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From YouTube: June Construction Focus American Excelsior Company
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A
All
right,
well,
hello,
everyone.
This
is
rebecca
dallin
assistant,
superintendent
of
stormwater
quality
here
at
the
city
of
oklahoma
city.
I
would
like
to
officially
welcome
everyone
to
our
sixth
installment
of
this
floatables
webinar
series.
We
will
begin
momentarily,
so
I
wanted
to
take
some
opportunity
to
provide
information
to
help
enhance
everyone's
experience
during
the
presentation
today.
A
In
order
to
reduce
background
noise,
we
ask
that
everyone
keep
themselves
muted
during
the
presentation.
If
anyone
has
any
questions
during
the
presentation
feel
free
to
type
those
into
chat,
brooke
varrick
and
I
will
be
monitoring
the
chat
for
questions
and
we
will
have
our
guest
speaker
answer
as
many
questions
as
we
have
time
for
today.
A
A
This
is
really
different,
okay,
but
I
did
find
it
so
congratulations
so
just
found
chat.
Hopefully
all
you
guys
can
find
that
as
well
put
that
message
in
there.
A
So
if
anyone
has
a
question
or
if
you'd
like
to
receive
that
certificate
of
attendance
and
the
information
is
now
available
in
chat,
each
of
our
presentations
in
this
series
will
be
available
within
a
week
or
so
after
the
scheduled
live
date
on
our
website
under
stormwater
workshops,
and
this
section
is
called
our
2021
floatables
webinar
series
and
of
course
today's
session
will
be
the
june
edition.
I
will
post
a
link
to
the
website
where
you
can
get
to
those
presentations
toward
the
end
of
today's
program.
A
A
As
we've
briefly
mentioned,
each
of
the
presentations
will
be
available
online
within
a
week
or
so
after
the
presentation
is
aired.
It
will
be
available
on
the
workshops
section
of
our
stormwater
quality
website,
I'll,
be
posting
a
direct
link
to
that
page
in
the
chat
at
the
end
of
today's
presentation.
A
A
A
A
All
right
up
next
is
the
main
presentation
for
today's
webinar.
Today
we're
going
to
hear
from
craig
schultz,
he
is
employed
by
american
excelsior
company
earth
science
division
out
of
arlington
texas
as
the
business
development
manager,
craig
graduated
from
the
university
of
kansas
rock
chalk
jayhawk.
A
He
has
worked
on
numerous
erosion
and
sediment
control
projects
and
has
experience
with
rolled
erosion,
control,
blankets,
turf
reinforcement,
mats,
hydraulic
mulches,
alternative,
daily
landfill
cover
and
other
erosion
and
sediment
control
products
he's
an
active
member
of
astm
where
he
serves
as
the
chairman
of
a
sediment
control
task
group
craig
participates
in
the
erosion
control
technology
council.
In
addition,
he
is
an
industry
member
on
the
national
transportation,
product
evaluation
program,
technical
committee
on
erosion,
control
products
and
sediment
retention
devices.
A
B
Thank
you.
I
will
try
to
do
that.
It
worked
well
on
our
present
on
our
demonstration
yesterday
rebecca
it's
giving
me
the
opportunity
to
just
share
my
desktop
window
today.
B
A
B
Terrific,
oh
great,
okay!
Well,
it's
always
good
when
you
can
see
it
and
then
that
shut
off
my
camera,
so
you
can
no
longer
see
me
correct.
B
Okay,
that's
fine
that
nobody
needs
to
see
me
today
anyway,
right
now.
Well,
thank
you.
Everybody
thanks
for
that
introduction
for
those
of
you,
I've,
given
this
presentation
in
one
format
in
the
past,
but
it's
a
little
bit,
I
would
say
of
a
sister
to
the
main
topics
of
your
floatables
and
your
global
trash.
This
is
a
presentation,
dammer
filter
that
initially
began
as
a
presentation
to
help.
People
understand
and
you'll
still
see
a
lot
of
that
in
here.
B
The
types
of
products
that
you
will
see
when
it
comes
to
sediment
control
out
on
the
market
and
what
we
learned
from
the
last
many
many
years
of
this
work
and
the
committees
we
sit
in
on
and
so
forth
is
there's
a
lot
of
misconceptions
when
it
comes
to
what
these
products
are
and
so
rebecca-
and
I
were
talking
and
again
while
it
doesn't
exactly
match
all
the
things
you
would
deal
with
on
this
global
trash
side.
B
I
think
there's
some
interesting
characteristics
that
you
might
find
interesting
and
hopefully,
in
the
bigger
picture
of
sediment
control,
you
will
learn
something
today.
So
hopefully,
you'll
find
this
all
valuable
and
we'll
get
started.
If
you
have
any
questions,
please
rebecca
or
whoever
don't
mind,
I
don't
mind
if
somebody
jumps
in.
If
I'm
missing
a
comment
or
something
in
the
chat,
don't
don't
hesitate
so
we'll
see
if
we
can
get
started?
B
Okay,
just
a
little
bit
about
us-
and
this
is
not
meant
to
be
a
commercial
by
any
stretch,
but
I
like
to
let
people
know
who
we
are
and
where
our
knowledge
base
comes
from.
American
excelsior
was
formed
in
1888
and
we
started
making
packaging
fibers.
I
tell
everybody
if
you've
ever
seen
the
christmas
story
movie
and
the
dad
pulls
the
leg
lamp
out
of
the
crate,
which
is,
I
think,
a
hysterical
scene.
All
that
stuff
he's
pulling
out
of
there
is
excelsior.
B
Fibers
excelsior
was
sort
of
the
original
natural
packaging
fiber
it
evolved
over
the
over
many
years.
We
we
made
things
like
they
call
them
swamp
cooler
or
evaporative,
cooler,
pads
and
things
like
that
and
the
company
evolved
into
the
1960s
and
inventing
the
first
erosion
control
blanket
curl
x1,
so
curl
x
is
our
brand
name
of
excelsior
fibers.
B
Came
out
with
the
first
double
netted:
erosion
control,
blankets,
curl
x2
and
the
first
heavy
duty
erosion
control,
blanket
curl
x3
in
the
1990s,
the
evolution
continued.
We
came
out
with
erosion
works,
which
is
a
free
design
software.
You
can
download
on
our
website
to
help
you
make
decisions
about
what
works
best
in
your
application
in
slopes
or
channels.
We
invented
the
sediment
log,
which
we'll
talk
a
lot
about
today,
quick
grass,
which
is
our
green
pigmented
products,
and
we
built
the
erosion
lab,
which
is
the
facility
I
run
in
rice
lake
wisconsin.
B
We
don't
talk
a
lot
about
that,
but
today,
but
it's
an
interesting
product
in
that
all
of
those
green
fibers
are
post
consumer
waste
and
they
are
made
from
pop
bottles
and
they
don't
float,
which
is
a
really
interesting
characteristic
for
turf
reinforcement,
mats.
