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1st Smart Electric Vehicle Charging Trial Launched In London

electric vehicle recharging london

A smart EV charging trial is apparently underway in London. The special software being used allows for the operator in charge to briefly suspend EV charging if electricity demand on the grid gets up to a concerning peak level. That said, “the smart control system is designed to have no noticeable impact on those using the charge points.” Here are more details from a UK Power Networks press release:

A smart new system for charging electric vehicles is being tested in London to help get the electricity network ready for widespread use of electric vehicles.

If and when electricity starts replacing petrol and diesel as a main fuel source for transport, smart systems will be needed to prevent the electricity system being overloaded by colossal extra demand, or having to re-equip substations and dig up busy roads to lay new cables.

London’s electricity distributor UK Power Networks is working on the Low Carbon London trial with POD Point, Smarter Grid Solutions and Imperial College London.

Between December and April, the companies are testing POD Point’s new Carbon Sync software and Smarter Grid Solutions’ ‘active network management’ system to briefly suspend the flow of electricity to selected public EV charge points at peak times on the network, while still ensuring drivers receive a sufficient level of charge.

Three sites have been selected for the trial, including five public charge points in the City, ten in Beckton and 50 of the most popular points in London. The smart control system is designed to have no noticeable impact on those using the charge points.

Michael Clark, Low Carbon London programme director, said: “Success in these trials could reduce the cost and disruption associated with building new power infrastructure to support the expansion of EV charging systems, benefiting consumers across the country. We believe this is the first trial of ‘active network management’ involving electric vehicles in Britain.”

Alan Gooding, Commercial Director and Co-Founder, Smarter Grid Solutions, said: “Active Network Management is already proven as a highly effective way of connecting larger volumes of distributed energy, such as solar, wind and CHP, to congested electricity networks. This new trial is a great opportunity to demonstrate that the technique can also help electricity network operators to accommodate other features of a low carbon economy, such as electric vehicle use.”

Erik Fairbairn, CEO of POD Point, said: “Adding electric car charging facilities will require close monitoring to ensure that drivers are supplied with the electricity they need without potentially overloading the electricity network. The software used in this trial monitors in real time the demand, the status of all charge points in the network, and the level of charge required by each car in real time. This information is fed into a control algorithm which carefully manages the charge point to ensure the driver gets a full charge without exceeding local capacity.”

The Government’s Carbon Plan pledges to source ten per cent of UK transport energy from renewable sources by 2020. Without smart controls on the electricity network, estimates suggest a 25 per cent uptake of EVs by 2030 could lead to half the transformers closest to homes or businesses needing an upgrade, potentially increasing the cost of new EV infrastructure.

This is the challenge the new trial is aiming to address. The new software will provide live data showing electricity demand from a cluster of charge points and how much demand could be reduced, if curtailed. Interruptions to the EV charging are designed to have no noticeable effect on those using the charge points. In addition, by monitoring the state and rate of charge, the system will not interrupt charging to cars that need it most. Data collected during the trials will be extrapolated by Imperial College London to model the impact on London’s electricity cables and substations in various scenarios.

Photo Credit: waldopepper / Foter / CC BY-NC

1st Smart Electric Vehicle Charging Trial Launched In London was originally published on EV Obsession.

Why Solar Beats Out Other Stocks

Originally published on RenewEconomy. Solar stocks are certainly having their place in the sun, outperforming all other sub-indices in the global stock market to deliver the best returns over the past 15 months. After “taking off” in mid 2013, the 32 stocks in the global solar index monitored by global investment bank HSBC gained 65

Why Solar Beats Out Other Stocks was originally published on CleanTechnica.

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The Non-Food Biofuel Sector Should Grow Significantly, Lux Reports


Originally Published in the ECOreport.

Lux-Research-Biofuels

The biofuel industry has been enjoying a 19.6% annual growth since 2005. That is about to change. The World’s 53.2 billion gallon biofuel industry could grow to over 60 billion gallons during the next few years. Much of this will come from riskier next generation technologies.

