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NATHAN PHILLIPS: Where
we are scientists--

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I'm speaking as a
professional scientist--

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and the wall they we're hitting
in communicating our science,

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and having things
translate out of there--

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I'm aware of a
paper that was just

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published a few weeks ago
that's on the importance

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of storytelling in science.

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And that they found that some
published journal articles that

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had more of a narrative
structure are getting

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00:00:50,120 --> 00:00:54,510
cited more because people
want to hear stories.

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The dry, scientific, just
the facts aren't working.

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They want to hear stories.

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So I want to share
my story with you

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about how I got involved
in this gas leak stuff,

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and then I'll hand
the baton to Audrey,

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and she'll take it from there.

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00:01:09,900 --> 00:01:15,110
But I started about this thing
about the methane gas leaks

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as a citizen.

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This started in
2010, November 2010,

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for me, walking two blocks
away from our home in Newton,

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in the Auburndale
village of Newton,

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with my 10-year-old son,
who was 7 or 8 years old

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at the time, Julian.

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And two blocks
away from our home,

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we came upon a gas
leak, and someone

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who was working on gas leaks,
Bob Ackely, Gas Safety USA.

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00:01:44,360 --> 00:01:47,290
He's a 30-year
professional, non-scientist,

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but that curiosity, what
are you doing there.

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He looked like Ghostbusters
with a metal detector,

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00:01:54,880 --> 00:01:56,730
but it was a gas meter.

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00:01:56,730 --> 00:02:00,650
And that's how I got
involved in understanding

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00:02:00,650 --> 00:02:03,080
this problem with gas leaks.

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00:02:03,080 --> 00:02:05,210
So it was as a citizen.

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And for me, that has
started a process

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by which I've grown
as a scientist citizen

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and come into a community
science framework,

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working with Audrey and a
whole group of other citizens

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in a community.

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00:02:23,600 --> 00:02:26,060
And we've defined,
I think, a community

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that crosses all
types of boundaries

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to address the
problem of gas leaks.

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00:02:31,250 --> 00:02:34,670
So from that first
chance citizen

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kind of experience for me, till
2013, the science part of this

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developed that we mapped out
over 3,000 of these gas leaks

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in the city of Boston.

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00:02:49,950 --> 00:02:54,530
And then we followed it up with
a study in which we estimated

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that the amount of gas being
lost in Eastern Massachusetts

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amounted to about 10% of the
Commonwealth's greenhouse gas

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emissions inventory.

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So that propelled a coalition
of a community to then say,

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how do we move our
political leaders

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to actually create policy
to address this situation?

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So it's been a really
fulfilling thing for me.

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And I will say that the
science that we did, actually,

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and what we published in
the journals, is not new.

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The problem had been
known about for decades.

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It's just that it was
not known to the public.

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So we found citizen
after citizens

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in different neighborhoods
of Boston that would say,

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oh yeah, I know
about a gas leak.

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I smell it every time I
go walking to the store.

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And so what we
realized is that there

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were hundreds of anecdotes
that were completely

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siloed from each other.

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And once we put a map
out there, the community,

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everyone could see the
whole thing collectively

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at the same time.

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And that was the
only thing we did.

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We just made it visible.

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And Audrey took it
to the next step,

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and I'll pass the baton to you.

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AUDREY SCHULMAN: OK, thanks.

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So I'm just going to
talk for one second

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about what actually
gas leaks are, since--

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from pipes under
the street, right?

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So a lot of our pipes under
our street are really old.

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Here's a close up detail of
back bay, a National Grid map,

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very small detail of it,
and you can see that two

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of the pipes running down--

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00:04:32,420 --> 00:04:37,550
the 1860 one is a pipe from
1860 running down Beacon Street.

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00:04:37,550 --> 00:04:42,830
And two streets away running
down Comm Ave is one from 1882.

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And those pipes
are still in use.

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So we've got some really
old infrastructure around.

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The problem with gas leaks is,
they're potentially explosive.

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This is a picture of the
explosion in Harlem about two

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years ago, I think 2014.

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00:04:59,920 --> 00:05:04,050
As they gas percolates
up through the soil it,

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00:05:04,050 --> 00:05:06,810
pushes oxygen out
and trees actually

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00:05:06,810 --> 00:05:08,910
need to breathe oxygen
through their roots.

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So they can die.

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And then it's, as Nathan said,
a powerful greenhouse gas.

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If you burn natural gas,
it's turned into CO2.

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If you don't burn it,
it stays as methane.

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Methane, on a
20-year time frame,

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00:05:27,960 --> 00:05:32,970
is 86 times more
damaging than CO2.

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And finally, we
have to pay for it

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because the utilities
can pass that cost

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on to us, the ratepayers.

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00:05:39,960 --> 00:05:42,040
So it's sort of just insulting.

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So when I read about
Nathan's first,

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I run an energy
efficiency nonprofit.

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00:05:47,860 --> 00:05:51,870
And primarily, we used to work
in the buildings of nonprofits

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00:05:51,870 --> 00:05:54,870
to help them lower their energy
bills and energy emissions.

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00:05:54,870 --> 00:05:57,840
And so then, a lot
with Mass Save,

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00:05:57,840 --> 00:06:01,380
which is the state's
energy efficiency

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00:06:01,380 --> 00:06:03,850
state-funded program.

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00:06:03,850 --> 00:06:06,330
And so I read about
Nathan's research

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00:06:06,330 --> 00:06:08,700
when he surveyed all
of Boston and found

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those over 3,300 gas leaks.

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And there was one line
in the article that

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said that the amount of gas
lost in just Boston alone

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00:06:18,930 --> 00:06:21,810
totally erased all of the
state's energy efficiency

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00:06:21,810 --> 00:06:23,890
programs.

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00:06:23,890 --> 00:06:25,980
And so I was that was it.

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I was in.

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00:06:27,780 --> 00:06:32,730
So I called up Nathan
and said, how can I help?

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And he was kind
enough to loan us

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00:06:35,670 --> 00:06:38,790
his extremely fancy
cool equipment, which

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is called the Picarro High
Precision Natural Gas Analyzer.

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00:06:43,150 --> 00:06:47,190
And we drove it all over
Cambridge and Somerville.

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So the yellow lines
are where we drove--

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or not, we Bob Ackley--

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drove.

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And the spikes are where there
is elevated levels of methane

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found.

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And it's sort of fascinating.

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We found no correlation between
income level of neighborhoods.

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Because they're
just-- you'll see them

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sort of somewhat
clustered together

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00:07:16,610 --> 00:07:19,100
because neighborhoods are
built at the same time,

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generally, using the same
infrastructure, same material.

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Here's what I call the
Alps of North Somerville.

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And we will be going, we'll
be doing a leak survey

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00:07:34,760 --> 00:07:37,970
in the fantastic van
with the Picarro,

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so you can come along and
see these on your own,

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and do some surveying
on your own.

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AUDIENCE: And smell it.

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AUDREY SCHULMAN: Yeah, I
mean we can also smell--

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00:07:49,971 --> 00:07:52,257
see what's fascinating to
me, is like, near my house--

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I would always bike
along the Charles,

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and there was just
one huge gas leak

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I would smell all the time.

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And I would always
think, like, can't

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00:07:59,067 --> 00:08:00,650
be because I'm looking
around, and I'm

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seeing all the other people,
and they're just walking by.

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So I always thought, like,
I must just be making it up.

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But then I called it in.

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And it was fixed.

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00:08:08,660 --> 00:08:11,090
And after that, I
never smelled it again.

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00:08:11,090 --> 00:08:14,790
And that was so-- like we
just don't believe our noses.

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So after we did the
Cambridge Somerville work,

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I thought, we've got to
scale this up somehow.

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00:08:21,320 --> 00:08:27,450
I found some arcane data on the
Department of Public Utilities

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site, where they have to give
a lot of information, including

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00:08:32,030 --> 00:08:35,750
this, which--

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00:08:35,750 --> 00:08:38,429
over 300 pages of
this sort of stuff.