We
invented
our
net
free
product,
which
is
the
only
net
free
blanket
of
its
type,
and
we
came
out
with
our
e-staples,
which
are
a
biodegradable
staple
product.
In
2012
we
came
up
with
curlex
blocks.
This
is
another
product.
We're
going
to
talk
about
today.
B
These
were
initially
invented
as
a
as
an
american-made
alternative
to
coir
logs
for
stream,
bank
and
lake
bank
restorations
and
filtering,
and
then
most
recently,
in
the
2018
time
frame,
we
came
out
with
our
newest
group
of
turf
enforcement
mats
called
trinet.
So
it's
a
little
bit
about
us.
B
Well,
this
is
where
I'm
lucky
enough
to
work
and
spend
most
of
my
days.
My
friends
ask
me
what
I
do
for
a
living-
and
I
say:
well,
sometimes
I'm
giving
webinars
and
training
and
other
times
I'm
playing
in
the
dirt,
and
this
is
a
facility
with
it's
larger
than
25
acres,
but
25
35
acres
of
active
things
going
on
there,
large
pond
big
diesel
pumps,
driven
pumps
there
in
the
foreground,
and
we
can
run
full
on
astm
level
testing
here.
This
is
in
rice,
lake
wisconsin.
B
We
believe
it's
the
largest
privately
owned
research
and
testing
lab
of
its
type
in
north
america
and
maybe
the
world
at
the
lab.
We
do
large-scale
astm
performance,
testing,
research
and
development,
contractive
testing
and
lots
of
what
we
do
there
now
is
what
I'm
in
charge
of
in
the
industry,
education,
seminars
and
internal
and
external
training.
B
We
always
invite
people
if
they're
ever
in
the
area.
We
host
a
lot
of
events
up
here,
especially
in
the
summer
time,
and
this
year
we're
we
haven't,
hosted
one
yet
we're
actually
making
plans
to
host
again,
as
we
didn't
as
most
people
didn't
last
year,
but
it's
a
great
great
facility.
We
do
a
lot
of
testing
there.
Some
some
tests
you
may
have
heard
of
are
things
like
astm
5141,
which
has
to
do
with
filtering
and
sediment
control
devices
6459,
which
are
those
slopes
there
on
the
right.
B
Those
are
rain
for
rain
simulation.
We
can
simulate
two
four
and
six
inch
per
hour
rain
events
there
that
simulate
real
rainfall,
where
the
rain
drops
reach
terminal
velocity
and
have
the
correct
distribution
and
size
and
cover
so
a
lot
of
what
we'll
talk
about
in
sediment,
control
and
erosion
control
comes
from
those.
But
then
we
also
do
d6460
testing
and
large-scale
testing.
So
the
channels
you'll
see
on
the
left.
B
A
really
great
place
and
as
the
cartoon
says,
we
pr
we
prefer
to
think
of
it
as
added
value,
and
I
share
that
again,
it's
not
as
a
commercial
but
to
let
you
know
that
we
we
take
this
really
really
seriously
and
we
try
very
hard
to
give
presentations
and
participate
in
events
that
makes
our
industry
better
and
if
you
ever
have
questions
or
comments
or
want
to
visit.
B
I
won't
go
into
all
these
things,
but
just
so
you
know,
when
you
go
to
our
website,
we
have
a
huge
technical
support
library
where
you
can
get
everything
about
cad
details
and
staple
patterns
cross
references.
We
have,
I
think,
a
pretty
nice
youtube
channel.
It's
getting
better
every
day,
we're
adding
in
videos
that
talk
about
just
everything,
different
things
about
fibers
and
different
things,
about
installation
techniques
and
those
sorts
of
things,
and
we
try
to
build
them
in
a
way
that
is
useful
to
anybody
right.
B
Anybody
who's
using
that
sort
of
a
product
whether
it's
ours
or
not.
We
hope
you
find
that
to
be
useful
to
you
and
your
your
co-workers
erosionworks
I
mentioned
earlier.
We
don't
go
in
that
to
that
today,
but
it's
a
free
software.
You
can
download
it.
We
don't
sell
your
name
or
do
anything
with
it.
It
just
allows
you
to
populate
information
about
your
slope
or
your
channel.
It
gives
you
good
better
best
recommendations.
So
it's
a
really
neat
software
to
help
you
kind
of
get
you
in
the
ballpark.
B
If
you
have
some
pricing
on
the
materials
you're
thinking
about
using
it'll
even
help,
you
do
calculations
on
cost
and
tell
you
how
many
staples
to
buy
for
blankets.
So
pretty
neat
and
again
all
this
is
free
and
we
don't
sell
your
name
or
do
anything
with
it.
If
someone
signs
up
for
erosion
works,
we
usually
reach
out,
say
hello
and
make
sure
you
don't
need
anything,
but
that's
the
extent
of
the
marketing
that
goes
along
with
those
with
those
tools.
So
please
take
some
time
to
check
that
out.
B
So
you
know
the
trash
on
the
right
is,
is
something
we've
all
seen
and
a
lot
of
what
I'll
talk
about
today
is
how
these
things
and
how
these
blowable
products
and
and
so
forth,
end
up
in
the
water
streams,
because
that's
what
I
deal
with
primarily
is
how
what
happens
when
they
get
in
the
water
or
what
happens
when
the
water
breaks
free,
and
you
know
at
the
end
of
the
day,
what
we're
trying
to
do
is
we're
trying
to
control
sediment
on
the
left.
B
You
know
that's
that
drains
not
going
to
do
much
good
anymore
on
the
left
and
the
sewer
really
does
not
prefer
to
have
soda
bottles
drop
down
in
it
and
leaves
and
branches.
So
what
can
we
do
about
that?
What
products
exist
and
that's
that's
a
lot
of
what
we're
going
to
talk
about
today,
specifically
when
you
put
a
product
in
these
situations,
whether
it
dams
or
filters,
the
water?
Why
does
that
matter?
B
And
so
hopefully,
you'll
you'll
find
some
value
in
that,
so
obviously
the
bail
checks
upstream
of
this
this
there
were
bail
checks.
You
can't
see
them
in
this
picture,
but
just
up
there
there
were
some
bail
checks
and
they
they
frankly
weren't
doing
their
job.
But
that's
not
because
bail
checks
are
inherently
bad,
it's
just
that
they
don't
filter
water,
the
sediment-laden
water
and
any
other
pollutants
are
coming
right
down
the
stream
and
they're
polluting,
whether
it's
sediment
or
whether
it's
trash
or
what
it
is,
there's
a
pollutant.
B
And
so
what
I
talk
about
today,
isn't
really
a
good
or
bad
thing.
