Case Study Taking Steps to Protect Our Communities Iowa Aquatic Center Makes a Splash With Permeable Pavers


CASE STUDY | Taking Steps to Protect Our Communities

IOWA ACQUATIC CENTER
MAKES A SPLASH WITH I A •
PERMEABLE PAVERS J %

After rainstorms in Monona, Iowa, stormwater runoff used to flow off the
gravel parking lot and driveway of the Monona Aguatic Center, picking up
pollutants as it flowed into a local river tributary. The City of Monona used
funds from Iowa's Clean Water State Revolving Fund, a state-wide clean
water loan program, to finance a green infrastructure project to replace the
lot with permeable pavers to absorb the stormwater runoff.This project
helped to improve local water guality, enhance the parking lot, and reduce
site maintenance.

BACKGROUND

Originally, the Monona Aquatic Center's
driveway and parking lot were made
of packed gravel. During rainstorms,
stormwater would travel from the
parking lot and down the driveway
picking up sediment, debris, and oil and
chemicals from cars.This contaminated
runoff would drain into a local river
tributary and then into Silver Creek,
which at the time was considered an
impaired waterway. During the summer,
the heat from the gravel would warm
up the stormwater runoff, which would
increase the temperature of the local
river tributary and disrupt aquatic life.

The parking lot was also unpleasant for
guests of the Aquatic Center because
it was on a steep hillside.The gravel
surface could be hot and uncomfortable
for visitors in the summer months. The
city wanted to improve the site and use
the project to help improve the water
quality of nearby streams and rivers. In
conjunction with the local Turkey River

IMPAIRED
WATERWAYS

are bodies of water that
do not meet water quality
standards.

SEPTEMBER 2022

AT-A-GLANCE

PROJECT NAME:

Monona Aquatic Center

TIMELINE:

2014

LOCATION:

Monona, Iowa

POPULATION:

1,549

PROJECT FOOTPRINT:

1,835 square yards of
permeable pavers

GREEN INFRASTRUCTURE:

Permeable pavers

RESULTS:

Reduced runoff rates during
a 100-year storm event from
six cubic feet per second to
0.1 cubic feet per second,
added 15 parking spots, and
improved usability

BENEFITS:

Improved water quality,
enhanced aesthetics, reduced
maintenance, increased
parking

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The original gravel parking lot at the Monona
Aquatic Center.

Watershed Association, the city began to
plan improvements to the Aquatic Center
parking lot in 2014.

PLANNING AND
FINANCING

To finance the project, the city wanted
to take advantage of funds available
through Iowa's Clean Water State
Revolving Fund. The city already had
a loan from this fund to work on a
wastewater treatment plant project.
Through the loan, the city could add
a "sponsored project"fora separate
stormwater project. A sponsored project
did not add to the overall debt of the
original wastewater treatment plant
project loan, but was financed through
the loan's interest and fees, requiring
no additional costs for water utility
customers. In 2014, the city completed
an application for the Aquatic Center
parking lot to be a sponsored project
using information from a previously
completed environmental assessment
of Silver Creek and with support from
local stakeholders.The city received a
sponsored project loan of $245,000,
which covered most of the construction
and engineering costs for installing
permeable pavers at the Aquatic Center
parking lot.

The city and local engineering firm
proposed several potential solutions,

The Monona Aquatic Center parking lot after
installation of permeable pavers.

including a stormwater pond near
the site and streambank stabilization.
However, these options did not address
both problems of improving the parking
lot and improving water quality.The
project team settled on replacing the
gravel in the parking lot with permeable
pavers. Permeable pavers are interlocking
bricks laid over layers of stone or gravel,
Stormwater filters down between the
pavers and through the stone.This
was an innovative solution because
permeable pavers are primarily used
on fiat surfaces.The Aquatic Center
parking lot was on a hill, so the engineer
redesigned the site to make it less steep
and installed permeable pavers. During
rainstorms, the space between the pavers
allows runoff to soak into layers of gravel
placed underneath the pavers. The gravel
layers help to create space to filter and
store parking lot runoff. After deciding on

The gravel layers installed before the permeable
pavers help to create space to filter and store
parking lot runoff.