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But you'll see that there's
actually addresses there.

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So as soon as I saw that
there were addresses

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showing where the leaks were,
I thought, cool, I can map it.

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So I mapped every gas leak in
Massachusetts on Google Maps,

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so they're zoomable.

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Anybody can see them
at squeakyleak.org.

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The yellow map pins are where
the leaks are unrepaired,

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00:09:05,420 --> 00:09:09,800
and the reds are where they
were repaired the previous year.

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And there's just a lot of them.

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And this was some of the--

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00:09:15,440 --> 00:09:19,490
really transformative
for a lot of people,

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00:09:19,490 --> 00:09:21,050
because then they
could actually see

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00:09:21,050 --> 00:09:26,390
where the leaks were near their
home, near their kids school,

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00:09:26,390 --> 00:09:27,950
near their business, et cetera.

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It made the, not only
invisible visible,

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00:09:30,710 --> 00:09:35,030
but it also made
the global local.

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00:09:35,030 --> 00:09:38,660
And then I'll finally finish
up with one last thing, which

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is some other parts
of Nathan's research,

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00:09:44,276 --> 00:09:45,650
as well as Margaret
Hendrick, who

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is a graduate student, a
postdoctoral student here

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at BU, is they surveyed a
hundred gas leaks in Boston

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00:09:53,300 --> 00:10:01,160
to find that just 7% of them
emit 50% of the gas by volume.

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So that means-- as soon as
you know that, you know,

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00:10:03,710 --> 00:10:07,610
OK, the whole thing is to
find and fix those leaks.

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So through a lot of
work, through all

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00:10:11,150 --> 00:10:14,030
the different people who
are interested in this,

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00:10:14,030 --> 00:10:16,700
we managed to get,
we helped to get

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a state law passed
that those leaks will

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00:10:19,430 --> 00:10:22,025
have to be found and fixed.

193
00:10:22,025 --> 00:10:23,900
And so one of the things
we're going be doing

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is, at the hackathon,
we'll hopefully

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00:10:26,720 --> 00:10:29,630
be trying to figure
out a method that's

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00:10:29,630 --> 00:10:32,450
utility friendly
for the utilities

197
00:10:32,450 --> 00:10:37,940
to measure the emissions off of
each one of these theoretically

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high volume leaks.

199
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Because if we don't have
feedback for the system,

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00:10:44,270 --> 00:10:48,050
they're probably going to find
whatever leaks are convenient

201
00:10:48,050 --> 00:10:50,000
and call those high
volume, and fix them.

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00:10:50,000 --> 00:10:51,708
Because they don't
know how to do it yet.

203
00:10:51,708 --> 00:10:53,910
Nobody does-- how
to find the leaks.

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00:10:53,910 --> 00:10:55,473
Yeah?

205
00:10:55,473 --> 00:10:57,240
AUDIENCE: Have you
checked on the response

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00:10:57,240 --> 00:10:58,756
of National Grid
or other utilities

207
00:10:58,756 --> 00:11:00,506
about their capacity
to repair these leaks

208
00:11:00,506 --> 00:11:02,881
and also compare that to the
new leaks that have emerged?

209
00:11:13,132 --> 00:11:15,465
AUDREY SCHULMAN: Yeah, I met
with a lot of other people.

210
00:11:15,465 --> 00:11:18,140
I met with National
Grid on Friday.

211
00:11:18,140 --> 00:11:22,010
They say they've hired a
whole bunch of new people,

212
00:11:22,010 --> 00:11:25,010
and they say they will have
the capacity to do this,

213
00:11:25,010 --> 00:11:27,770
to fix all these leaks.

214
00:11:27,770 --> 00:11:29,750
But what I want them
to do is be transparent

215
00:11:29,750 --> 00:11:33,890
about their
information so anybody

216
00:11:33,890 --> 00:11:35,729
can check that they
fixed the right leaks,

217
00:11:35,729 --> 00:11:38,270
that the leaks were fixed, that
you know, so on and so forth.

218
00:11:38,270 --> 00:11:42,290
Because the more
transparency we have,

219
00:11:42,290 --> 00:11:45,700
the more researchers can look
at stuff and citizens can, too.

220
00:11:45,700 --> 00:11:49,255
AUDIENCE: Is there color
coding near the [INAUDIBLE]

221
00:11:49,255 --> 00:11:52,790
AUDREY SCHULMAN: No, in
this case I was mapping,

222
00:11:52,790 --> 00:11:55,000
the pink ones are
super-emitters,

223
00:11:55,000 --> 00:11:56,780
the high-volume gas leaks.

224
00:11:56,780 --> 00:11:58,900
The yellow ones are not.

225
00:11:58,900 --> 00:12:02,034
They're just normal gas leaks.

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00:12:02,034 --> 00:12:03,950
NATHAN PHILLIPS: Maybe
I'll just add something

227
00:12:03,950 --> 00:12:07,580
about the community science
and the opportunities

228
00:12:07,580 --> 00:12:09,950
for just being creative here.

229
00:12:09,950 --> 00:12:13,160
And I think it's just is
embodied by the collaboration

230
00:12:13,160 --> 00:12:17,840
that Audrey and I have so
well was, to do this study,

231
00:12:17,840 --> 00:12:19,880
we had to think of
methods that were

232
00:12:19,880 --> 00:12:24,710
a little out of the box, a
little bit about found objects

233
00:12:24,710 --> 00:12:25,640
fortuitous stuff.

234
00:12:25,640 --> 00:12:29,302
Because there's no real kit
to measure gas leaks that you

235
00:12:29,302 --> 00:12:32,480
can buy from some-- we were
making this up as we go.

236
00:12:32,480 --> 00:12:36,560
So, for example, we found out
that the best kind of chamber

237
00:12:36,560 --> 00:12:39,490
to measure what's
coming out of man holes

238
00:12:39,490 --> 00:12:42,130
is a turtle shell
from a sandbox.

239
00:12:42,130 --> 00:12:46,600
So it fits right over
with a known volume,

240
00:12:46,600 --> 00:12:50,440
and you get that for $20
instead of having a machine

241
00:12:50,440 --> 00:12:52,760
shop make it for $1,000.

242
00:12:52,760 --> 00:12:54,680
So there's that
level of creativity.

243
00:12:54,680 --> 00:12:57,980
And just yesterday
Audrey came up

244
00:12:57,980 --> 00:13:03,390
with the use of a pinwheel that
might be able the mix the air

245
00:13:03,390 --> 00:13:04,640
that we need to measure.

246
00:13:04,640 --> 00:13:06,290
And it's the kind
of thing that it's

247
00:13:06,290 --> 00:13:09,560
like, once she said that, it's
like, yeah perfect, you know,

248
00:13:09,560 --> 00:13:10,340
a pinwheel.

249
00:13:10,340 --> 00:13:14,660
So I think, in the hackathon,
there will be opportunities

250
00:13:14,660 --> 00:13:18,380
to think about how we might
go about doing something

251
00:13:18,380 --> 00:13:23,060
in a cost-effective way
without doing it kind of like,

252
00:13:23,060 --> 00:13:26,720
you know, NASA does in
their multimillion dollar

253
00:13:26,720 --> 00:13:28,250
laboratories.

254
00:13:28,250 --> 00:13:32,570
you find-- you had your test
going out with the truck.

255
00:13:32,570 --> 00:13:35,120
And then you had the
DPU emissions data.

256
00:13:35,120 --> 00:13:38,760
Did you find any leaks that were
not on the DPU National Grid

257
00:13:38,760 --> 00:13:39,260
list?

258
00:13:39,260 --> 00:13:40,343
AUDREY SCHULMAN: Oh, yeah.

259
00:13:42,680 --> 00:13:46,430
With Metropolitan Area Planning
Council, HEET, my nonprofit,

260
00:13:46,430 --> 00:13:51,050
has done a survey of 15
different municipalities.

261
00:13:55,400 --> 00:14:00,440
We found 1.7 times more leaks
than the utilities reported.

