green tech

The Energy Trilemma is far from being resolved - Response to Greg Clark

The Energy Trilemma is far from being resolved - Response to Greg Clark

In this response to Greg Clark MP, Founder & Chief Technology Officer Matthew Williams and Chief Economist & Head of Government Affairs Richard Dowling together challenge the idea that the Energy Trilemma is “over” and examine how greater amounts of renewables will affect energy security and energy equity, should there be no change to the current grid.

Reinventing the Electricity Grid for Continuing Prosperity and Innovation

Reinventing the Electricity Grid for Continuing Prosperity and Innovation

The European Utility Week, a summit for key players in the energy sphere working towards a fully integrated and interconnected electricity system and market in Europe took place in Vienna this year. Read CEO Andrew’s Scobie’s speech on why the Faraday Grid is the necessary evolution of the energy system.

Prosperity, Academia, and the Faraday Grid Prize for Research for Industry

Prosperity, Academia, and the Faraday Grid Prize for Research for Industry

Last week, Founder and Chief Technology Officer Matthew Williams travelled to the University of Manchester to award the first ever Faraday Grid Prize for Research for Industry. This prize recognises rigorous academic research with strong industrial applicability. It is also a great example of Faraday’s drive to enable collaboration among the academic and private sector thereby catalysing societal progress. Read Matthew’s article below to find out why he believes collaboration is a key pillar for building future prosperity.

Introducing the world’s first Faraday Grid in London

Introducing the world’s first Faraday Grid in London

The Faraday Grid is thrilled to announce the deployment of its revolutionary technology in London, one of the world’s most sophisticated electricity networks. The agreement will see the world’s first Faraday Grid utilised in a live network from early 2019 in partnership with the UK’s most innovative distribution network operator UK Power Networks, which characterised Faraday’s technology as ‘transformational.’ As the Faraday Grid expands through the rest of the UK and beyond, it promises to unlock new frontiers in innovation and underpin the sustainable welfare of generations to come.

How will California go Carbon Free by 2045?

How will California go Carbon Free by 2045?

In September 2018, Governor Jerry Brown made history by signing the revolutionary Senate Bill 100 (SB 100). The truly ground-breaking requirement is the stipulation for California to be 100 per cent carbon free by 2045. Achieving such an ambitious target will require innovative technological solutions. Read Oliver Forsyth’s writing on what circumstances and factors to consider.

Are we far from a world where everybody drives an EV?

Are we far from a world where everybody drives an EV?

The increasing focus on renewable energy sources and low carbon technologies is triggering a substantial shift in the automotive industry. Supported by government policies and public interest, the number of electric vehicles are swiftly increasing, exceeding predictions year to year. Is the electricity system ready to cater for such a vast new demand?

Faraday engineers at the NEIS 2018 conference

Faraday engineers at the NEIS 2018 conference

A team led by Senior Engineer, Jagadeesh Gunda will represent Faraday Grid at the Conference on Sustainable Energy Supply and Energy Storage Systems – NEIS 2018 in Hamburg this September.

Modernising electricity grids: from smart grids to blockchain - and The Faraday Grid

Modernising electricity grids: from smart grids to blockchain - and The Faraday Grid

A modern grid supplying modern electricity demands should be able to provide environmentally friendly energy securely and at an affordable price at once. There are a number of technology pathways being suggested to modernise the electricity grid, and adapt it to the new reality of distributed variable renewable generation. This article gives an overview of these technologies.

Renewable energy is necessary but insufficient

Renewable energy is necessary but insufficient

Today, even the most ardent supporter of sustainable living probably recognizes that the problem in achieving that isn’t just the nihilistic short-term self-interest of big oil and big coal. We just don’t know how to get there.

Choosing to save the planet

Choosing to save the planet

My plan to save the planet keeps bumping into the seen and the unseen. Almost no one would argue with the great lesson of the stoic philosopher Epictetus. The world divides into that which depends on me, and that which does not. For the stoics, the lesson was that I shouldn’t worry about that which I can’t control. Instead I should focus on making good choices over those things and events I can control. Right there is where the trouble begins.

