.

Plans to build these three projects in South Africa’s Northern Cape, on agricultural land, have begun. Local developer Mulilo Renewable Energy is the center point of this effort jointly regarded as the Niewehoop Solar Park. Permission is pending from the National Department of Environmental Affairs.

South Africa kicked off their Renewable Energy Independent Power Producer Procurement Programme in 2011, signaling continued growth. This Northern Cape work is most up-to-date.

Solar Installation in South African Village

Drafts from the South African Heritage Resources Agency (SAHRA) assessing the results for Mulilo are completed. The report shares that the projects could be developed with either PV or CPV modules, and this choice is not made at this time. CSP, Concentrating Solar Power, needs a considerable quantity of water; thus, it is not considered practical for this area. This preparation is by the country’s Scientific and Industrial Research (CSIR). Details of the biophysical, social, and environmental outcomes of the three installations are on this agency’s website.

These current developments quicken progress for South Africa’s increasing solar PV generation capacity. Online database Wiki-solar.org also reported in June that South Africa has now connected more than half a gigawatt of utility-scale solar, and thus climbed into the world top ten. With 15 plants generating a consolidated capacity of 503 MW. This is with more than 500MW of utility-scale (PV) solar installed already there.

South Africa is serious with the Integrated Resource Plan for South Africa. The intention is for the installation of 17,800 MW of renewable energy by 2030. Mulilo Renewable Energy’s expressed that their plan aimed responsibility for 30% of that market. They also intend to retain equity in all projects.

There is positive speculation that continued building and installation will potentially push South Africa near the top five countries with utility-scale installed solar power capacity.

Source: PV- Tech and Wiki-solar.org

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July 22, 2014 0 comment