262
00:14:00,440 --> 00:14:02,300
And there's lots of
other stuff that we

263
00:14:02,300 --> 00:14:09,370
found that makes us
question the utility data.

264
00:14:09,370 --> 00:14:10,314
NATHAN PHILLIPS: Paul.

265
00:14:10,314 --> 00:14:13,770
AUDIENCE: Nathan,
thank you [INAUDIBLE]

266
00:14:13,770 --> 00:14:16,385
question and a comment.

267
00:14:16,385 --> 00:14:19,266
Question, how do you know where
the super emitters are now

268
00:14:19,266 --> 00:14:21,564
on the map, given
that you're still

269
00:14:21,564 --> 00:14:25,540
in the process of
measuring, as I understand?

270
00:14:25,540 --> 00:14:29,310
NATHAN PHILLIPS: So we did this
survey, the driving survey,

271
00:14:29,310 --> 00:14:33,060
that measured 3,356
leaks in Boston.

272
00:14:33,060 --> 00:14:34,497
But that's just detecting leaks.

273
00:14:34,497 --> 00:14:36,330
That doesn't tell us
how much is coming out.

274
00:14:36,330 --> 00:14:40,970
So then subsequently to that,
we went out with these chambers.

275
00:14:40,970 --> 00:14:42,960
Some of them were
the turtle shell.

276
00:14:42,960 --> 00:14:45,550
Some of them were five gallon
buckets with a slot cut out

277
00:14:45,550 --> 00:14:47,040
so it could go up to a curd.

278
00:14:47,040 --> 00:14:52,070
Because sometimes it comes
out these complex geometries.

279
00:14:52,070 --> 00:14:56,340
And so we did the laborious
task of going back

280
00:14:56,340 --> 00:14:59,880
to 100 of those 3,356 leaks.

281
00:14:59,880 --> 00:15:02,430
And measuring how much just
coming out using this chamber

282
00:15:02,430 --> 00:15:03,756
technique.

283
00:15:03,756 --> 00:15:06,730
And from that the statistics
of those 100 leaks

284
00:15:06,730 --> 00:15:09,660
showed that seven
of them accounted

285
00:15:09,660 --> 00:15:13,320
for 50% of the total lost gas.

286
00:15:13,320 --> 00:15:15,240
AUDIENCE: So you've
done a sample, but not

287
00:15:15,240 --> 00:15:17,749
comprehesive in any regard.

288
00:15:17,749 --> 00:15:18,790
NATHAN PHILLIPS: Exactly.

289
00:15:18,790 --> 00:15:21,510
It might be more like-- if we
get the whole thing over again,

290
00:15:21,510 --> 00:15:26,070
maybe pick another 100 leaks,
it may be that 10 of them

291
00:15:26,070 --> 00:15:28,970
accounted for 50%, or maybe 6.

292
00:15:28,970 --> 00:15:31,840
Right, it was a sample.

293
00:15:31,840 --> 00:15:34,860
We know that it's not
a bell shaped curve,

294
00:15:34,860 --> 00:15:36,304
and you've got an average leak.

295
00:15:36,304 --> 00:15:37,720
And some were a
little bit higher.

296
00:15:37,720 --> 00:15:39,094
And some were a
little bit lower.

297
00:15:39,094 --> 00:15:41,180
The distribution
has a long tail.

298
00:15:41,180 --> 00:15:43,476
There's a few big ones.

299
00:15:43,476 --> 00:15:44,970
And a lot of small ones.

300
00:15:44,970 --> 00:15:47,882
AUDIENCE: Now my comment is
antecdotal, but it's true.

301
00:15:47,882 --> 00:15:51,950
In one town that I was working
with, I won't name the town,

302
00:15:51,950 --> 00:15:55,725
the report was that when
they had a gas leak,

303
00:15:55,725 --> 00:15:58,470
and the citizen complained
enough, that they would exactly

304
00:15:58,470 --> 00:15:59,660
come out and fix the leak.

305
00:15:59,660 --> 00:16:03,110
But they didn't fix it
well the first time.

306
00:16:03,110 --> 00:16:06,750
They sometimes have to come
back and do it five times.

307
00:16:06,750 --> 00:16:10,115
And the reason for that
is that the gas companies

308
00:16:10,115 --> 00:16:14,790
get paid based on the
amount of work that they do.

309
00:16:14,790 --> 00:16:17,160
So if they do the same
work over and over again,

310
00:16:17,160 --> 00:16:19,860
the get paid each time for it.

311
00:16:19,860 --> 00:16:23,700
So as you're engaging in this
mentoring and monitoring,

312
00:16:23,700 --> 00:16:26,100
I do completely
agree with the fact

313
00:16:26,100 --> 00:16:31,140
that some amount of
oversight, or review,

314
00:16:31,140 --> 00:16:35,995
or checking up on ones that
they say have been fixed

315
00:16:35,995 --> 00:16:39,700
would be a good
part of the plan.

316
00:16:39,700 --> 00:16:42,530
AUDREY SCHULMAN: Yeah,
I think transparency

317
00:16:42,530 --> 00:16:45,550
and watchdogs are
good for any industry.

318
00:16:48,854 --> 00:16:53,410
AUDIENCE: Have you projected,
just in a dream-like way,

319
00:16:53,410 --> 00:16:57,212
how much gas could be
contained, and how much

320
00:16:57,212 --> 00:17:00,309
that would reduce any demand?

321
00:17:00,309 --> 00:17:01,850
NATHAN PHILLIPS: So
the best estimate

322
00:17:01,850 --> 00:17:07,000
that we have for amount of
lost gas comes from a study

323
00:17:07,000 --> 00:17:09,250
that we did in
collaboration with Harvard

324
00:17:09,250 --> 00:17:14,050
University, Catherine McKain,
Steve Wofsy and their lab.

325
00:17:14,050 --> 00:17:17,050
And we estimated that
a little less than 3%

326
00:17:17,050 --> 00:17:19,720
of the amount gas that's
delivered into the service area

327
00:17:19,720 --> 00:17:21,760
is leaked out.

328
00:17:21,760 --> 00:17:25,300
So that may not sound
like a lot, the 3%,

329
00:17:25,300 --> 00:17:29,780
but because of the power of
methane as a greenhouse gas,

330
00:17:29,780 --> 00:17:32,270
it has an outsized effect.

331
00:17:32,270 --> 00:17:35,380
And so that's why a 3%
turns into about 10%

332
00:17:35,380 --> 00:17:39,010
of the total commonwealth's
greenhouse gas emissions

333
00:17:39,010 --> 00:17:40,210
inventory at that level.

334
00:17:40,210 --> 00:17:45,310
So if you took that 3%
leaked gas down to zero,

335
00:17:45,310 --> 00:17:49,240
you'd save the commonwealth 10%
of its greenhouse gas emissions

336
00:17:49,240 --> 00:17:50,440
inventory.

337
00:17:50,440 --> 00:17:52,890
And about $90 million
dollars per year

338
00:17:52,890 --> 00:17:55,570
was the cost of the
commodity at the time

339
00:17:55,570 --> 00:17:57,670
that the study was done.

340
00:17:57,670 --> 00:18:00,612
Gas is volatile so
that number changes.

341
00:18:00,612 --> 00:18:02,320
AUDIENCE: But there's
another observation

342
00:18:02,320 --> 00:18:04,730
in that, which is
that 3% just in itself

343
00:18:04,730 --> 00:18:11,017
would reduce to peak load
demand for gas by 3%.

344
00:18:11,017 --> 00:18:13,160
And when they talk
about new pipelines,

345
00:18:13,160 --> 00:18:18,168
they're increasingly talking
about a 5% definciancy

346
00:18:18,168 --> 00:18:21,034
in our peak load capacity level.

347
00:18:21,034 --> 00:18:24,380
So you can definitely
mitigate the need

348
00:18:24,380 --> 00:18:27,050
for disposing the new
pipelines if you were

349
00:18:27,050 --> 00:18:28,300
to come out and fix the leaks.