Approximately 65.9% of global biofuel capacity in 2013 was ethanol, and this should increase slightly over the next few years.

Biodiesel shall continue to be the worlds’ second largest biofuel, and capacity should reach around 18.6 billion gallons a year by 2017.

The strongest growth will be in products like non-food diesel, butanol, biojet, and biocrude, which should increase at a rate of about 18.7% a year and control 3.3% of the market by 2017.

“Next-generation feedstocks like waste oils and cellulosic biomass are not tied up in the food supply and could unlock significant economic advantages, assuming novel conversions commercialize,” said Andrew Soare, Lux Research Senior Analyst and the lead author of the report titled, “Emerging Feedstocks and Fuels Spark Biofuel Capacity Expansion through 2017.”

“Meanwhile, next-generation fuels like renewable diesel will break down current barriers and drive long-term biofuel capacity expansion,” he added.

“Of the 782 MGY of announced cellulosic ethanol capacity, we expect 384 MGY to come to fruition, led by companies such as Beta Renewables, POET-DSM, and Abengoa,” the report states. “Renewable diesel from waste will emerge as a key biofuel process, while butanol and biocrude producers have the flexibility to sell into the chemicals market, and their effect on overall biofuel capacity remains minor.”

Close to 80% of the renewable diesel capacity over the next few years is already online, with players like Neste Oil and Diamond Green Diesel leading the market.

Gevo owns the only existent butanol facility and that is expected to come online soon.

AltAir has signed a 15 million gallon biojet contract with United Airlines. While this amount is relatively insignificant, it could signal the beginning of a shift in the industry.

Algal biofuels, such as Sapphire Energy’s much talked about green crude, are still years away from making a significant contribution to the market.

Americas’ biofuel industry enjoys high utilization and significant export, but is still threatened by regulatory instability.

There should be considerable growth in Europe, which has a 10% blending target for 2020, and in China. Non-food biofuels could meet China’s energy needs.

Lux Research analysts compiled a database of over 1,700 biofuel production facilities in 82 countries for this study

The report, “Emerging Feedstocks and Fuels Spark Biofuel Capacity Expansion through 2017,” is part of the Lux Research Alternative Fuels Intelligence service.

The Non-Food Biofuel Sector Should Grow Significantly, Lux Reports was originally published on CleanTechnica. To read more from CleanTechnica, join over 50,000 other subscribers: Google+ | Email | Facebook | RSS | Twitter.

This New Electric Car Is Demolishing The Competition In China

It’s hard to keep up with the Chinese electric car market — it’s harder to find a good, reliable source for Chinese EV news. Oh yeah, wait, there were hardly any EV sales in China last year — not much has been going on there. But things may be changing fast. The BYD Qin, which

This New Electric Car Is Demolishing The Competition In China was originally published on CleanTechnica.

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BYD Qin Plug-in Hybrid Electric Car Is CRUSHING It In China

I shared China’s 2013 electric car sales numbers in January. The total for all models came to 6,795. “In the first weeks of 2014,” BYD reports that about 6,000 units of its new Qin plug-in hybrid electric car have been sold! Holy cow. I’ve noted previously that sales for the BYD Qin were expected to […]

BYD Qin Plug-in Hybrid Electric Car Is CRUSHING It In China was originally published on EV Obsession.

Solar PV Market May Increase To 500 GW By 2018

Originally published on RenewEconomy. By Sophie Vorrath. The global solar PV industry is headed into a five-year growth spurt that will put it on track for cumulative installed capacity of 500 gigawatts (GW) by 2018, according to the latest NPD Solarbuzz Marketbuzz report. The report, released on Thursday, predicts a huge 100GW of solar PV

Solar PV Market May Increase To 500 GW By 2018 was originally published on CleanTechnica.