It's
just
how
these
products
perform
differently
and
then
how?
If
you
use
the
right
best,
major
practice
for
bmp
in
the
right
application,
and
you
install
it
correctly,
it'll
generally
work,
but
that
we
shouldn't
lump
them
all
together
and
assume
just
because
they
have
a
similar
look
that
they
perform
in
a
similar
manner.
B
You
probably
all
know
this,
but
I
always
like
to
say
some
of
these
basic
things
at
the
beginning.
You
know
people
talk
about
erosion
and
sediment
control
very
quickly,
and
they
just
move
past
it.
What
we
want
to
talk
about
today,
though,
while
it
doesn't
necessarily
pertain
directly
to
your
floatables
and
some
of
those
things
erosion
control
prevents
the
need
for
as
much
sediment
control.
B
You
know
preventing
products,
the
soil
and
so
forth
from
breaking
away
in
the
first
place,
minimizes
the
need
to
capture
it
when
it
breaks
away,
so
erosion
control
is
keeping
the
dirt
in
its
place
and
sediment
control
is
what
we're
doing
to
remove
those
soil
particles
that
have
eroded
away
so
basic
stuff.
But
it's
something
to
keep
in
mind,
so
I'm
sure
you've
all
unfortunately
seen
pictures
like
this
and
and
the
the
trash
in
the
ditch
there
right
at
some
point.
B
That
was
a
that
was
blowing
around
or
floating
around
because
of
lots
of
reasons
in
this
particular
picture,
but
lots
of
reasons
and
many
different
applications
that
the
trash
is
going
to
end
up
in
a
place.
We
don't
want
it.
It's
not
it's
going
to
end
up
in
the
sewers.
B
B
So
this
isn't
a
question
that
you
have
to
answer
out
loud,
but
a
lot
of
the
rest
of
this
presentation
is
going
to
talk
about
densities
of
products
and
whether
something
dams,
water
or
filters
water.
So
what
I?
What
I
want
you
to
consider
is:
does
the
density
of
a
sediment,
control,
product
or
device
affect
how
it
performs,
and
the
answer
is
yes,
but
why
does
it
matter,
and
this
is
what
we're
going
to
talk
about?
Why
does
something
that
looks
very
similar?
B
It's
a
tubular
shaped
product
for,
for
instance,
and
it's
12
inches
in
diameter.
Why
does
it
matter?
What
is
it?
Why
does
it
matter
what's
inside
of
it,
and
why
does
it
matter
whether
it
dams,
the
water
or
filters
the
water,
and
then
what
does
that
mean
for
you
all
when
you're
talking
about
waste
not
only
blowable
trash,
but
what
about
the
other
contaminants
that
are
coming
along
with
that
water?
B
In
many
conditions,
damming
products
are.
They
are
not
that
obviously,
so
there
have
a
flow
rate
of
less
than
35,
gallons
per
minute
and
they're
designed
to
pool
water.
So
this
these
have
different
end
results
right.
They
may
be
looking
they're
both
looking
in
the
sediment
control
world
of
keeping
sediment
under
control,
but
they
do
it
in
very
different
ways
and
we
think
there
are
ways
that
are
better
than
others,
so
the
world's
simplest
video.
B
I
just
want
you
to
look
at
what
happens
to
the
water
when
it's
poured
over
these
two
products,
both
of
the
we
make
both
of
these
products.
One
of
them
is
a
straw
wattle
that
I'm
sure
you've
seen
and
the
other
is.
Our
curl
excitement
log.
So
the
semi
log
is
a
filtering
product
and
the
wattle
is
a
damping
product.
B
B
Same
dimensions
here
and
see
how
the
water
flows
through
it,
you
say
well
like
who
cares
craig?
Why
does
that
matter?
So
that's
what
we're
going
to
talk
about
next
and
I
think
it
can
have
some
positive
impacts
on
the
not
only
the
regular
sediment
that
you
would
consider
the
sort
of
traditional
dirt
in
your
runoff,
but
I
think
it
can
also
help
with
some
of
the
trash
and
globals
that
you
all
run
into.
B
So
the
point
of
this
picture-
I
know
it's
not
the
greatest
picture.
I
blew
it
up
a
little
more
than
I
wanted
to,
but
to
get
the
point
is
this:
is
the
point
of
this
is
simply
to
show
you
what
a
filtering
product
can
do.
The
trash
and
debris
is
they're
not
out
in
the
street
right
and
if
the
water
would
have
pooled
significantly,
what
we
see
in
the
field
is
the
pools
which
we'll
talk
about
a
little
bit
right,
the
pool
the
reason
you
damn
water
is
to
simulate
a
pool
in
nature.
B
Hence
the
idea
that
they're
filtering
and
then
they
tend
to
look
like
this.
They
tend
to
have
the
the
debris,
the
waste,
the
sediment,
even
the
silt,
either
around
them
or
inside
of
them,
but
still
allow
the
water
to
flow
away.
So
we
think
there
are
some
opportunities
to
use
this
in
the
real
world,
as
it
were
like
in
this
picture,
to
get
better
results.
A
Michael
asked
this
question
about
two
minutes
ago,
so
it
may
have
been
the
previous
slide.
He
says
what
is
the
surface
area
being
measured.
B
So
it's
a
square
footage,
so
they'll
measure,
if
you're
talking
about
like
the
square
foot
of
a
product,
so
how
many
square
feet
it
is
so
obviously
like
it's
easier
with
a
the
the
product
is
the
whole
circumference.
So
it's
what's
the
whole
surface
area
of
the
device.
B
B
B
Often
a
log
or
a
wattle
or
whatever
is
used
they're
used
with
no
regards
to
whether
they
dam
or
the
filter
of
the
water.
As
I
mentioned,
and
I
want
what
I
want
you
to
get
from
today
is
just
because
two
products
look,
the
same
doesn't
mean
they
perform
the
same.
So,
in
short,
what
this
presentation
will
we'll
talk
about
more
as
we
go
through
is
how,
in
many
instances
damming
products
are
used
and
again
we
make
damning
products.
B
We
make
lots
of
different
products,
so
we're
not
picking
on
a
brand
or
anything
like
that.
What
we're
trying
to
say
is
there's
often,
we
think
opportunities
for
a
filtering
product
to
be
used
where
historically,
a
damning
product
can
be
used.
So
that
leads
us
to
this
research
auburn
university
as
they're
continuing
to
do.
I
should
really
update
this
they're
continuing
to
do
a
lot
of
research
on
this,
and
they
talk
a
lot
about
the
ditch
checks
commonly
used
on
construction
sites.
