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Logica and EdP’s smart grid trial in Évora

Energy management devices

Logica brought me to the pretty Portuguese town of Évora recently to check out the InovGrid project which they have been participating in, along with EdP and other partner companies.

InovGrid is an ambitious project to roll out smart grid technologies to six million customers across Portugal. Évora’s InovCity is the first stage of the project. There are 35,000 people living in Évora, almost all of whom have been issued with smart meters by now.

The smart meters are connected in realtime to in-home displays (like the one pictured above) which takes energy consumption readings every two seconds and plots it on the screen. It can display the usage data as kWh, CO2 or more tangibly, the € cost. If the home or business has an internet connection, this information can be viewed remotely on a computer or mobile device (as seen on the laptop on the right in the image above). Interestingly, there is two-way communication going on here, so if smart plugs are installed in the house, they can be controlled (on/off) from the in-home display, or remotely.

The information displayed on the in-home displays, and remotely, is not the same information which is sent to the utility for billing purposes. This may lead to some discrepancies in the € amount on the displays versus the amount on the bill at the end of the month. The smart meters send billing information to the utilities over Power Line Communications (with a GPRS backup). Even with the PLC connection, there is far too much data in 2 second reads, so a lower rate of reads is sent to the utility for billing purposes.

Interestingly, the in-home device shown above was installed in a coffee shop in Évora and it was possible to watch the fluctuations in the consumption graph in realtime as coffee was being made for customers. Also, the coffee shop realised €500 savings per annum in their energy bill when they examined the information from the device and realised they were not on the optimal tariff. It also demonstrated to them the savings to be had from turning off the coffee machine overnight, so the extra information from the device helped influence their behaviour.

EV Parking spot

EV Parking spot

Other than the smart meters, we were shown the information display in the town hall, which shows the realtime energy consumption of the building. This information is also supposed to be available on the town hall’s website for citizens to see remotely, though I failed to find it there (doubtless due to my lack of Portuguese!).

Other nice features on display were dedicated parking places for electric vehicles (EV’s), complete with charging stations as well as LED streetlights with motion sensors which dim the lights in the absence of people on the streets. The EV parking place was predictably empty due more to the general unavailability of EV’s than anything else. The LED streetlights though was interesting. Very few towns or cities have, as yet, embraced LED streetlights and yet 50% of a town’s energy spend can be on streetlights. LED lights can save 80-90% of the energy cost over traditional streetlights, they can report back their status (obviating the need to have staff checking for lighting failures) and they have a much longer lifetime, so they save on maintenance costs as well as energy.

It would be interesting to hear back from the InovCity people how much Évora is saving on lighting costs from the move to LED (even if only the energy savings) but even more interesting would be to try to see if the rollout of the smart meters and in-home displays has led to any sustained, per home, energy consumption reduction.

One last comment on this project – I can’t help but feel that the provision of in-home displays is an idea whose time has past. These days most people have access to a tablet, a smartphone or a computer where they can access this information. I suspect as the InovGrid project rolls out beyond the 35,000 inhabitants of Évora to rest of Portugal, the IHD’s will become at best, an added extra option, or quietly killed off.

Photo credits Tom Raftery

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Power line communications now being used in more and more scenarios

Power Line Communications

I had a nice catch-up call with Mike Holt the other day – Mike is Semitech Semiconductor’s VP Sales and Marketing and we had previously talked last August.

Mike was bringing me up to speed on what has been going on with Semitech in the last five months. Semitech make semiconductor chips specially designed for power line communications (PLC). Power line communications is essentially the use of electrical cables to transmit data.

Power line communications is receiving a lot of interest these days because of the current buzz (bad pun, sorry) around Smart Grids. Every smart meter is, by definition, connected to an electricity distribution network – if this network can be used to send and receive information, it saves having to roll out a separate infrastructure for your smart grid communications.

During our call, Mike made me aware of a number of bits of Semitech news (they’ve expanded their sales team, they had new product announcements and they closed a new funding round) but by far the more interesting part of the chat, for me, was when Mike started to tell me of the new markets that are expressing an interest in PLC.

According to Mike, there is now a growing interest in PLC coming from the urban lighting sector to help with maintenance and control of lighting. Mike gave me the example of Munich. Apparently there are five people employed in the city whose job it is to drive around the city at night spotting burnt out lights – with a PLC solution, you can receive an automatic notification as soon as your sodium lamps burn out and you get early indications that an LED is about to burn out allowing you to switch it out before it goes dark.

LED’s by themselves save large amounts of money (this is very important when urban lighting makes up to 40% of a cities energy budget) but, as we reported last year, LED’s when they are connected to an intelligent control system can save up to 87% on energy costs!