350
00:18:28,300 --> 00:18:30,591
NATHAN PHILLIPS: That is an
excellent, excellent point.

351
00:18:33,690 --> 00:18:36,140
We'll do here and then there.

352
00:18:36,140 --> 00:18:37,610
AUDIENCE: Don't
you have a problem

353
00:18:37,610 --> 00:18:40,774
of how you put all
these dollars together,

354
00:18:40,774 --> 00:18:43,656
because there's $90 million
dollars that I understand

355
00:18:43,656 --> 00:18:47,795
that ratepayers paying the leak
gas that we don't know about.

356
00:18:47,795 --> 00:18:49,805
We don't know her.

357
00:18:49,805 --> 00:18:53,200
And then there's this fund that
they have for fixing leaks.

358
00:18:53,200 --> 00:18:55,733
And then there's
the mountain lines

359
00:18:55,733 --> 00:18:58,642
that they're using for
developing a new pipeline.

360
00:18:58,642 --> 00:19:02,162
And those are all coming out of
different pocketbooks, I think.

361
00:19:02,162 --> 00:19:04,182
And it seems that if
you don't figure out

362
00:19:04,182 --> 00:19:07,315
how to put them
together, how about--

363
00:19:07,315 --> 00:19:11,750
OK, stop making us pay $90
million for wasted gas.

364
00:19:11,750 --> 00:19:15,840
Let's use the $90 million
and fix the leaks,

365
00:19:15,840 --> 00:19:18,090
and then don't use
the money that we're

366
00:19:18,090 --> 00:19:20,810
going to build a pipeline
for and fix the leaks.

367
00:19:20,810 --> 00:19:23,830
So because this is all about
money at the end of the day.

368
00:19:23,830 --> 00:19:25,219
It's all anybody
cares about when

369
00:19:25,219 --> 00:19:27,746
you [INAUDIBLE] company,
either that or the people being

370
00:19:27,746 --> 00:19:30,896
mad at them in the public, which
ultimately is about the money

371
00:19:30,896 --> 00:19:32,320
issues as well.

372
00:19:32,320 --> 00:19:35,804
So have you thought
about how you [INAUDIBLE]

373
00:19:35,804 --> 00:19:37,692
to put those together?

374
00:19:41,300 --> 00:19:42,800
AUDREY SCHULMAN:
One of the things--

375
00:19:42,800 --> 00:19:43,850
AUDIENCE: [INAUDIBLE]

376
00:19:43,850 --> 00:19:44,933
AUDREY SCHULMAN: Well, no.

377
00:19:44,933 --> 00:19:47,510
One of the things, I think,
that would be most effective

378
00:19:47,510 --> 00:19:51,500
is if the utilities had to pay
for the cost of the lost gas.

379
00:19:51,500 --> 00:19:54,140
If they did, as
soon as they did,

380
00:19:54,140 --> 00:19:57,770
I think we'd see a massive
amount of repair happening

381
00:19:57,770 --> 00:20:00,410
a hell of a lot faster.

382
00:20:00,410 --> 00:20:02,390
That that's what
happened in Texas.

383
00:20:02,390 --> 00:20:03,800
They passed a law saying that.

384
00:20:03,800 --> 00:20:06,350
And within-- and I'm going
to get this wrong now--

385
00:20:06,350 --> 00:20:10,580
within three years, they
had 50% of the leaks fixed.

386
00:20:10,580 --> 00:20:13,965
So it's just incentives.

387
00:20:13,965 --> 00:20:15,340
NATHAN PHILLIPS:
What I heard was

388
00:20:15,340 --> 00:20:18,200
on the day that the
legislature, the end

389
00:20:18,200 --> 00:20:20,670
of the legislative session
last year, when the energy

390
00:20:20,670 --> 00:20:23,960
omnibus bill was finally passed
at-- whatever-- two o'clock

391
00:20:23,960 --> 00:20:29,982
in the morning, I think
that's when the provision that

392
00:20:29,982 --> 00:20:34,110
would include the incentives,
the cost of the lost gas

393
00:20:34,110 --> 00:20:38,000
gets shipped into the
companies was gone.

394
00:20:38,000 --> 00:20:42,380
So there's a lot of
logging going on over who's

395
00:20:42,380 --> 00:20:44,176
paying for the lost gas.

396
00:20:44,176 --> 00:20:45,104
That's a problem.

397
00:20:45,104 --> 00:20:46,687
AUDIENCE: Well, but
what you're saying

398
00:20:46,687 --> 00:20:49,170
is that's the first
place to start, start

399
00:20:49,170 --> 00:20:53,530
by not taking the $90 million
and using it to fix the leaks,

400
00:20:53,530 --> 00:20:55,580
taking $90 million
and say ratepayers

401
00:20:55,580 --> 00:20:58,360
you keep it in your
pocket until the gas

402
00:20:58,360 --> 00:20:59,360
company's paying for it.

403
00:20:59,360 --> 00:21:02,247
But that's a really simple-- any
legislator can figure that out,

404
00:21:02,247 --> 00:21:04,330
or any member of the public
could figure that out.

405
00:21:04,330 --> 00:21:05,673
You make it really simple.

406
00:21:05,673 --> 00:21:07,881
NATHAN PHILLIPS: That was
the provision [INAUDIBLE]..

407
00:21:07,881 --> 00:21:08,354
AUDIENCE: Well, I know.

408
00:21:08,354 --> 00:21:10,960
But the public [INAUDIBLE]
in the middle of the night

409
00:21:10,960 --> 00:21:12,355
is that the public is asleep.

410
00:21:12,355 --> 00:21:13,996
NATHAN PHILLIPS: Right, exactly.

411
00:21:13,996 --> 00:21:17,604
AUDIENCE: Just when
they emit the gas.

412
00:21:17,604 --> 00:21:19,480
AUDREY SCHULMAN: Yep.

413
00:21:19,480 --> 00:21:21,040
AUDIENCE: So with
the infrastructure

414
00:21:21,040 --> 00:21:26,780
being this old, I'm worried if
you fix the leaks in one spot,

415
00:21:26,780 --> 00:21:28,590
because it's
[INAUDIBLE] of pressure,

416
00:21:28,590 --> 00:21:32,380
then it will just create
leaks in other spots.

417
00:21:32,380 --> 00:21:37,600
So has there been any
study of what happens

418
00:21:37,600 --> 00:21:39,222
when you fix leaks?

419
00:21:39,222 --> 00:21:41,480
NATHAN PHILLIPS: Do
you want to take it?

420
00:21:41,480 --> 00:21:43,350
AUDREY SCHULMAN:
We both can answer.

421
00:21:43,350 --> 00:21:44,610
NATHAN PHILLIPS: You go first.

422
00:21:44,610 --> 00:21:46,350
AUDREY SCHULMAN: I
think a lot in Boston,

423
00:21:46,350 --> 00:21:47,766
a lot of the
pressure in the pipes

424
00:21:47,766 --> 00:21:49,700
is about half pound
per square inch.

425
00:21:49,700 --> 00:21:53,580
So fixing a leak in
one spot is really not

426
00:21:53,580 --> 00:21:56,190
going to make any
discernible difference.

427
00:21:56,190 --> 00:21:59,217
And the pressure's supposed
to be maintained evenly

428
00:21:59,217 --> 00:22:01,800
across the system, otherwise the
people at the end of the line

429
00:22:01,800 --> 00:22:03,008
would not be getting any gas.

430
00:22:03,008 --> 00:22:07,140
So there is the question that
hammering into the ground

431
00:22:07,140 --> 00:22:08,820
and moving stuff
could potentially

432
00:22:08,820 --> 00:22:10,560
displace a little bit of--

433
00:22:10,560 --> 00:22:13,440
move the joint of
the pipe a teeny bit,

434
00:22:13,440 --> 00:22:15,649
although I wonder if
that's actually true.

435
00:22:15,649 --> 00:22:16,190
Your thought?

436
00:22:16,190 --> 00:22:17,106
NATHAN PHILLIPS: Yeah.

