The smart grid has attracted a lot of public8ity as it is a
good idea that is actually feasible today.
The catch of course is that with all such processor driven applications,
the hardware rollout is the trivial part and it gives everyone a false sense of
accomplishment.
The hard part is the software rollout is way more difficult
and it is normally an evolutionary process.
It goes from crummy (today as in this material) to a good working system
in months and actually years. Recall
that it took most of twenty years for complaints regarding operating systems to
largely subside.
The smart grid promises to be just as demanding for
programmers as hardware will now respond to the new capability by changing.
Again the idea is good and it is timely. Just do not expect too much too soon.
KATHERINE TWEED: JULY
8, 2011
Buried amongst 900 pages is information about how California
When California’s three largest utilities were ordered to file smart
grid deployment plans, it was expected that some sections would look very
similar since San Diego Gas & Electric, Pacific Gas & Electric and
Southern California Edison worked together while creating the filings.
From distribution
automation to electric
vehicle adoption, there are similar threads throughout the reams of paper
filed this month with the California
The metrics, which were developed over the last year, will be used by
the PUC to provide updates to the legislature. Even though they won’t be
finalized by the PUC until later this month, there will likely be little change
from the current iteration. The metrics cover customer and meter metrics,
storage, electric vehicle integration and reliability. SCE gets style points
for the most color and providing ample explanation along with the figures.
Although there are some interesting data points in the reliability and
distribution automation metrics (SDG&E already has 73 percent of its
circuits automated, compared to less than 50 percent of the other two
utilities), the best area to watch will surely be how the three utilities
deliver the value of the smart grid to their customers.
Here are the metrics to watch:
1. Number of advanced
meter malfunctions where customer electric service is disrupted
SCE wins on round one of this measurement with a total of zero for
2010. The figure does not include meter malfunctions that result in wonky
billing, just those that occur when service is interrupted. PG&E put up the
largest figure with 587 meters. That was attributed to radio frequency
interference with breakers, an issue that the utility says it resolved by
installing low power meters. SDG&E reported 37 meter malfunctions with no
explanation. It would help to have a baseline to compare amongst traditional
meters to better understand what these numbers mean for consumers. However, a few
hundred meters is a small figure given that millions have been deployed.
2. Load impact from smart grid-enabled, utility administered DR
programs
Demand
response is already happening across California, but the initial
figures of programs that have been enabled because of smart meters, rather than
legacy interval meters (mostly on the commercial & industrial side), is
limited. SCE could not clearly attribute any of its DR programs from large
C&I programs directly to smart grid devices for 2010. PG&E was in the
same boat as SCE for 2010, although it did not specify if its smart meter
rollout would enable more DR in 2011. SDG&E counted 50 MW, 14 of which came
from the residential sector.
3. Percentage of demand response enabled by AutoDR
California is the only state that has officially adopted OpenADR,
or open automated demand response, as a standard. Interestingly, PG&E did
not measure loads that were enabled by AutoDR versus other demand response
platforms. SCE had the largest reported value, with nearly one quarter of its
Demand Bidding Program coming from AutoDR. Ten percent of SCE’s critical peak
pricing program came from AutoDR, compared to 4 percent for SDG&E. Those
figures should continue to grow in 2011, especially since this is a separate
metric from more general load shedding. Various companies, from EnerNOC to
Honeywell, have embraced AutoDR, with the expectation that it will expand
within and beyond California
4. The number of utility-owned advanced meters with consumer devices
with Home
Area Network (HAN) or comparable consumer energy monitoring or
measurement devices registered with the utility
To sum it up, the figure here is zero all around, with the exception of
a few very small trials conducted by SCE and PG&E. The utilities are
waiting for the adoption of the Smart Energy Profile 2.0 HAN national standard,
which might not be finalized until 2014 at the earliest. SCE, however, says it
will have a pilot with several thousand devices later this year. The other
utilities did not attempt to explain future rollouts or setbacks, but it is
likely that large-scale HAN hardware is still years in the future in California
5. Number of customers that are on a time-variant or dynamic pricing
tariff plan
One factor that might drive No. 4 is dynamic pricing. In 2010, the
figures varied wildly when it comes to pricing. PG&E boasts more than
100,000 residential customers on a dynamic pricing tariff, although they don’t
break down which of those are in a peak time rebate program versus a variable
time-of-use rate plan. SCE counts zero, with programs beginning in 2011.
SDG&E is somewhere in the middle with 1,888 residential customers on
dynamic priding and nearly 25,000 C&I customers.
This metric is interesting and vague at the same time. There are
various types of programs, from rebate programs to time-of-use rates, and as it
stands, the specific breakdown is not reported. However, the right pricing
schemes can help drive people and businesses into demand response programs,
which in turn can lead to more adoption of HAN devices on the residential side
-- so this is one metric to keep a close eye on.
6. Number of escalated customer complaints related to the accuracy,
functioning, or installation of advanced meters
This is a murky metric because it starts with “escalated,” which does
not include the initial complaints that come into a call center. In one way, it
is more accurate because there are various complaints that are resolved in a
single phone call -- but it might be telling to see the difference between
initial and escalated calls. It is not PG&E that leads this category, but
rather SDG&E, with 2,123 escalated calls. PG&E is second with 1,470.