Other new markets for power line communications Mike mentioned were for remote management of solar panels on remote solar farms and seemingly there is a growing interest in PLC in the home automation field – which makes a lot of sense too.

Power line communications is not without its challenges – electrical networks can be ‘noisy’ and be prone to attenuation but as companies like Semitech become better at dealing with those issues, it is going to be fascinating to see just where PLC takes us.

Photo credit Ruud Hein

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Green Bits and Bytes for January 20th 2011

Green bits & bytes

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Here are a few of the Green announcements which crossed my desk this week:

  1. A new scheme called SunShare launched in the UK this week. The scheme allows home-owners to invest in solar panels for their home for only a part of the upfront installation costs. This means that qualifying UK homes can now get a fully installed solar PV system for as little as ?3,999, they will benefit from free electricity and they will also be able to earn more than ?1000 a year from the government backed Feed-in Tariff scheme.

    The UK Feed-In Tariff scheme is one of the most generous in Europe, paying 41.3p per kWh of electricity produced, regardless of whether it is used by the home-owner or not. The tariff is guaranteed for 25 years and it is index linked for Solar PV Systems.

    ?The government will review the scheme in 2012, which is likely to see The Feed-in Tariff rates changed from April 2013 for any new homes applying for it. There is therefore a window of opportunity now for consumers to take advantage of the current rates on offer? according to Mark Wynn, Managing Director Avoline PLC, the company which launched SunShare.

  2. Semitech Semiconductor, a Power Line Communications (PLC) chip maker with chips designed to enable communications for the Smart Grid announced yesterday that they had completed its Series A financing raising AU$3.4 million.
  3. The Institute for Transport and Development Policy released a report on Wednesday entitled Europe?s Parking U-Turn: From Accommodation to Regulation [PDF]. The report examines European parking policies over the last fifty years and found that European cities are reaping the rewards of innovative parking policies, including revitalized town centres; reductions in car use; drops in air pollution and rising quality of urban life.
  4. SAP’s rollout of e-mobility infrastructure which I wrote up just before Christmas has now been extended to their German HQ in Walldorf. SAP, in conjunction with local utility MVV Energie, have taken delivery of 30 electric cars and will be testing use of them by their employees as part of their Future Fleet project.

    The cars will be powered exclusively with electricity from renewable sources and this will be important given that over 80% of SAP’s direct CO2 emissions in EMEA come from company cars.

  5. On-demand environmental software maker Locus Technologies, announced this week that they have been certified as compliant with SAS 70 (Statement on Auditing Standards No. 70). Given that Locus are a SaaS company (i.e. they host their clients environmental information) this is a vrucial certification to have achieved – it gives confidence to Locus customers and potential customers that their data is safe with Locus.

Photo credit .faramarz

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What is the best communications protocol for Smart Grids?

Communications tower

Photo credit urbanfeel

One of the key tenets of a Smart Grid is that you have real-time, two-way communications between the consumer and the utility company. To enable this a communications infrastructure needs to be rolled out. Before that can happen though, we need to examine the different communications protocols to find the most suitable one.

I was talking to Andy Slater, the EMEA Marketing Director for Sensus, the other day. Sensus are the company providing the communications platform for UK-based Arqiva’s Smart Grid pilot in Reading [PDF]. And their proposed Smart Grid communications infrastructure for all of Britain. While, in North America Sensus have 8 million end points rolled out across 225 utilities.

The Sensus solution uses long range radio to communicate with smart meters. This allows Sensus to achieve a 99.5% first-time connection rate during installations, according to Slater. This is higher than most other technologies (GPRS, WiMax, etc.) and so saves a considerable amount of money by obviating the need for a second call out or re-engineering.

When I mentioned that Power Line Communications (PLC) would, by definition, have as close as possible to 100% first-time connectivity, Andy countered that that’s all well and good for electrical meters but the Sensus solution also works for gas and water meters. He then went on to point out that PLC requires far more repeaters to boost the signal and that it is not suitable for high voltage equipment.

The other advantage which Andy mentioned is that for gas and water meters which are not powered, battery life is going to be an issue. GPRS and mobile solutions require a lot of power and their battery life may be as short as 5 years whereas Andy claimed because the power requirement of long range radio is lower, the batteries in their meters could last up to 15 years, thereby reducing service calls to replace depleted batteries.

Listening to Andy, you could be forgiven for wondering why any utility would go with a communications protocol other than long-range radio – so can anyone enlighten me – what is the best communications protocol for Smart Grids?

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