437
00:22:17,106 --> 00:22:18,750
It's a pressure-regulated
system.

438
00:22:18,750 --> 00:22:20,460
So if you patch a
leak, they're just

439
00:22:20,460 --> 00:22:23,550
going to turn down the
flow to maintain the-- so

440
00:22:23,550 --> 00:22:26,200
it's not going to induce a
higher leak rate elsewhere.

441
00:22:26,200 --> 00:22:29,460
But it is a Band-Aid
solution to patch,

442
00:22:29,460 --> 00:22:33,690
because every 12 feet on a
cast iron pipe is a joint.

443
00:22:34,300 --> 00:22:36,110
And you often have
a series of leaks,

444
00:22:36,110 --> 00:22:38,970
so then you're
facing the question,

445
00:22:38,970 --> 00:22:43,320
do you repair or replace?

446
00:22:43,320 --> 00:22:45,570
And there's a whole other
set of considerations

447
00:22:45,570 --> 00:22:46,860
in terms of money.

448
00:22:46,860 --> 00:22:48,620
Cost.

449
00:22:48,620 --> 00:22:52,560
And I'm still very ambivalent
about whether we should triage

450
00:22:52,560 --> 00:22:55,170
the system that we
have as we transition

451
00:22:55,170 --> 00:22:57,480
to electrifying
our heating system

452
00:22:57,480 --> 00:23:00,420
and making the transition
to a clean energy--

453
00:23:00,420 --> 00:23:03,510
a non-fossil energy--
or do we actually

454
00:23:03,510 --> 00:23:07,860
invest in replacing pipes
that are going to be down

455
00:23:07,860 --> 00:23:10,680
for another 30, 40, 50 years?

456
00:23:10,680 --> 00:23:13,545
So, it's a tough call.

457
00:23:13,545 --> 00:23:15,200
AUDIENCE: Is the technology--

458
00:23:15,200 --> 00:23:17,670
are they discussing technology
and the composition of pipes

459
00:23:17,670 --> 00:23:20,910
that would be more long-term
and less susceptible to--

460
00:23:20,910 --> 00:23:22,140
NATHAN PHILLIPS: Not really.

461
00:23:22,140 --> 00:23:24,860
Plastic is what's
being put down now.

462
00:23:24,860 --> 00:23:28,810
And it's not leaking
because it's new.

463
00:23:28,810 --> 00:23:31,860
They don't really
know, as far as I know,

464
00:23:31,860 --> 00:23:35,430
how acids in the soil
and weathering and all

465
00:23:35,430 --> 00:23:39,330
of these kinds of things-- what
the influence on the plastic

466
00:23:39,330 --> 00:23:40,470
will be.

467
00:23:40,470 --> 00:23:44,190
There's nothing inherently
wrong with cast iron pipe,

468
00:23:44,190 --> 00:23:45,020
except it's old.

469
00:23:45,020 --> 00:23:47,520
If it was new cast-iron pie--

470
00:23:47,520 --> 00:23:49,590
of course, that's more
energy intensive to make--

471
00:23:49,590 --> 00:23:53,736
but it's really just
the age factor, I think.

472
00:23:53,736 --> 00:23:55,610
AUDREY SCHULMAN: Although
I just want to say,

473
00:23:55,610 --> 00:23:57,410
I keep thinking
dentists can come up

474
00:23:57,410 --> 00:23:59,480
with stuff that
can fix teeth that

475
00:23:59,480 --> 00:24:05,390
are in saliva and acidic stuff
and under incredible pressure

476
00:24:05,390 --> 00:24:06,230
and stuff like that.

477
00:24:06,230 --> 00:24:07,896
Why can't anybody
come up with something

478
00:24:07,896 --> 00:24:10,820
that we could just coat
the pipes on the inside?

479
00:24:10,820 --> 00:24:15,475
So, you know, go ahead.

480
00:24:15,475 --> 00:24:20,002
AUDIENCE: I was curious
how broad a number

481
00:24:20,002 --> 00:24:22,457
of the people who have been
doing this sort of work, you

482
00:24:22,457 --> 00:24:26,385
might have across the country--
other cities around the world--

483
00:24:26,385 --> 00:24:27,858
are you in touch with folks?

484
00:24:31,295 --> 00:24:33,040
AUDREY SCHULMAN:
Mostly Massachusetts.

485
00:24:33,040 --> 00:24:34,540
NATHAN PHILLIPS:
You know, the study

486
00:24:34,540 --> 00:24:39,120
we did in Boston was the first
study of its kind in the world.

487
00:24:39,120 --> 00:24:43,700
So things started bubbling out
from here, literally I guess.

488
00:24:43,700 --> 00:24:46,980
But I think there's
been a very strong what

489
00:24:46,980 --> 00:24:48,480
we call the gas leak's allies.

490
00:24:48,480 --> 00:24:51,300
The working group that we have
that meets-- is it once a month

491
00:24:51,300 --> 00:24:52,080
or once a week?

492
00:24:52,080 --> 00:24:52,990
AUDREY SCHULMAN: Twice a month.

493
00:24:52,990 --> 00:24:54,350
NATHAN PHILLIPS: Twice a month.

494
00:24:54,350 --> 00:24:55,540
This core group.

495
00:24:55,540 --> 00:24:58,200
And Mothers Out Front
has been amazing

496
00:24:58,200 --> 00:25:02,060
in terms of, essentially,
keeping that and growing

497
00:25:02,060 --> 00:25:04,139
that network.

498
00:25:04,139 --> 00:25:06,680
You know, you're seeing research
communities and other people

499
00:25:06,680 --> 00:25:10,470
in the science community doing
this work in other locations.

500
00:25:10,470 --> 00:25:15,102
I haven't quite seen the network
expand the way it has here,

501
00:25:15,102 --> 00:25:16,810
but the other interesting
thing, I think,

502
00:25:16,810 --> 00:25:18,720
is that we're also
realizing that there's

503
00:25:18,720 --> 00:25:21,560
this urban to rural
interdependency.

504
00:25:21,560 --> 00:25:25,680
And so the pipeline issues
connect us with, you know,

505
00:25:25,680 --> 00:25:27,480
rural Western Massachusetts.

506
00:25:27,480 --> 00:25:32,640
And the Kinder Morgan proposed
pipeline going in there.

507
00:25:32,640 --> 00:25:35,790
The pipeline that
connects us, in Boston,

508
00:25:35,790 --> 00:25:39,550
to New York, New
Jersey, Connecticut.

509
00:25:39,550 --> 00:25:41,750
The Algonquin
Incremental Market.

510
00:25:41,750 --> 00:25:43,140
The Spectra pipelines.

511
00:25:43,140 --> 00:25:47,580
That we are connected across
the rural and urban communities

512
00:25:47,580 --> 00:25:49,810
by the same infrastructure.

513
00:25:49,810 --> 00:25:55,470
So I think that the fossil
fuel infrastructure expansion

514
00:25:55,470 --> 00:26:00,930
physically starts to organize
a social network of resistance

515
00:26:00,930 --> 00:26:03,840
that is co-located with that.

516
00:26:03,840 --> 00:26:08,370
And that we're stronger
when we, as people, make

517
00:26:08,370 --> 00:26:11,790
the connections that are being
made physically, to resist it

518
00:26:11,790 --> 00:26:14,749
in a concerted fashion.

519
00:26:14,749 --> 00:26:16,790
AUDIENCE: One more just
quick technology, though.

520
00:26:16,790 --> 00:26:18,120
I read about it in
[INAUDIBLE] Apparently

521
00:26:18,120 --> 00:26:20,260
there's a new kind of
robot that they have.

522
00:26:20,260 --> 00:26:21,570
AUDREY SCHULMAN: The CISBOT?

523
00:26:21,570 --> 00:26:22,070
Yeah.

524
00:26:22,070 --> 00:26:25,500
AUDIENCE: That they can put into
the pipes-- that can fix leaks

525
00:26:25,500 --> 00:26:27,841
from inside the
pipe, without having

526
00:26:27,841 --> 00:26:30,270
to shut the gas line
down and without having

527
00:26:30,270 --> 00:26:31,700
to dig up the streets.

