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EPRI releases open, standards based software, to connect smart homes to the smart grid

Smart Appliance Screen

Automated Demand Response (ADR) is something we’ve talked about here on GreenMonk for quite a while now. And in other fora, at least as far back as 2007.

What is Automated Demand Response? Well, demand response is the process whereby electricity consumers (typically commercial) reduce their usage in response to a signal from the utility that they are in a period of peak demand. The signal often takes the form of a phone call.

Automated demand response, as you would imagine, is when this procedure is automated using software signals (often signals of price fluctuation). The development of ADR technologies received a big boost with the development of the OpenADR standard, and the subsequent formation in 2010 of the OpenADR Alliance to promote its use.

Consequently, EPRI‘s recent announcement that it has developed automated demand response software, is to be welcomed.

In their announcement EPRI say the new software will:

provide a common way for devices and appliances on the electric grid to respond automatically to changes in price, weather, and demand for power, a process called automated demand response (ADR).

ADR makes it possible to translate changes in wholesale markets to corresponding changes in retail rates. It helps system operators reduce the operating costs of demand response (DR) programs while increasing its resource reliability. For customers, ADR can reduce the cost of electricity by eliminating the resources and effort required to achieve successful results from DR programs.

The EPRI ADR software was certified by the OpenADR Alliance. “Making this software freely available to the industry will accelerate the adoption of standards-based demand response” said Mark McGranaghan, vice president of Power Delivery and Utilization at EPRI.

This software has the potential to finally bring the smart grid into the home, allowing smart appliances to adjust their behaviour depending on the state of the grid. Some manufacturers have been fudging this functionality already with a combination of internet connected devices and cloud computing resources (see Whirlpool 6th Sense device above). And others, like GE are planning to bring older appliances into the connected fold, by sending out wifi modules that add new sensor capabilities.

Connecting appliances to the grid has the ability to make them far smarter. We’ll be discussing this, and more IoT topics in far more detail at ThingMonk, our upcoming Internet of Things event, in Denver next month. Hope to see you there.

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Why Smart Grids are good!

I have made no secret of the fact that I am a big fan of Smart Grids and Demand Response programs (properly rolled out, of course!). I have also spoken at various international conferences propounding the benefits of Smart Grids and Demand Response for quite a while now.

You can imagine my disappointment then when I read an article entitled Outsmarting the Smart Grid which was strongly anti-Smart Grids, on The EnergyCollective site by William Tucker, a pro-nuclear writer.

William sets a facetious tone for the article in his opening paragraph:

The latest delusion about energy is the “smart grid.” This bright new technological miracle will once again help us overcome the realities of physics and allow us to live in a world run on wind and sunshine.

The genesis for Mr Tucker’s displeasure appears to be the above GE ad informing people of the benefits of Smart Grids.

He says

It’s fitting that the girl is standing in front of a clothes dryer because that and washing dishes are the only examples anyone has ever been able to come up with about how residential users are going to “redistribute” their energy consumption.

What else can they do? Are they going to wait until after midnight to watch prime-time television? Are they going to heat up dinner at 4 a.m.? Are they going to turn on lights at sunrise instead of sunset? And how about air conditioning, that most voracious consumer of electricity?

Again with the unhelpful sarcasm.

While it is true that not all loads in the home are movable – I use the example that I am highly unlikely to get up at 3am to cook my dinner just because energy is cheaper – there are more than just the dish washer and the dryer. Mr Tucker neglects to mention here air conditioning (though he does mention it elsewhere in his post so he is aware of it). Nor does he mention heating water in an immersion, refrigeration, PHEVs or storage heaters for example – all very movable residential loads. Of course, he neglects to mention industrial scale demand response altogether!

Mr Tucker then re-defines the Smart Grid to suit his argument

the underlying presumption of the smart grid is that it will somehow help us conserve significant amounts of energy

Uh, no it isn’t. The presumption of the Smart Grid is that it will more closely align demand with supply, thereby stabilising the grid and facilitating the further penetration of renewables onto it, thereby lowering our carbon footprint. The Smart 2020 report (7mb pdf) estimates that Smart Grids will reduce CO2 by 2.03 GtCO2e by 2020.