B
They
discovered
that
the
inclusion
of
an
underlay
fabric
reduced
the
potential
for
scour
underneath
the
practice,
thereby
maintaining
the
interface
between
the
practice
and
the
channel,
and
their
data
confirms
that
the
dense
damming
products
can
be
successful
in
large-scale
testing
conditions
by
creating
those
longer
subcritical
flow
areas
and,
like
I
said,
we're
not
picking
on
a
product,
we're
not
trying
to
pick
on
a
brand.
We're
just
saying
that
there's
they're
damning
and
they're
filtering
designs,
and
we
think
that
damming's
products
are
often
used.
B
When
really
the
goal
would
imply
that
a
filtering
product
would
be
better.
So
a
lot
of
this
data
again
gets
back.
To
generally,
I
would
say,
the
traditional
sediment
control
of
dirt
soil
particles
that
have
broken
away
which
doesn't
exactly
get
into
what
we're
talking
about
with
trash
and
blowables.
But
I
do
think
it
impacts
how
it
ends
up
in
the
real
world
and
how
it
ends
up
moving
or
not
moving
those
that
waste
around
your
job
site.
B
So
why
do
you
use
a
damning
product?
Mother
nature
handles
natural
stream
erosion
through
a
series
of
pools
and
riffles
that
we
talked
about
a
minute
ago.
The
erosion
commonly
occurs
and
those
faster
moving
moving
water
and
the
riffles,
but
the
particles
settle
out
in
the
deeper
slower
pools
that
follow
those
riffles.
So
damning
products
are
used
to
mimic
this
concept,
as
I
mentioned
just
like
it
was
in
the
street.
The
water
hits
the
damning
device
it
blocks
it
up
in
that
example.
B
That
picture
we
showed
a
minute
ago
and
it
pulls
up
the
water
out
of
the
street.
What
that
does
is
it
protects
the
inlet,
but
the
reason
it's
protecting.
The
inlet
is
it's
stopping
all
of
it.
It's
not
necessarily
filtering
it
and
theoretically,
and
hopefully
it
falls
out
on
the
street
and
doesn't
end
up
in
the
train.
B
There
is
not
going
to
be
a
quiz,
but
I
get
this
question
from
time
to
time
what
people
are
talking
about,
how
how
you
space
items.
So
it's
just
that
to
set
the
top
elevation
of
the
downgrading
device
at
the
bottom
elevation
of
the
upgrading
device.
So
this
isn't
something
you're
going
to
get
into
in
streets,
but
this
is
something
in
a
channelized
flow
application.
How
we
determine
the
spacing
between
the
units.
B
So
damming
products
build
up
hydrostatic
pressure
as
depth
increases.
This
is
this
is
not
a
hard
to
understand
right
and
that
this
buildup
of
energy
can
be
the
cause
of
scour
under
or
around
a
damning
device
before
ponding
and
over
topping
occurs.
So
if
all
other
things
are
equal,
except
for
the
depth
of
the
water,
there's
more
downward
force
in
front
of
the
device
the
deeper
the
water
gets.
So
this
is
the
old
thing
you've
seen
it
doesn't
matter
whether
it's
on
asphalt
or
dirt
or
what
it's
on.
B
If
you
damn
water,
the
more
water
builds
up,
the
more
pressure
there
is
and
water
as
it
does,
finds
the
the
weakest
point
and
tries
to
break
through
the
term
we
use
in
the
midwest.
Here.
A
lot
is
blow
out
when
blow
out
occurs.
It's
because
the
the
device
couldn't
withstand
that
pressure,
so
we're
gonna
talk
about
where
they
blow
out
and
then,
of
course,
this
is
where
your
sediment
goes
when
they
blow
out-
or
this
is
where
your
trash
flows
to
so
we're
wanting
to
prevent
that.
B
The
weakest
point
in
the
channel
becomes
the
path
of
least
resistance,
so
we
commonly
see
the
weakest
point
being
the
channel
being
channeled
under
the
damning
device.
So
in
a
road
outside
of
a
you
know,
an
inlet
right,
there's
no
dirt
right,
there's
no
interface
in
that
regard,
but
there
is
a
product
sitting
on
top
of
the
concrete
or
the
asphalt.
Well,
sometimes
those
products
don't
work
super
well
there,
because
in
the
case
of
a
straw
wattle
for
example,
most
manufacturers
recommend
that
you
trench
out
a
little
area
for
the
straw
wattle
set
into.
B
If
you
look
at
their
cad
drawings,
that's
what
most
of
them
recommend
and
that's
because
they
need
it
to
have
that
intimate
soil
contact
and
they
want
it
buried.
Just
a
little
bit
with
sediment
logs,
like
we
make
on
the
the
filtering
products,
we
don't
need
to
dig
a
trench
underneath
them
under
our
wattles.
You
do
so
when
the
water
is
building
up.
The
pressure
often
builds
so
much
that
it
like
in
this
picture.
It
blows
out
underneath
right.
This
was
trenched
in
this
was
done
on
one
of
our
rain
slopes.
B
That's
one
of
our
products,
water
pressure
built
up
it
couldn't
withstand
it.
Any
longer
went
underneath
there.
So
that's
where
the
plastic
bags
are
going
to
go.
It's
where
the
sediment
is
going
to
go.
It's
where
anything,
that's
going
to
go
with
that
water
path
and,
as
you
all
know,
it
just
continues
to
get
worse
and
worse
over
the
course
of
an
event.
B
So
it
doesn't
really
matter
which
products
again
you
know
I
for
all.
For
let
everybody
know
we
don't
make
silt
fence,
but
the
purpose
of
this
slide
is
not
to
pick
on
cell
phones.
The
sill
fence
was
installed,
probably
as
heavy
duty
as
any
silk
fence
would
ever
need
to
be
installed.
We
have
steel
post,
we
have
wire
back,
it
didn't
really
fail.
It
didn't
fail
at
all.
It's
just
that
the
hydrostatic
pressure
built
up
so
much
that
it
blew
out.
B
So
maybe
this
wasn't
the
right
product
to
use
in
this
application,
and
I
also
ask
you
to
look
off
into
the
distance.
There's
no
vegetation
and
the
reason
there's
no
vegetation.
It
was
because
it
was
all
killed.
It
all
died
from
the
ponded
water
behind
it.
So
these
are
other
things
that
we
have
to
to
concern
ourselves
with
and,
of
course,
any
waste,
whether
again
sediment
trash
whatever
just
followed
this
and
blew
on
down
this
ditch.
B
Again,
we
don't
make
straw
or
hay
bales,
but
we
use
straw
in
our
wattles.
I
live
in.
I
actually
live
in
kansas,
even
though
I
cover
that
those
other
areas
there's
for
many
many
years.
I
mean
this
is
how
I
was
told
out
on
the
farm
to
take
care
of
erosion
and,
while
under
very
very,
very
basic
conditions,
they
might
kind
of
help.
B
They
don't
really
hold
up
very
well
and
they're,
not
they're,
not
very
strong.