528
00:26:31,700 --> 00:26:35,940
But they are phenomenally
expensive robots, I guess.

529
00:26:35,940 --> 00:26:38,820
So that struck me
when I read about it

530
00:26:38,820 --> 00:26:41,200
as a significant ray
of hope that technology

531
00:26:41,200 --> 00:26:44,569
could once again come to the
rescue here, so to speak.

532
00:26:44,569 --> 00:26:47,992
If we had more robots, then it
might not be so economically

533
00:26:47,992 --> 00:26:57,080
difficult for the utilities to
deal with the 20,000-odd leaks.

534
00:26:57,080 --> 00:26:58,160
AUDREY SCHULMAN: Yeah.

535
00:26:58,160 --> 00:26:59,585
Yeah.

536
00:26:59,585 --> 00:27:01,940
That robot-- they have
to dig down to put it in,

537
00:27:01,940 --> 00:27:03,420
and it only has a
limited expanse.

538
00:27:03,420 --> 00:27:07,710
So it needs so much improvement,
it's stunning to me.

539
00:27:07,710 --> 00:27:10,660
Maybe.

540
00:27:10,660 --> 00:27:11,820
AUDIENCE: I'm from Chile.

541
00:27:11,820 --> 00:27:14,778
I work for an oil
company in Chile.

542
00:27:14,778 --> 00:27:17,700
It's an operation
company, and they'll

543
00:27:17,700 --> 00:27:22,570
have pipelines in the city, but
only we extract oil and gas.

544
00:27:25,492 --> 00:27:30,690
We detect a lot of leaks
of methane in operations,

545
00:27:30,690 --> 00:27:32,130
and it's really,
really difficult

546
00:27:32,130 --> 00:27:35,296
to solve the problems.

547
00:27:35,296 --> 00:27:38,551
Sometimes you can
measure it in one corner,

548
00:27:38,551 --> 00:27:42,239
but the leak is two
blocks to the other side,

549
00:27:42,239 --> 00:27:43,892
because [INAUDIBLE].

550
00:27:43,892 --> 00:27:46,723
And from the
perspective of the oil

551
00:27:46,723 --> 00:27:52,570
and gas utility companies,
only the first--

552
00:27:52,570 --> 00:27:55,265
the priority is
for the explosion.

553
00:27:55,265 --> 00:27:56,640
AUDREY SCHULMAN:
Yeah, of course.

554
00:27:56,640 --> 00:27:58,020
AUDIENCE: This is the problem.

555
00:27:58,020 --> 00:28:04,190
I can say 2%, 4%, 5%.

556
00:28:04,190 --> 00:28:05,070
But that's OK.

557
00:28:05,070 --> 00:28:06,528
It's the effort to
do the business.

558
00:28:15,690 --> 00:28:19,420
When the general manager or
the manager of some assets

559
00:28:19,420 --> 00:28:23,096
know that he has a waste--

560
00:28:23,096 --> 00:28:25,774
structural waste in the area--

561
00:28:25,774 --> 00:28:28,580
he's really charged
with this [INAUDIBLE]..

562
00:28:28,580 --> 00:28:30,729
If you put this
information at an address,

563
00:28:30,729 --> 00:28:32,020
they are ready to move forward.

564
00:28:37,255 --> 00:28:38,171
NATHAN PHILLIPS: Yeah.

565
00:28:41,390 --> 00:28:44,670
AUDIENCE: Something
happened, because they know.

566
00:28:44,670 --> 00:28:53,540
Something happened, [INAUDIBLE]
I work for the oil company,

567
00:28:53,540 --> 00:28:56,590
but I know when you
have risk, [INAUDIBLE],,

568
00:28:56,590 --> 00:29:00,020
you need to take this
risk into account.

569
00:29:00,020 --> 00:29:03,372
[INAUDIBLE]

570
00:29:03,372 --> 00:29:05,080
NATHAN PHILLIPS: I
would agree with that.

571
00:29:05,080 --> 00:29:07,960
You know, there's a nexus of
issues associated with the gas

572
00:29:07,960 --> 00:29:12,560
leaks at the local
scale, explosion risks,

573
00:29:12,560 --> 00:29:14,450
risks to vegetation and trees--

574
00:29:14,450 --> 00:29:15,700
that's local.

575
00:29:15,700 --> 00:29:18,410
Air quality degradation is
more of a regional thing.

576
00:29:18,410 --> 00:29:21,580
And then there's
the global issue.

577
00:29:21,580 --> 00:29:25,810
And they're all issues, and
they should all be considered.

578
00:29:25,810 --> 00:29:29,130
Because after our
Boston study, I

579
00:29:29,130 --> 00:29:34,000
remember that I was on
Greater Boston, the TV show.

580
00:29:34,000 --> 00:29:39,460
And the co-panelist
was the Secretary

581
00:29:39,460 --> 00:29:42,036
of Energy and Environment
for Massachusetts.

582
00:29:42,036 --> 00:29:44,920
And he said, thank you
for the work you're doing,

583
00:29:44,920 --> 00:29:50,470
because you're giving me
a way to make this issue.

584
00:29:50,470 --> 00:29:52,560
You know, because
the explosion issue

585
00:29:52,560 --> 00:29:57,700
allowed him to push forward the
climate change part of this.

586
00:29:57,700 --> 00:30:00,246
So, yeah, that's consistent
with what you're saying.

587
00:30:00,246 --> 00:30:10,658
AUDIENCE: When you
[INAUDIBLE] have you ever

588
00:30:10,658 --> 00:30:13,750
been talked to by
somebody walking along?

589
00:30:13,750 --> 00:30:15,216
NATHAN PHILLIPS: All the time.

590
00:30:15,216 --> 00:30:19,240
AUDIENCE: So, why is the
situation definitely like this?

591
00:30:23,054 --> 00:30:24,470
NATHAN PHILLIPS:
Well, he's been--

592
00:30:24,470 --> 00:30:31,090
Bob Ackley has been a lone
voice for the last 30 years

593
00:30:31,090 --> 00:30:34,870
who has been struggling
to be not just

594
00:30:34,870 --> 00:30:38,930
the only person who has
been calling this issue out.

595
00:30:38,930 --> 00:30:43,768
And I think he feels--

596
00:30:43,768 --> 00:30:46,060
I don't want to
speak for him, but--

597
00:30:46,060 --> 00:30:49,030
when people started
to join with him,

598
00:30:49,030 --> 00:30:50,707
that's when I think
he started to feel

599
00:30:50,707 --> 00:30:51,790
some level of vindication.

600
00:30:51,790 --> 00:30:54,220
That it's not just me.

601
00:30:56,740 --> 00:31:03,250
So as this network has grown
larger, I think the changes--

602
00:31:03,250 --> 00:31:06,550
the policy changes are happening
because it's just everyone

603
00:31:06,550 --> 00:31:08,900
seeing that this is a problem.

604
00:31:08,900 --> 00:31:11,510
He's been struggling
on his own for--

605
00:31:11,510 --> 00:31:14,850
he worked for the gas
companies to do leak surveys.

606
00:31:14,850 --> 00:31:19,480
So for much of his
career, he was basically

607
00:31:19,480 --> 00:31:21,310
a worker for the gas company.

608
00:31:21,310 --> 00:31:22,560
Here's the leak reports.

609
00:31:22,560 --> 00:31:24,340
Here are the gas leaks.

610
00:31:24,340 --> 00:31:26,850
And he would notice
trees were dying,

611
00:31:26,850 --> 00:31:30,610
and that the gas companies
were not taking that seriously.

612
00:31:30,610 --> 00:31:32,952
They're like, well, we're not
going to worry about that.

613
00:31:32,952 --> 00:31:34,160
And that really bothered him.

614
00:31:34,160 --> 00:31:38,890
So at some point, he defected
and went out on his own

615
00:31:38,890 --> 00:31:42,730
because the trees were-- he
felt like his work wasn't

616
00:31:42,730 --> 00:31:48,460
being taken seriously, and
so he struck out on his own.