Repost: The Economist - Sunshine and clouds

Image reposted from original article

Image reposted from original article

http://www.economist.com/news/technology-quarterly/21662650-solar-power-growth-renewable-energy-requires-new-ways-manage

Sep 5th 2015 | From the print edition

EARLIER this year, after months of planning, the managers of Europe’s electricity grid were ready for the biggest test so far of an energy system that increasingly relies on renewable power. That event was a partial solar eclipse on March 20th—and the “worst case scenario” was that it would take place on a sunny day, causing a sudden disruption of solar power, creating fluctuations that could damage the grid and anything connected to it.

At the centre of concern was Germany, with some of the world’s biggest solar installations. In 2014, almost 7% of Germany’s electricity was generated by solar panels, although on sunny weekdays the proportion can reach 35% and even 50% at weekends. The passing of the Moon between the Earth and the sun could have been equivalent to the loss of 80 medium-sized European power stations.

As it turned out, although the sun shone in southern Germany and northern Italy, cloudy skies elsewhere limited the eclipse’s impact. Even so, the European grid operators had to greatly increase the backup supplies normally on hand and turn off some energy-intensive processes, such as aluminium smelting. And then it had to cope with the surge in solar generation as the eclipse passed.

An eclipse is an extreme event, but as more homes, offices and factories fit solar panels and become, in effect, mini power plants feeding surplus electricity into the grid, engineers are having to perform a similar balancing act every day. Without careful monitoring, the intermittent nature of solar power—even with the sun passing briefly in and out of clouds—can lead to voltage surges and drops, causing brownouts and power cuts.

Moreover, maintaining a consistent level of power is now vital as modern digital devices, such as computers, televisions and equipment in factories, hospitals and offices, demand a steady voltage and frequency, unlike the clunky electronics of a few decades back.

To protect power quality some countries have placed restrictions on new solar installations. In Hawaii, for instance, sudden swings in electrical output have led to a slowdown in the issuing of solar permits. Australia has also placed constraints on new installations. Even some utilities in all-too-often overcast Britain have limited the amount of solar electricity which can be fed into the grid.

Companies are coming up with ways to maintain power quality. Some of the gear is based on inverters, which are used to convert the variable direct current produced by a solar panel into the alternating current on the grid. Renewable Energy Solutions Australia, for instance, makes a system called VoltLogic which can limit the amount of power exported to the grid from solar panels. This, the company says, allows new solar installations to be automatically approved by a number of Australian utilities.

Some utilities want such solar export-limiting equipment to respond to demand changes on the grid in less than one second, says Fraser Durham, commercial director of Argand Solutions, a British company. His firm produces a control system called GridGEM for companies using solar panels. This constantly analyses an organisation’s power use to determine when to buy electricity or to export any surplus according to a utility’s constraints. The system can also switch equipment on or off, channel any surplus renewable power into batteries and operate “private lines”, which are independent distribution networks which might be set up by a group of neighbouring companies to share locally produced solar power.

Saving some for later

Surplus renewable power could also be stored on the grid with beefier battery systems. Various technologies, from giant lead-acid batteries to pumping compressed air into caverns and letting it out to drive turbines, are being developed (see Technology Quarterly December 6th 2014).

Better batteries will also let businesses and homes store more of the power they generate instead of having to export it. Some of the advanced lithium-ion batteries Tesla will make for its electric cars at a giant factory in Nevada will also be sold as 10kWh and 7kWh storage units for domestic solar installations. Delivery of the first batteries, which will be contained in a unit called Powerwall, are scheduled to begin next year. Multiple Powerwalls can be connected together for sites with greater energy needs.

Instead of being a one-way line to deliver electricity, grids of the future will need to be smarter and more flexible to handle the distributed power systems being created by renewable energy.