A
straw
waddle
isn't
really
any
different
other
than
it
it's
tied
together
in
a
long
tube.
So
in
that
regard,
I
suppose
it's
more
durable,
but
the
characteristics
of
the
fiber
are
still
the
same
and
at
some
point
the
ground
gave
way
and-
and
it
blew
out.
B
B
In
most
cases
it
doesn't
in
most
cases
help
much
it
just
wasn't
the
right
best
management
practice
for
this
job,
so
people
say
well,
I
used
an
underlayment
fabric
or
I
use
this
really
great
installation
technique
and
I
don't
generally
get
blowouts
underneath
and
that's
fine,
but
what's
the
other
the
next
way
we
see
these
not
working
in
the
scour
and
it
tends
to
be
around
the
damning
devices,
so
the
water
depth
increases
obviously
and
over
time,
and
if
the
installations
aren't
wide
enough,
the
flowing
water
can
scour
around
the
sides.
B
Generally
speaking
as
a
rule
of
thumb,
scour
around
a
product
can
generally
be
stopped
by
installing
the
product
about
three
feet
above
the
normal
pool
on
both
sides.
So
you
know
this
was
the
red
lines,
kind
of
denote
the
original
path
on
this
project
and
the
rock
check
dam
held
up
the
problem
with
it.
Is
this
rock
check
dam?
You
know
it
did
was
supposed
to
you
can
see.
B
It's
been
filling
up
with
sediment
and
it
would
probably
in
slow,
slow
removing
waters
held
up
pretty
well,
but
then,
when
a
larger
event
happened
as
the
water
built
up
behind
it,
they
couldn't
probably
safely
make
this
ditch
check
any
wider
right,
because
there's
a
road
right
there,
you
can't
have
the
ditch
check
running
up
to
the
road,
that's
not
safe,
so
this
is
probably
as
wide
as
they
could
do
it,
but
an
event
occurred
and
since
this
didn't
filter
anything
it
just
dammed
it
up.
B
At
some
point,
it
blows
around
blew
that
trash
off.
You
can
see
the
larger
piece,
but
you
can't
really
see
it
off
in
the
distance,
there's
plastic
and
there's
a
bunch
of
trash
down
here
and
when
we
pulled
over.
There
were
two
concerns.
One
was
the
blowout
of
course,
and
the
lack
of
vegetation,
but
then
the
other
course
was
the
waste
and
stuff
that
had
broke
down,
and
you
can't
really
see
it
but
way
off
in
the
distance.
Where
there's
a
shadow,
it
drops
down
into
a
little
creek
right
there.
B
So
obviously
this
is
what
they
wanted,
headed
towards
the
creek
me.
So
just
as
a
reminder,
this
is
a,
I
think,
a
pretty
good
example
of
installing
over
the
normal
pool.
Now
this
was
a
really
wide,
ditch
right,
so
they
had
room
to
install
this.
The
proper
way
this
happens
to
be
a
curl
excitement
log.
I
always
like
to
say
about
this
picture.
B
One
thing
interesting
about
sediment
logs
and
a
lot
of
sediment
control
devices
that
filter
pay
attention
to
your
cad
files,
because,
while
with
things
like
straw,
wattles
that
we
make
the
design
tells
you
to
drive,
drive
the
stakes
through
the
center
of
the
device.
Excuse
me
with
a
lot
of
the
products
like
acrylic
cement
logs.
You
actually
put
the
stakes
through
just
the
netting
on
the
downstream
side,
and
the
reason
is
you
want
those
fibers
to
expand
and
open
up
and
allow
that
filter
through
the
matrix.
So
just
a
an
interesting
side.
A
Yes,
michael
asks
another
question:
what
is
the
longest
a
filter
log
can
last
and
are
they
reusable.
B
It's
the
michael.
You
must
follow
me
because
I
get
this
question
every
time
and
I
never
get.
I
never
probably
give
a
great
answer,
so
we
have
had
segment
logs
last
month
and
we've
had
sediment
logs
last
days.
Probably
days
is
maybe
short
in
really
extreme
situations,
where
there's
no
erosion
control
and
a
high
sediment
load.
It
is
possible
that
a
sediment
log,
depending
on
how
many
there
are
and
so
forth,
could
fill
up
in
an
event
or
two
right.
They
can't
those
there'll
be
some
pictures
here.
B
B
It's
a
product,
that's
designed
to
be
used
as
perimeter
control.
We
call
them
a
high
vis
waddle.
They
are
meant
to
be
reused.
The
standard
kerlex
logs
are
generally
not
reused.
We'll
talk
about
netting
here
in
a
little
bit,
but
just
a
little
precursor
to
that.
The
logs
and
the
blocks
have
two
wrap
options.
One
of
them
is
a
degradable
I'm
going
to
call
like
a
poly
wrap
a
mesh
and
then
the
other
wrap
is
100.
Cotton
and
we'll
talk
about
those
in
a
little
bit,
but
in
those
regards
generally
speaking,
they're
not
reused.
B
The
one
thing
I
do
hear
a
lot
about
in
the
field
of
when
they
do
fill
up
the
thing
people
like
about
them
is
they're
easy
to
remove
and
they
generally
just
put
another
one
in
its
place
or
set
one
just
slightly
upstream
of
where
it
was
or
up
slope
of
where
it
was
so.
I
know
that's
the
world's
vaguest
answer,
but
generally
not
reusable
and
depending
on
the
setup
load.
I
would
say
weeks
to
months
on
life.
A
And
it
looks
like
jeff
king
who's,
also
with
american
saucier,
has
been
chiming
in
a
little
bit
in
chat
as
well
to
kind
of.
C
B
B
C
B
B
So
let's
talk
a
little
bit
about
a
scour.
So
if
oh,
if
the
product,
the
damning
product,
doesn't
have
scour
underneath
or
around
what
what
happens
next
so
generally
that's
considered,
is
over
topping,
and
so
when
over
topping
is
reached,
a
scour
hole
generally
forms
on
a
down
gradient
side
of
damning
products
if
proper,
armor
armoring
isn't
present.
B
So
that's
we
talked
about
a
little
bit
ago,
auburn
and
a
lot
of
those
places
that
are
promoting
some
of
these
types
of
products
say
they
work
best,
but
you
got
to
have
if
you
have
armoring
presence.
So
that's
to
protect
from
these
sorts
of
things
and
the
plunge
pools
like
at
the
plunge
pool
at
the
bottom
of
a
waterfall.
It's
basically
the
same
phenomena
when
it
overtops.
This
is
what
happens
and
as
the
potential
energy
of
the
water
increases
as
that
water
depth
increases
and
its
position
is
increased
relative
to
the
bottom.