617
00:31:48,460 --> 00:31:52,420
It's one person and these
massive investor-owned

618
00:31:52,420 --> 00:31:59,476
utilities that has
made it very difficult.

619
00:31:59,476 --> 00:32:01,770
AUDIENCE: I saw your latest.

620
00:32:01,770 --> 00:32:03,640
You tweeted it.

621
00:32:03,640 --> 00:32:04,536
In Dedham?

622
00:32:04,536 --> 00:32:06,102
NATHAN PHILLIPS: Yeah.

623
00:32:06,102 --> 00:32:07,445
AUDIENCE: Is that a new line?

624
00:32:07,445 --> 00:32:08,320
NATHAN PHILLIPS: Yes.

625
00:32:08,320 --> 00:32:11,165
Yes, that's the West
Roxbury lateral pipeline.

626
00:32:11,165 --> 00:32:13,330
AUDIENCE: And now it leaks?

627
00:32:13,330 --> 00:32:17,590
NATHAN PHILLIPS: Yeah, so
I'm going to just show it.

628
00:32:17,590 --> 00:32:19,270
So we went out on Monday.

629
00:32:19,270 --> 00:32:19,830
A while back.

630
00:32:19,830 --> 00:32:23,640
Me and myself and my son.

631
00:32:23,640 --> 00:32:25,030
So you see these spikes.

632
00:32:25,030 --> 00:32:26,210
Something like this, right?

633
00:32:26,210 --> 00:32:28,306
You see the red spikes.

634
00:32:28,306 --> 00:32:31,420
And this is on a stretch of--

635
00:32:31,420 --> 00:32:34,120
it's East Street in Dedham.

636
00:32:34,120 --> 00:32:38,060
Very close to Dedham center,
right by where the Boston

637
00:32:38,060 --> 00:32:41,650
and Providence turnpike--

638
00:32:41,650 --> 00:32:46,120
whatever it's called--
fast-moving thing.

639
00:32:46,120 --> 00:32:49,310
That stretch of East Street,
which is about an eighth

640
00:32:49,310 --> 00:32:53,240
of a mile, is part of the
pathway of the new West Roxbury

641
00:32:53,240 --> 00:32:58,940
lateral pipeline, which is a
750 pounds per square inch,

642
00:32:58,940 --> 00:33:01,930
two-foot diameter
transmission pipeline

643
00:33:01,930 --> 00:33:06,020
spur that has been
part of Spectra Energy.

644
00:33:06,020 --> 00:33:09,550
It's their project to increase
the gas flow into Boston.

645
00:33:09,550 --> 00:33:13,570
And what's really disturbing
about what we found on Monday

646
00:33:13,570 --> 00:33:16,270
is that this is where,
in the last year,

647
00:33:16,270 --> 00:33:21,780
they've trenched that entire
roadway and put this new pipe.

648
00:33:21,780 --> 00:33:28,232
Then they covered it up, paved
new paving, new sidewalks,

649
00:33:28,232 --> 00:33:30,620
but they left
leaking pipelines--

650
00:33:30,620 --> 00:33:32,730
the low-pressure
distribution pipelines--

651
00:33:32,730 --> 00:33:34,480
they left them
leaking, and that's

652
00:33:34,480 --> 00:33:38,560
where there's all of these
leaks, one after the other.

653
00:33:38,560 --> 00:33:41,210
And so it was a
missed opportunity.

654
00:33:41,210 --> 00:33:43,240
If you're going to
dig up the street,

655
00:33:43,240 --> 00:33:46,660
don't leave hundred-year-old
leaking pipelines there.

656
00:33:46,660 --> 00:33:47,560
Fix it.

657
00:33:47,560 --> 00:33:51,670
There's already patches,
now, in this new pavement,

658
00:33:51,670 --> 00:33:54,383
which are going to mean
potholes are going to form soon.

659
00:33:54,383 --> 00:33:56,091
AUDIENCE: Are these
leaks the spokes that

660
00:33:56,091 --> 00:33:57,299
run off of the main pipeline?

661
00:34:01,474 --> 00:34:03,390
NATHAN PHILLIPS: They're
the old distribution,

662
00:34:03,390 --> 00:34:05,590
low-pressure pipelines,
that should've

663
00:34:05,590 --> 00:34:08,219
been fixed at the same time that
they put the new pipeline in.

664
00:34:12,325 --> 00:34:13,449
AUDIENCE: So two questions.

665
00:34:13,449 --> 00:34:16,710
One, what's the name
of the instrument?

666
00:34:16,710 --> 00:34:19,219
Are we going to
learn more about it?

667
00:34:19,219 --> 00:34:22,679
And then two, how does
the EPA rule [INAUDIBLE]

668
00:34:22,679 --> 00:34:23,679
impact any of this work?

669
00:34:28,630 --> 00:34:29,980
NATHAN PHILLIPS: OK.

670
00:34:29,980 --> 00:34:33,337
Yes, you get to go on the 31st.

671
00:34:33,337 --> 00:34:34,670
AUDIENCE: I'm out of town, darn!

672
00:34:34,670 --> 00:34:36,628
NATHAN PHILLIPS: Well,
we can arrange something

673
00:34:36,628 --> 00:34:38,020
on another occasion, I'm sure.

674
00:34:38,020 --> 00:34:40,750
But we get in the van, you
can see that the picture

675
00:34:40,750 --> 00:34:42,909
that Audrey showed--

676
00:34:42,909 --> 00:34:47,065
it's called a cavity
ring-down spectrometer.

677
00:34:47,065 --> 00:34:49,380
That's the technology.

678
00:34:49,380 --> 00:34:51,830
It's a laser technology.

679
00:34:51,830 --> 00:34:55,630
It has a little chamber in
it that is evacuated down

680
00:34:55,630 --> 00:34:59,291
to about one fifth of a whole
vacuum, so it's got about 20%

681
00:34:59,291 --> 00:35:02,334
of the air molecules that
normal air would have in it.

682
00:35:02,334 --> 00:35:03,750
So it's pulled
down to that level.

683
00:35:03,750 --> 00:35:05,990
It's about a one-liter chamber.

684
00:35:05,990 --> 00:35:08,800
And in that chamber,
there are three mirrors

685
00:35:08,800 --> 00:35:10,430
that are pointed at each other.

686
00:35:10,430 --> 00:35:13,040
And then they pulse
a laser into that

687
00:35:13,040 --> 00:35:19,178
that is tuned to the unique
absorbance span for methane.

688
00:35:19,178 --> 00:35:24,370
And that pulse of laser bounces
around the three mirrors.

689
00:35:24,370 --> 00:35:25,830
That's called ringing down.

690
00:35:25,830 --> 00:35:28,300
It's ringing in that
thing and bouncing around.

691
00:35:28,300 --> 00:35:32,460
And the more concentration of
methane there is in that air,

692
00:35:32,460 --> 00:35:36,850
the faster that pulse will decay
to zero, because the molecules

693
00:35:36,850 --> 00:35:39,214
of methane are absorbing.

694
00:35:39,214 --> 00:35:40,630
So if there's no
methane in there,

695
00:35:40,630 --> 00:35:43,010
it'll take a long time
for that thing to decay--

696
00:35:43,010 --> 00:35:44,700
that light pulse.

697
00:35:44,700 --> 00:35:47,772
So that's the basic method
for the cavity ring-down

698
00:35:47,772 --> 00:35:48,730
spectrometer.

699
00:35:48,730 --> 00:35:52,105
AUDIENCE: Did you build
that, or [INAUDIBLE]

700
00:35:52,105 --> 00:35:53,870
NATHAN PHILLIPS:
The manufacturer

701
00:35:53,870 --> 00:35:56,670
for the instrument we
use is called Picarro,

702
00:35:56,670 --> 00:35:58,880
and they're based
in Santa Clara.

703
00:35:58,880 --> 00:36:03,360
The technology and the
patents were mostly

704
00:36:03,360 --> 00:36:06,515
from Stanford
University scientists.