Mr Tucker seems hell-bent though on criticising Smart Grids for not reducing consumption quoting from the Electric Power Research Institute (EPRI) “The Green Grid,” study published last June

its most optimistic prediction was that by 2030 we could reduce electrical consumption by 7 to 11 percent below what is now being projected. That’s not an absolute reduction in consumption but only a slowing of its anticipated rise. Second, as the study concludes, “shift[ing] load from on-peak to off-peak periods may not necessarily save energy.” It will only save money. And when you make electricity cheaper, people may consumer more of it.

What Mr Tucker is again conveniently forgetting is that electrical consumption is not the problem, per se. The problem occurs when that energy is generated using coal, oil or some other non-renewable form.

In fact, there are times when we have too much electricity and you are increasingly seeing wind farms curtailed as a result of this phenomenon. Instead of curtailing wind energy when we have an excess, what we should be doing is demand stimulation – stimulating people to increase their demand at this time of excess supply. This can be achieved by dropping the price of electricity to 0 or even making it negatively priced and making that information available via Demand Response programs rolled out over Smart Grids.

Mr Tucker concludes by once more poking fun at the GE ad

In that light, it’s worth going back to that last little GE vignette where the girl says, “It’s sunny in Arizona.” She is standing at a window looking at a waxing half moon about three hours above the horizon. If she’s in the Midwest, that means the sun has already set in Arizona. If she’s on the East Coast, then it’s about to go down. She’d better get to bed because in another twenty minutes the lights, refrigerator, television, computers and everything else are going to turn off.

Meeting pointless pedantry with more pointless pedantry, the girl is looking at a street light, not a waxing moon.

Mr Tucker’s main argument is that Smart Grids won’t necessarily reduce consumption so we shouldn’t bother with them.

Energy is very abstract, no-one really cares how much they use. What they do care about is the utility bill at the end of the month and increasingly, the carbon footprint of that consumption. If I consume 10 TeraWatt hours in my home daily (not possibly obviously!), as long as it has a negligible carbon footprint, so what?

What Smart Grids and intelligent Demand Response programs will do is, massage the demand for electricity so that it lines up with the supply. This stabilises the grid for the ISO (the grid operator) allowing them to add even more variable generation sources (i.e. renewables) to the system lowering costs and carbon footprints. Win, win.

The discussion continues in the comments where Mr Tucker rails against Demand Response

Now that I think about it, here’s what’s going to happen if the utility can cut off 1/6th of its air conditioning load on a rotating basis. If people know this – which they will – they’re just going to run their air conditioning a little higher while it’s on in order to compensate for the 1/6th of the time it’s off. It’s like the low-flush toilets that you have to flush twice to do the job.

However, for once he has a valid point!

This is why when you roll out Demand Response programs, you put the control directly in the hands of the consumer. The top-down, command and control utility attitude of “we’ll turn off your aircon when it suits us” will only turn people against Demand Response.

Instead, you roll out home area networks and home energy portals where people decide themselves how they want their devices to respond to pricing signals. You’d be able to program your dishwasher to wash the dishes when electricity at 6c/KWh or 6am, which ever came sooner, for example. If you put the washer on at 8pm, for the most part, as long as the dishes are washed by 7am the following morning, you don’t care when it happens.

Similarly with your immersion, if it selectively heats the water when electricity drops below either a set price or a set temperature, as long as you have enough hot water, you are happy.

Obviously any home energy portal like this would allow the home owner full control over all the devices in the house because they belong to the home owner, not the utility!

Long term, what I want to see happen is, I want utilities to publish their generation mix (% coal, % natural gas, % oil, % hydro, % chg, % wind, etc.), as well their prices, in realtime. That way I should be able not only to control my devices but also have the ability to select the Greenest utility supplier dynamically at any time – now that’s a Smart Grid well worth having.