B
So
in
this
picture,
hopefully
you
can
see
that
with
the
spots
where
the
product
was
removed,
but
this
is
a
pretty
common
thing
we
see
in
the
field
towards
the
left
center
left
of
the
photo
is
the
footprint
from
where
I
believe
this
was
a
straw
waddle,
but
it
was
a
damning
device
was
and
on
the
right
would
be
the
down
gradient
side
of
where
the
damming
device
was
installed,
so
there's
a
bare
spot
there
and
then
there's
a
scour
hole
below
so
there's
no
vegetation
downstream
because
of
the
scour
and
there's
no
vegetation
upstream,
because
it
was
drowned
out
by
the
ponded
water.
B
So
that's
not.
Obviously
what
we
want
vegetation
is
what
we
wanted
here
so
could
could
this
have
had
different
results
if
a
filtering
product
was
used,
the
gabiens
and
the
fuel
here
did
exactly
what
the
designer
wanted
to
do.
They
pondered
the
water,
then
it
overtopped,
however,
the
energy
of
the
over
topping
water
created
this
giant
scour
hole
on
the
downgrading
side
of
the
gabians,
which
eventually
eroded
a
large
section
of
the
channel
in
this
concentrated
flow
application.
So
there's
all
rework
here:
the
gabiens
held
up
right.
B
B
I
joke
with
everybody
that
I'm
not
a
very
tall
person
and
I'm
not
sure
how
tall
this
fellow
is,
but
the
scour
hole
foreign
on
the
dow
gradient
side
of
this
big
rock
check
dam
and,
as
I've
said
in
all
the
other
slides
it
worked
as
it
was
designed
to
work
and
it
damned
that
concentrated
flow,
but
the
channel
just
couldn't
handle
the
energy
of
the
water
coming
over
the
top
when
it
over
top.
So
it
was
wide
enough.
It
was
strong
enough,
but
then
this
happened.
B
So
we
mentioned
earlier
this
auburn
research
and
there's
other
people
that
have
done
it
requiring
the
underlayment
fabric
when
you're
using
sediment
control
devices
that
pond
water
and
the
thing
to
keep
in
mind,
though,
is
vegetation,
doesn't
grow
where
the
fabric's
placed
and
the
unvegetated
areas
are
now
unprotected
and
obviously
they
create
a
situation
where
erosion
can
happen.
So
it's
just
something
that
if
you're
going
to
use
a
damming
product,
it's
something
you're
going
to
have
to
address.
B
Vegetation,
as
you
all
know,
I'm
sure
is
one
of
the
greatest
tools
in
mother
nature's
toolbox
and
it
works
really
well
in
a
broad
range
of
erosion
and
sediment
control
applications.
I
was
just
on
some
vegetated
waterways
in
wisconsin
two
weeks
ago.
I'm
not
sure
how
much
that's
been
done
in
oklahoma
right
now,
but
in
wisconsin
it's
a
huge
movement
to
get
farmers
to
put
in
these
vegetated
waterways
and
there's
a
lot
of
really
great
reasons
to
do
it.
B
In
addition
to
preventing
the
erosion,
those
vegetated
waterways
have
cooler
water
temperatures,
so
the
water
that's
coming
out
of
them
is
much
cooler
relative
to
those
coming
across
pavement
or
riprap
and
they're
safer.
Frankly,
obviously
you
drive
across
them.
You
don't
have
to
worry
about
many
instances,
they're
even
mowing
these
channels,
so
there's
some
great
reasons
to
get
mother
nature
and
get
vegetation
back
in
play
the
red
dash
line
in
the
photo
just
reiterating
some
of
the
things
we've
talked
about
that
damning
device
sitting.
B
B
I
looked
like
it
over
top
some,
the
problem
with
this
picture.
The
thing
I
don't
like
about
this
picture
is,
while
it
did
protect
the
inlet
device
in
that
regard.
The
water
stayed
here
so
long
that
all
that
vegetation
was
drowned
out.
They
obviously
did
a
good
job
of
planting.
You
can
see
the
vegetation
is
growing
every
place
else,
but
this
is
a
concern
and
it
introduces
this
other
weak
spot.
B
So
this
is
something
that's
going
to
have
to
be
resolved
and
again,
maybe
with
the
choice
of
a
filtering
product,
you
might
have
had
different
results.
B
So
blowouts
we've
talked
about
these
again,
it's
just
an
example:
they
just
can't
hay
bales.
I
don't
recommend
hair
straw
males
on
anything
except
for
hay.
Rack
rides,
but
they
just
they
just
don't
hold
up
so
generally
speaking
that
then
our
research
and
our
testing
says
that
damning
products
may
be
suitable
for
contemporary
channels
where
vegetation
is
not
necessarily
desired.
But
in
our
estimation-
and
our
research
indicates
that
the
basic
concept
of
ponding
water
should
not
be
used
in
channels
that
incorporate
vegetation
as
a
permanent
component
of
the
solution.
B
The
dense
damming
products
have
been
shown
to
work
really
well
in
the
field
and
sheet
flow
applications
when
properly
installed.
So
again,
nothing's
perfect,
nothing
works
in
every
application.
We
make
both
of
these
kinds
of
products.
I
think
that
the
filtering
products
have
more
applications
than
their
people,
think
about
them
initially
and
we'll
talk
about
those
next.
B
So
what
happens
when
runoff
in
a
concentrated
flow
hits
a
filtering
device?
So
don't
don't
laugh
too
hard
at
my
high
dollar
visuals
here,
but
as
the
water
flows
through
the
device,
the
velocity
is
dissipated
and
when
the
flow
rate
is
exceeded,
the
sediment
begins
to
accumulate
on
the
upgraded
side
of
the
filtering
device,
so
it
will,
in
some
cases,
still
accumulate
on
the
back
side,
but
it
also
accumulates
within
the
matrix
sediment.
Other
contaminants
are
being
retained
within
the
milk
matrix,
as
filtered
water
is
coming
out
the
other
side.
B
So
the
question
earlier
about
life-
I
don't
know
how
long
this
product
had
been
installed.
I
apologize.
I
should
look
this
picture
up,
but
it
was
well
into
its
design
life.
This
particular
product
had
the
degradable
poly
wrap
on
it.
It
had
been
there
for
quite
a
while.
So
there
was
a
lot
of
sediment
leaves.
B
You
can
see
there
there's
a
lot
of
stuff
hitting
this,
but
we
were
still
getting
really
clean
water
coming
through
it,
and
so
it
it
was
probably
nearing
its
end,
but
it
is
still
cleaning
the
water
as
long
as
clean
water
is
coming
out.
As
long
as
you're
not
blocking
it
up
so
far
behind,
because
it
was
so
full
of
sediment,
it's
still
doing
its
job
and
then,
of
course,
you're
reducing
velocity
and
then
what
we
see
in
the
field
is
like.
You
saw
on
that
inlet
protection.