As the utilities provide customers with access to usage data, these
numbers should shrink in coming years. This is a metric that is already being
used in a different way in Texas
7. Number of utility-owned advanced meters replaced annually before the
end of their expected useful life
This is another metric that, for 2010, looks like it was sliced a few
different ways. SDG&E reported more than 27,000 advanced meters were
swapped out in 2010, compared to just 4,739 for PG&E. However, PG&E
noted there were another 50,000 advanced meters that were removed for
investigation under the “meter vendor warranty process.” PG&E said 22,000
of those might have malfunctioned. SCE had about 8,500 advanced meters that it
replaced. Although 20,000 meters is a small percentage of the millions being
deployed, that’s still a lot of households -- and potentially angry individuals
-- with a faulty meter.
8. Number of advanced meter field test performed at the request of
customers pursuant to utility tariffs providing for such field tests
PG&E leads this category with more than 10,000 customer requests
for their smart meters to be tested. The other two utilities each had fewer
than 1,000. Last year saw multiple reports that validated the accuracy and
safety of smart meters, so all of the figures should shrink in 2011.
9. Number and percentage of customers with advanced meters using a
utility administered internet or web-based portal to access energy usage
information or to enroll in utility energy information programs
PG&E also jumps ahead in this category, although the other two
utilities are already have plans underway for portals for 2011. PG&E
reported more than 400,000 usage inquiries for smart meter customers. All three
utilities are offering portals for customers to check their energy consumption,
and the offerings should become more sophisticated in coming years. The
California PUC also recently laid the groundwork for third-party access to
smart grid data, so other players will be looking to come into the market as
soon as those are finalized.
For some reason, plug-in electric vehicle price tariffs garner their
own category in the metrics section. PG&E is out ahead in this as well, with
nearly 200 customers on one of its two EV tariffs, compared to about 120 for
SCE and 30 for SDG&E. However, SCE notes that for those with plug-in
hybrids, specific rates might not appeal to those drivers because of smaller
battery sizes and lower charging levels. These figures don’t accurately reflect
EV adoption in California
Comment by Carl Hage 07/8/11 3:16 PM
I’m in PG&E territory, and I and my friends have new “smart”
meters. But I can tell you that it is impractical for customers to get detailed
usage information from the PG&E web site—it’s a horrid pile of complex
javascript, flash programming, overly complex cross-site CGI scripts with
thousands of bytes of cookies. (It must have been expensive to program.)
The claim is that smart-meter information is available, but it takes
way more than 5 minutes of clicking to get a week’s worth of data—if you are
lucky and the scripts don’t hang. (I’ve never been that lucky and haven’t had
the patience and persistence in retrying to download just a weeks worth of
data.) Even the most eco-conscious people cannot get at the data needed to
analyze usage and get estimates of cost savings. Third party access is not
allowed so Google power meter couldn’t be used for their own employees. People
have to buy a $300 add-on because the PG&E web site sucks.
I’m working on a set of scripts to hack the PG&E web interface so I
can download my own data and data on behalf of my friends, but it’s really
complex and I haven’t had time. Another guy did the same (but in Ruby) and
commented on the complexity. There is a problem with using the software on a
third party site because you need your billing login and password to access
meter data—I can only do this for friends that trust me.
Here are my suggestions:
1. The CPUC should mandate that customers should have convenient access
to detailed usage information and summary reports. Customers should be able to
use third party software or services without compromising billing passwords.
Pricing information (for use by third party apps) needs to be in computer
readable format (not piles of print-only PDF).
2. The CPUC should form a panel to evaluate the usability of
web/internet access portals to usage information, and evaluate the
effectiveness of summary reports and paper bill inserts. Utilities should be
given a grade A-F: A means hard to imagine better, F means unusable. Utilities
with an F must scrap the system and start over (and perhaps disallow cost
recovery). (PG&E gets an “F” because it’s so complex and tedious no-one can
use it to really analyze data, and the graphs don’t really help people identify
costs and possible savings. The poor interface inhibits third party analysis.)
3. Customers should be able to create a separate login ID and password
only used to retrieve usage, so it can be used with third party software and
services to download data. Customers (using billing login only) can change this
password to rescind access.
4. Customers should be able to sign up for a weekly or monthly email
message to have usage data delivered directly in email attachments (no web
access). Besides data viewable in a spreadsheet or auto-imported into a
software tool, the message could include some summary analysis.
5. Utilities should develop sophisticated statistical analysis software
to recognize certain usage patterns and guess at possible cost-saving
opportunities. For example, my refrigerator has a square-wave regular usage
pattern especially visible at night—software analysis of a month of data can
estimate annual cost for running this refrigerator and compare it with new
refrigerators. Usage by hour-of-day (weekday+weekend) can be summarized with
10%-50%-90% ranking. Looking at changes during evenings, etc. estimates could
be made for possible savings with different lights, new energy-star TV, etc.
Vampire power can be easily reported with annual cost. A friend has >200W of
base power—way more than needed. Since utilities have meter data for all
houses, it’s easy for them to compare a customer’s use patterns with a
histogram of all houses in the neighborhood. The analysis could be improved if
customers opt to go to a web site and give more information, e.g. how many
people live in a house (adults/teens/children), what kind of appliances,
heating, cooling, etc. are used, is there a pool, etc.
6. The paper bill should include a basic report on usage, e.g. small
graph of daily usage, and a graph (low-median-high) showing usage by hour. A
summary could estimate annual savings opportunities for reducing vampire power,
changing lights, etc., perhaps as a percentage and compared to neighbors. The
report could include if time of day billing is better or worse than flat-rate,
or could be better if usage patterns were shifted. This simple report included
with the paper bill could include an invitation for more detailed analysis.
Customers with excess use patterns could have special messages. People with
e-bills could receive even nicer reports as email attachments.
7. The standard analysis/reporting by the utilities included with
paper/electronic bill should compete with third party analysis software and
services. Data must be easily accessed by third parties and under control by
the customer.
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