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Wind Farms Can Provide Clean Energy Surplus

The wind energy industry has seen a lot of growth over the past decade, and has become a dominant force in the renewable energy industry, up against traditional heavyweights like solar. Public support for wind is growing with each year, and leading wind companies like Vestas are developing more efficient and taller turbines.  Now, a

Wind Farms Can Provide Clean Energy Surplus was originally published on CleanTechnica.

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Greenpeace Pushing For Pan-European Supergrid

A report released by Greenpeace on Thursday based on analysis done by consultants Energynautics has floated the idea of a need for a pan-European supergrid to help meet the ambitious target of at least 45% renewables by 2030. “Europe’s energy system is at a crossroads,” the authors of the report write, noting that the existing

Greenpeace Pushing For Pan-European Supergrid was originally published on CleanTechnica.

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World Energy Outlook Underestimates Renewables


Originally published on Energy Post.
By Rolf de Vos and David de Jager.

Ecofys-EU-Wide-Renewable-Energy-Target-Necessary-Part-of-2030-PortfolioThe IEA’s annual World Energy Outlook (WEO) is seen as the most authoritative set of energy scenarios in the world. Yet when we test the forecasts for the growth of renewable energies in the WEO’s main scenario against reality, we find that the WEO consistently comes out too low. Each year from 2006 on the WEO has had to increase its forecast for wind and solar power. Yet each year the WEO predicts the growth of renewables to level off by 2020, for no clear reason. This sends a wrong message to policy makers about the real potential of renewable energy. It is time for the IEA to acknowledge that its assumptions need correcting.

Every year in November, the International Energy Agency publishes its annual World Energy Outlook (WEO). It intends to show the possible directions for our global energy system, with the goal of guiding policy makers in designing their policies and measures. The World Energy Outlook is the most authoritative scenario exercise in the world, and is seen as such by policy and decision makers. It’s not a prediction of the future, but a sketch of possible pathways. The fact that the WEO appears every year makes it possible to assess how well it forecasts the development of renewables in the various scenarios.  Looking back is not a favourite activity of scenario builders – they prefer to look forward. But it is instructive if you want to evaluate how well the scenarios hold up against reality.

As it happens, the IEA has a sub-programme for Renewable Energy Technology Deployment, IEA-RETD, supported by eight IEA country members, which carried out a limited assessment of the WEO-2013 and earlier editions. The results are very interesting. First the good news. In general, the scenarios are of high quality. That is to say, they generally pass the recommendations made in the IEA-RETD’s scenario guidelines (called “RE-Assume”), which were published last summer and which show policy makers how they should understand energy scenarios and transpose their conclusions into policies. The WEO does well by most criteria, e.g. on transparency.

This implies that policy makers should take to heart the WEO’s main conclusion regarding climate change policies: We need to take action that goes much beyond current policies to get anywhere near a safe pathway with respect to energy security and climate change. But the next question for policy makers is: What actions should that be? Here the bad news emerges. The WEO does provide clues about how renewable energy could contribute to the reduction of CO2 emissions, but these clues are absent in the WEO’s main scenario (the “New Policies” scenario). The assumptions about renewable energies used in this scenario and the modelling are based on misconceptions.

Mis-interpreting actual developments

We constructed some graphs showing the cumulative installed capacity of both solar and wind power forecast by the WEO from 2006 to 2013. As shown in the graphs below, every year the WEO adjusted its assumptions upwards. In each year from 2006, the reference scenario in the WEO shows higher cumulative capacity than the year before.

Source: Ecofys

Source: Ecofys

What is more, in all the WEOs the growth is expected to slow down from about the year 2020, but for no obvious reason. Our findings confirm what Terje Osmundsen recently wrote in Energy Post about how solar power is portrayed in the WEO. In wind energy the WEO’s adjustments are quite large as well. Hence, it’s not a wild guess that — unless something fundamentally changes — the 2014 WEO reference scenario will again show an upward adjustment of the growth in renewables towards 2035.