B
If
there
is
waste,
the
waste
tends
to
fall
in
behind
these
sediment
devices,
because
they're
following
the
flow
of
water,
the
water
goes
into
the
sediment,
control
device
and
the
plastic
cup
or
the
can
or
the
bag
tend
to
pile
up.
On
the
back
of
these
again
good
question
earlier
about
functional
longevity,
sometimes
the
functional
longevity
can
be
increased,
people
can
go
by
and
just
do
a
little
bit
of
a
clean
out
along
the
back
edges
of
these,
and
that's
actually
what
we've
been
told
in
the
field
rebecca.
B
B
So
this
is
a
good
example
of
that.
So
this
was
a
job
site
you
can
see.
There
was
some
stilt
fence
still
being
used
in
the
background
this
product
it
did.
It
looks
like
to
the
right
side
of
the
picture.
It
looks
like
there
was
actually
a
little
bit
of
sediment
that
had
backed
up
quite
a
ways,
but
this
big
event
put
a
lot
of
sediment
through
there.
You
can
see
that
about
three-fourths
of
the
way
up
on
that
log,
you
can
still
see
the
brown
kind
of
brownish
line
on
it.
B
The
water
was
up
almost
to
there,
so
it
captured
a
lot
of
sediment
and
allowed
the
waste
and
stuff
to
pile
up
in
front
of
it.
Again
we
have
been
told
these
are
really
easy
to
clean
up
and
clean
around
and
then
the
rest
of
that
trash
hasn't
gone
down
the
street,
because
the
water
wasn't
rushing
down
the
street
in
the
river.
It
was
still
going
in
into
the
sewers
as
they'd
wanted
to,
but
it
was
going
in
obviously
clean.
B
So
why
does
this
work?
So
this
is
just
a
time
lapse
of
one
of
our
straw,
blankets
and
then
one
of
a
piece
of
our
curl
x.
These
are
both
our
products,
and
this
is
what
happens
when
these
excelsior
curlex
excelsior
fibers
get
wet
so,
whether
they're
in
a
blanket
or
in
a
log
they
expand
and
then
just
the
opposite
happens
when
they
dry,
they
shrink
back
down
a
little
bit.
B
So
when
they're
going
they're
increasing
in
size,
they're
excuse
me
on
the
hiccups,
all
of
a
sudden,
the
manning's
in
or
the
roughness
factor
of
them
and
blankets
increases,
so
we're
capturing,
sediment
and
so
forth,
and
even
in
a
blanket
form
and
then
the
logs,
which
are
designed
to
filter
water,
they
kind
of
open
up,
but
they
allow
that
water
to
flow
through
and
capture
that
sediment
with
it
within
them.
Again,
it's
not
picking
on
straw,
that's
our
blanket
on
the
left.
They
just
don't
expand
and
contract
like
curl
x.
B
Does
people
ask
what
they
look
like
when
they
take
them
out?
This
is
this
is
really
fine
clay
which
I
know
you.
You
all
have
some
experience
with
stuff's
hard
to
capture
and
these
sediment
logs.
Do
it
do
a
tremendous
job
at
capturing
that
in
the
field,
these
are
some
that
are
broken
up.
We'll
talk
a
little
bit
about
this
as
we
in
the
presentation
here,
but
people
always
ask
well
what
does
your
product
do
in
regards
to
waste?
B
So
there
are
many
instances
in
the
field
where,
if
it's
a
very
rural
area-
and
they
were
installed
with
wooden
stakes-
we
have
installations
where
they
don't
take
them
out,
but
when
they
do
take
them
out,
there's
no
plastic,
so
you're
not
doing
we're,
not
adding
any
plastics
to
the
environment
or
to
the
landfill.
So
this
is
a
pretty
common
example
of
what
they
look
like
after
their
functional
longevity
has
has
come
to
an
end.
B
We've
done
a
lot
of
filtering
device
evaluations-
and
I
put
these
pictures
in
here,
so
you
can
imagine
again.
I
know
we
talk
a
lot
about
sediment
here,
but
the
trash
is
going
to
do
the
same
thing.
So
we
run.
This
is
one
of
our
80
foot,
long
trapezoidal
channels
at
our
test
facility,
rice
lake,
at
the
erosion
lab
and
so
uphill.
B
This
is
what
happens
in
the
field
right,
so
a
pretty
similar
shot,
but
this
is
actually
in
real
life,
so
they
obviously
hadn't
gotten
to
put
down
erosion
control.
Yet
this
was
pretty
severe,
probably
one
of
the
more
severe
ones
I'd
ever
seen,
but,
generally
speaking
the
channel
held
up,
it's
gonna
need
a
little
rework
downs
down,
but
it's
not
like
it
would
have
been
if
we
would
have
damn
that
up
and
and
those
would
have
blown
out
so
again
still
gonna
require
some
rework,
but
we
think
the
better
choice.
B
This
is
what
we
want
to
see.
We
want
to
see
you
can
see
in
the
very
bottom
front
of
the
picture
there.
You
can
see
the
grass
that
was
pushed
up
on
these
sediment
logs,
so
there
was
some
pretty
high
flows
to
this
channel.
You
can't
tell
that
now,
but
some
pretty
high
flows-
and
this
is
what
we
want
to
see.
The
water
was
coming
going
away
from
us
in
this
picture
and
you
can
see
that
it
filtered.
It
did
a
good
job.
B
B
We've
talked
about
all
this.
I
know
we're
kind
of
running
out
of
time
here,
but
just
as
a
reminder,
filtering
products
are
more
than
35
gallons
per
minute
per
square
foot
and
the
poorest
designs
allowed
to
allow
the
water
to
flow
through
the
matrix
and
capture
the
sediment,
either
within
it
or
upstream
a
little
side
note.
You
know,
I
know
you
were
talking
about
blowables
and
trash,
but
I
thought
you
would
find
it
interesting
to
note
that
kerlx
fibers
these
are
the
kerlex
blocks
these.
These
are
about
the
size
of
a
bale
of
hay.
B
As
I
mentioned,
there
were
designed
to
be
american-made
alternative
to
coir
logs
and
we
did
a
fly
ash
test.
If
you
know
anything
about
fly
ash
there,
there
are
lots
of
reasons
to
get
this
stuff
out
of
the
water,
and
we
set
this
up
in
one
of
our
channels.
We
pre-mixed
fly
ash
and
these
were
the
highest
results
we
had
seen
as
far
as
reduction
of
ntus,
and
there
were
no
flocculants
used
in
this.
So
we
had
a
night.
B
Almost
a
95
reduction
in
total
suspended
solids
of
fly
ash
so
again
in
this
application.
If
this
was
in
the
real
world,
the
sediments
being
stopped
or
trapped
within
the
matrix,
as
well
as
other
contaminants
and
hopefully
allowing
you
to
pick
up
any
other
waste
and
so
forth,
that
would
accumulate
along
these
sorts
of
stations.