705
00:36:06,515 --> 00:36:09,740
There's another firm that's
doing the same basic kind

706
00:36:09,740 --> 00:36:14,480
of technology called Los Gatos
out in that area of California

707
00:36:14,480 --> 00:36:16,390
as well.

708
00:36:16,390 --> 00:36:20,827
There's a few different
flavors of this kind of method.

709
00:36:20,827 --> 00:36:23,160
AUDIENCE: So do you think
that there's-- because this is

710
00:36:23,160 --> 00:36:25,820
an expensive instrument.

711
00:36:25,820 --> 00:36:27,002
How much does it cost?

712
00:36:27,002 --> 00:36:28,710
NATHAN PHILLIPS: This
one was about $60k.

713
00:36:31,380 --> 00:36:33,990
AUDIENCE: So I'm thinking
more in the community science

714
00:36:33,990 --> 00:36:36,230
direction.

715
00:36:36,230 --> 00:36:40,440
I think cheap lasers are
becoming real, right?

716
00:36:40,440 --> 00:36:42,330
While maybe the
mirror configuration

717
00:36:42,330 --> 00:36:45,830
might be the
expensive piece there,

718
00:36:45,830 --> 00:36:51,330
is there a way to combine the
pulse lasers and, using data,

719
00:36:51,330 --> 00:36:54,054
and other techniques to
get more cheap results?

720
00:36:54,054 --> 00:36:54,970
NATHAN PHILLIPS: Well.

721
00:36:54,970 --> 00:36:55,830
Do you want to answer?

722
00:36:55,830 --> 00:36:56,886
I'm doing all the talking.

723
00:36:56,886 --> 00:36:57,969
AUDREY SCHULMAN: Go ahead.

724
00:36:57,969 --> 00:36:58,490
I'm happy.

725
00:36:58,490 --> 00:37:00,906
NATHAN PHILLIPS: I'll just say
that I'm going to come back

726
00:37:00,906 --> 00:37:03,430
to some comment there.

727
00:37:03,430 --> 00:37:06,930
MIT, the people here?

728
00:37:06,930 --> 00:37:07,885
The robot thing?

729
00:37:07,885 --> 00:37:11,330
Yeah, we could have swarms
of little tiny robots fixing

730
00:37:11,330 --> 00:37:13,770
pipelines, and MIT
is a great community

731
00:37:13,770 --> 00:37:15,990
to come up with those
types of solutions.

732
00:37:15,990 --> 00:37:22,040
And then, as well, low-cost
sensors that could do this

733
00:37:22,040 --> 00:37:27,493
would unlock opportunities for
a much wider group of people

734
00:37:27,493 --> 00:37:28,920
to be doing this stuff.

735
00:37:28,920 --> 00:37:29,550
AUDREY SCHULMAN:
And I don't think

736
00:37:29,550 --> 00:37:30,758
they'll have to be expensive.

737
00:37:30,758 --> 00:37:32,610
Like there's this
one technology where

738
00:37:32,610 --> 00:37:35,247
it's just something that
goes on the pipe seal,

739
00:37:35,247 --> 00:37:37,830
between the two joints, because
that's where most of the leaks

740
00:37:37,830 --> 00:37:38,640
come from.

741
00:37:38,640 --> 00:37:44,540
And if that link is broken,
it tells the office.

742
00:37:44,540 --> 00:37:46,650
That's simple.

743
00:37:46,650 --> 00:37:48,300
Let's do something
simple like that.

744
00:37:48,300 --> 00:37:49,230
That's not expensive.

745
00:37:49,230 --> 00:37:51,270
That's not hard.

746
00:37:51,270 --> 00:37:56,134
AUDIENCE: You can detect
the leaks in operations,

747
00:37:56,134 --> 00:37:58,084
we use infrared camera--

748
00:37:58,084 --> 00:37:59,000
AUDREY SCHULMAN: Yeah.

749
00:37:59,000 --> 00:38:01,291
AUDIENCE: You can see the
flows, you couldn't measure--

750
00:38:05,855 --> 00:38:06,813
NATHAN PHILLIPS: Right.

751
00:38:06,813 --> 00:38:09,524
AUDIENCE: Less flows, or more--

752
00:38:09,524 --> 00:38:10,440
NATHAN PHILLIPS: Yeah.

753
00:38:10,440 --> 00:38:11,430
More qualitative--

754
00:38:11,430 --> 00:38:21,210
AUDIENCE: But you
can see, [INAUDIBLE]

755
00:38:21,210 --> 00:38:25,200
AUDIENCE: Very briefly mentioned
that the town of Brookline

756
00:38:25,200 --> 00:38:30,670
has now passed two resolutions
opposing natural gas pipeline

757
00:38:30,670 --> 00:38:31,870
expansion in Massachusetts.

758
00:38:31,870 --> 00:38:36,380
We're the first community
to do such a thing where

759
00:38:36,380 --> 00:38:40,980
a pipeline was not scheduled to
go through in our boundaries.

760
00:38:40,980 --> 00:38:42,864
And we'd be happy to--

761
00:38:42,864 --> 00:38:45,930
Brookline town meeting-- to
look into the issue of somehow

762
00:38:45,930 --> 00:38:49,701
pressuring the gas
companies to more speedily

763
00:38:49,701 --> 00:38:53,180
address some issues
and leaks in our town.

764
00:38:53,180 --> 00:38:55,730
Kind of a general
pressure thing.

765
00:38:55,730 --> 00:38:56,840
[INAUDIBLE]

766
00:38:56,840 --> 00:38:57,973
AUDIENCE: I think that's
something that Mothers

767
00:38:57,973 --> 00:38:59,097
Out Front is already doing.

768
00:39:03,520 --> 00:39:05,840
AUDREY SCHULMAN:
And we want that.

769
00:39:05,840 --> 00:39:08,820
The more pressure they
have, the more everybody

770
00:39:08,820 --> 00:39:09,660
takes it seriously.

771
00:39:09,660 --> 00:39:10,980
As it should be.

772
00:39:10,980 --> 00:39:14,650
PROFESSOR: So, we have three
more sessions on the 23rd,

773
00:39:14,650 --> 00:39:16,740
which is the coming Monday.

774
00:39:16,740 --> 00:39:18,690
We have a hack-a-thon.

775
00:39:18,690 --> 00:39:23,987
and And again, we will be
playing with two different ways

776
00:39:23,987 --> 00:39:25,070
of hacking with this data.

777
00:39:25,070 --> 00:39:29,080
One is more data-centric,
more code-centric.

778
00:39:29,080 --> 00:39:32,460
The other might be more
design charette-centric.

779
00:39:32,460 --> 00:39:33,314
So--

780
00:39:33,314 --> 00:39:34,230
AUDIENCE: Visualizing.

781
00:39:34,230 --> 00:39:35,688
PROFESSOR: So
visualizing the data.

782
00:39:35,688 --> 00:39:38,040
Again, depending on
what your interests are,

783
00:39:38,040 --> 00:39:39,850
you can do one or the other.

784
00:39:39,850 --> 00:39:45,270
Do sign up on the CLIAP site,
if you haven't already done so.

785
00:39:45,270 --> 00:39:49,230
The next session, on the
31st is driving around town,

786
00:39:49,230 --> 00:39:52,110
and smelling.

787
00:39:52,110 --> 00:39:54,550
I think that's going to
be what we'll be doing.

788
00:39:54,550 --> 00:39:59,030
And finally, on the first,
we will come back together

789
00:39:59,030 --> 00:40:03,660
and say, what can communities
and citizens and scientists

790
00:40:03,660 --> 00:40:04,380
do with this?

791
00:40:04,380 --> 00:40:06,110
Can you take this to court?

792
00:40:06,110 --> 00:40:08,570
So, how do you
build an ecosystem

793
00:40:08,570 --> 00:40:10,510
that addresses these
challenges, and not

794
00:40:10,510 --> 00:40:13,710
just do it individually?