The alternative

The WEO’s New Policies Scenario describes the mainstream developments in global energy. These developments put us on a track for a disastrous global warming of more than 3.5°C, according to the WEO. The globally agreed (but not yet operational) target is an upper limit of 2°C. Hence, the IEA also publishes an ‘alternative’ scenario, which shows what actions should be taken to stay within the 2°C limit. This so-called 450 scenario, named after the upper limit of the CO2 concentration in the atmosphere (450 ppm) that still provides a reasonable chance of staying under a 2°C average temperature increase, is regarded as possible but not very likely to happen. According to our retrospective, especially from 2010 onwards, the alternative, 450 scenarios have been much more representative than the reference scenarios when it comes to the actual development of wind energy (and to a lesser extent, of solar power). As can be seen in the graphs below, the projected growth lines quite accurately follow the actual developments.

Source: Ecofys

Source: Ecofys

Unlike the reference scenario, the 450 scenario shows an increased growth of the cumulative installed wind and solar power capacity, starting from 2020. Obviously nobody knows for sure, but such an upward bend in the graphs seems more what one would expect from energy sources that will have gone further down the learning curve and the cost curve. What we can say, then, is that the WEO in its New Policies scenario in effect treats renewable energy technologies as a ‘black swan’, whereas in reality their development is quite stable and consistent.

Lessons for policy makers

Presenting the New Policies scenarios — including its unrealistic assumptions on renewable energy — as the reference scenario inevitably affects policy makers who will base their measures and policy designs on the WEO. The IEA itself in its policy recommendations does advise policy makers to eliminate fossil fuel subsidies to create a level playing field for renewables. However, in its WEO the IEA seems reluctant to fully explore the realistic opportunities that present themselves in the 450 scenario. It insists on presenting the New Policies scenario as the central one. This makes it seem as if the ability of renewable energy to contribute to lower CO2 emissions is less than it actually is.

Externalities

Another problem with the WEO’s main scenario is that it insufficiently takes into account the value of things like jobs, environmental damage, health effects, security of supply and household energy bills, all of which are quite important for policy makers. For instance, the negative impact of CO2 emissions on climate-related aspects is expressed in the price of CO2 assumed by the scenarios. The New Policies scenario assumes a price of € 20 per tonne by 2020 and € 40 by 2035. These prices are a lot lower than the actual costs of externalities. This choice directly impacts the relative economic position of renewables compared to fossil fuels in the scenarios. By contrast, the CO2 prices in the 450 scenario (increasing to € 95 per tonne in 2030 and € 125 by 2035) are much more representative of the real externalities. One may argue that including externalities would create an exotic economic basis for the scenario modelling. But to a limited extent, including externalities is actually already happening in real life. New fossil-fuelled and nuclear power plants already are more costly than older ones, mainly because they have to be compliant with higher environmental and safety standards. This can be regarded as a way to prevent part of the external costs mentioned above. Leaving out the full external costs stacks the odds against clean technology.

Realistic policies

Scenarios don’t create their realisation on their own. As the WEO confirms, scenarios can only come to real life with the support of policies and measures.  Policies are absolutely crucial for creating the level playing field for renewable energy sources, including externalities and harvesting the benefits of new energy systems. Nevertheless, modelling a 2°C pathway on realistic assumptions will be instrumental to designing and implementing the right policies. Moreover, if the World Energy Outlook would present a reference pathway that shows larger contributions from renewable energy on realistic grounds, policy makers have the IEA’s authority to rely on when proposing policies. It is time for the WEO to leave this beaten path of describing global mainstream thinking and to provide more realistic perspectives for policies that follow a 2°C pathway. Transposing some of the realism from the 450 scenario to the WEO’s main scenario would re-establish the WEO’s status as a realistic vision and would provide policy makers with a clear view on which sustainable pathways to follow.

World Energy Outlook Underestimates Renewables was originally published on CleanTechnica. To read more from CleanTechnica, join over 50,000 other subscribers: Google+ | Email | Facebook | RSS | Twitter.