B
Another
thing
that
that
we
get
asked
a
lot
about
is
what
other
containments
so
there's
a
lot
of
contaminants.
We
don't
see
right
anything
made
with
a
curl
x,
fiber
and
a
curlix
excelsior
fiber
has
a
epa
where
listed
on.
The
epa
is
an
approved
sorbent
for
oils
and
greases.
So
when
you're
specifying
something
that
has
curlex
fibers
in
it,
you're
going
to
be
specifying
something
that
helps
remove
pahs,
which
are
those
typical
components
of
asphalt,
fuels,
oils
and
greases.
B
So
it's
a
nice
added
benefit,
just
some
short
little
videos
here,
but
these
are
just
kerlex
fibers,
nothing
special
about
them,
dirty
motor
oil
in
water
and
just
a
way
to
show
you
how
quickly
it
grabs
a
hold
of
that
oil
and
just
something
to
keep
in
mind.
You
know
those
fibers
can
and
will
grab
that
oil
does
a
really
nice
job.
So
a
little
added
benefit
that
other
fibers
aren't
designed
to
do
so.
B
B
As
I
mentioned,
what
happens
to
the
curlex
logs
and
the
blocks
that
should
stay
logs
and
blocks
if
the
fiber's
all
natural,
it's
not
a
food
source,
it's
not
a
byproduct,
so
it
is
completely
safe.
The
netting
can
be
degradable
or
100
natural
and
in
some
instances
they
are
left
in
place,
and
you
can
confidently
say
that
you're
not
adding
any
plastics
to
the
landfill.
B
A
We
haven't
had
any
more
questions
come
through,
but
thank
you
to
those
who
did
provide
those
questions
for
us.
It's
always
nice
to
have
a
little
audience.
Interaction.
Of
course,.
A
Craig,
thank
you
such
great
information.
I
always
enjoy
your
presentations
because
they
are
very
informative.
So
thank
you
so
much
for
your
time
on
that
up.
Next,
our
community
relations
coordinator,
brook
ferrick,
will
provide
a
very
short
little
piece
of
information
on
local
programs
that
help
keep
our
community
clean.
So
brooke.
If
you
share
your
screen
and
if
we
see
some
other
questions
we
did
get
one
pop
in
while
brooke
is
getting
ready
to
share
her
screen.
Somebody
asks
michael
jordan
asks:
where
are
your
products
available.
B
I'll,
let
jeff
answer
that
in
the
chat
we
sell
through
distribution
throughout
the
country.
I
know
we
have
a
good
distribution
in
the
oklahoma
area,
so
I'll,
let
jeff
answer
who
he
uses,
but
we
use
distribution
and
then,
if
you're
doing
work
outside
of
oklahoma,
we
can
obviously
get
you
the
right
names
to
contact
for
materials.
B
A
Yeah,
we'll
post
that
into
chat
and
if,
for
some
reason
they
aren't
able
to
get
that
answered,
I
did
post
our
guest
speakers
contact
information
into
chat.
So
if
you
guys
have
other
questions,
feel
free
to
reach
out
to
craig
directly,
all
right
looks
like
brooke
is
ready
so
brooke.
I
will
let
you
do
your
presentation.
C
C
I
just
want
to
highlight
a
couple
of
our
outreach
programs
that
we
have
going
on
right
now.
They
are
in
full
swing,
especially
with
the
nice
weather.
The
warmer
temperatures,
our
adopt
city
street
program
is
going
real.
Strong
we've
had
lots
of
groups
participating
in
litter,
cleanup
events
during
the
week
on
the
weekends
for
their
adopted
roadways,
our
waterway
clean
sweep,
was
pretty
strong
in
the
spring.
C
It's
slowed
down
a
little
bit
for
the
heat
of
summer
and
it's
gonna
looks
like
it's
picking
back
up
for
the
fall
and
then
curves
to
creeks
our
storm
drain
marking
program
waterway
cleanup,
some
of
our
spotlights
we
wanted
to
spotlight
boeing's
waterway
cleanup.
They
had
15
total
volunteer
hours,
they
collected
about
32
bags
of
trash
with
899
total
pounds
of
trash
for
their
collection,
and
this
was
a
picture
from
deq's
waterway.
C
On
this
slide,
they
had
about
72
total
volunteer
hours,
111
bags
of
trash,
which
was
an
amazing
record
and
over
3
100
total
pounds
of
trash,
and
then
our
last
community
cleanup
we
held
at
walker
wetland
and
they
had
32
30
total
volunteer
hours.
They
collected
58
bags
of
trash
for
a
total
of
almost
1300
total
pounds
of
trash.
C
So
if
your
company
or
you
have
a
group
of
people
that
are
interested
in
scheduling
a
waterway
clean
up
event,
especially
for
the
fall,
we're
setting
them
up
now,
it'll
be
a
little
bit
cooler
and
we
have
lots
of
different
waterways
that
look
extremely
trashy
like
this
one.
In
the
photo
that
need
some
tender,
loving
care,
we
did
hold
our
rain
barrel,
pickup
event
on
may
8th
and
may
15th.
C
So
those
are
some
of
the
numbers
if
you're
interested
and
then
again,
if
you're
interested
in
setting
up
a
volunteer
opportunity
feel
free
to
reach
out
to
me,
we
can
get
something
set
up
for
your
organization
and
we
can
kind
of
mold
it
to
what
your
needs
are
so
feel
free
to
contact
me
if
you're
interested-
and
I
will
turn
it
back
over
to
you
rebecca.
Thank
you.
A
Great
thanks
so
much
brooke.
If
anyone
has
any
questions
for
brooke,
please
feel
free
to
type
them
into
chat,
or
I've
also
put
her
email
address
into
chat.
So
if
you
want
to
reach
out
to
her
later
feel
free
to
do
that.
A
So
just
please
again
send
an
email
to
brooke
to
request
that
we
should
be
able
to
get
those
out.
Hopefully
this
week,
as
I've
mentioned,
a
recording
of
today's
presentation
will
be
available
on
our
website
in
the
next
week
or
so,
and
I
will
post
a
link
to
that
in
chat.
At
this
moment,
you
should
be
able
to
pop
back
into
this
meeting
and
click
on
that
link
anytime,
so
that
will
be
available
as
a
resource
for
you.
A
Thank
you
all
for
attending
our
session.
Today.
We
hope
everyone
enjoyed
the
presentation.
We
will
see
you
next
month
on
july
20th.
At
1
pm
for
the
next
installment
in
the
floatables
webinar
series,
the
presentation
will
be
another
installment
from
the
industrial
stormwater
program
and
we'll
be
able
to
introduce
to
everyone.
A
B
C
A
Else
has
any
questions.
Oh.