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PROJECT DETAILS

Once the project and sponsored project
loan of $245,000 were approved, the
city hired a contractor to install the
permeable pavers in the summer of 2014.
Because the Aquatic Center parking lot
and driveway were situated on a steep
slope, the contractor first had to excavate
the original parking lot and driveway to
reduce the slope of the site. Next, the
contractor added an 18-inch-thick layer
of 2- to 3-inch crushed stone to the
excavated space to create space for water
storage and help to filter stormwater
as it travels down the hill. Then the
contractor added a 6-inch layer of 1-inch

To complete the parking lot, the
contractor used a special piece of
machinery to place 4-foot square
pallets of pavers in the parking lot and
driveway areas. The contractor used
white pavers to create parking lines and
black pavers to indicate where not to
park.The different colored pavers reduce
maintenance from painting. Finally, the
contractor compacted small stone chips
into the spaces between pavers. This
prevents dirt and debris from clogging
the drainage system while allowing
runoff to soak into the gravel layers
below the pavers.

During construction of the parking lot,

is a federal/state partnership
managed by EPA to fund
water infrastructure projects.
EPA provides grants to all
50 states and Puerto Rico.
The grants provide funding

for projects that improve

water quality such as

wastewater treatment plant

improvements, non-point

source pollution control, and

green infrastructure projects

To learn more about your

state's Clean Water State

Revolving Fund, visit

https:

epa.gov/cwsrf.

the best solution, the project team sent
the proposal to the Iowa Department of
Natural Resources for approval.

shed stone over the entire parking
ioi and driveway space. After this layer
of stone, the contractor built concrete
curbs to contain the stone. Following the
installation of the;.curbs, the contractor
placed a thin iayer of small stone called
the setting bed over the previous layers
of stone. This layer was screened to
create a flat surface to lay the pavers.

The contractor lays permeable pavers over
layers of crushed stone.

Permeable pavers: 3 1/8" thick pavers

Setting bed layer: 1 Vz inches of 3/8" chips of crushed stone

Filter stone layer: 6 inches of 1" crushed stone

Base stone storage layer: 18 inches of 2-3" crushed stone
Engineered fabric

Excavated clay

THE CLEAN
WATER STATE
REVOLVING
FUND

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the contractor added additional features
to help control runoff rates on the site.
Because of the site's slope and underlying
clay layer that prevents infiltration below
the gravel layers, the contractor dug a
5 to 6-foot deep storage trench on the
downhill side of the parking lot to collect
extra stormwater runoff that did not
soak into the pavers, in the trench, the
contractor added a pipe that connects to
the storm sewer system. In the storage
trench, a 6-foot layer of the crushed stone
was added. After runoff filters through
the gravel layers, it flows to the storage
trench at the bottom of the parking lot
and is slowly released through this pipe.

Additionally, sidewalk permeable pavers
were placed over the area outside the
concrete curbs to connect the parking
lot to the Aguatic Center and to create an
area to place a bicycle rack.

RESULTS

The new parking lot and driveway greatly
reduced the rate at which stormwater
runoff leaves the site, added more
parking space without increasing the
site's footprint, and improved aesthetics
for Monona Aguatic Center patrons.

HEALTHIER WATERSHED: The
permeable pavers and layers
of crushed stone filter and
store stormwater, allowing
it to slowly drain off the site
over a span of four days. Previously,
the gravel parking lot did not store
stormwater, and any rain that fell on the
site would run off within minutes. This
new, extended drainage time helps to
reduce erosion as the water is released
as a small trickle over several days.The
site can now manage the runoff from a
100 year storm event, which has a one
percent chance of occurring in any given
year and generates approximately 7
inches of rainfall in a 24-hour period'. The
additional time the water filters through

A demonstration of the permeable pavers
capturing water.

the crushed stone beds under the pavers
also helps to filter the stormwater of
sediment and other debris.

The city did not evaluate the water
guality of the nearby river tributary
before and after the project. However,
the project engineer noted that oil and
grease from the parking lot no longer
reach the creek, and the water appears
cleaner now that most of the stormwater
from the site is filtered by the new
design.

IMPROVED AESTHETICS:

The parking lot is easier for
Monona Aguatic Center
patrons to access and use,
as it is no longer on such a
steep slope.The new pavers also reduced
dust and debris. Before the project, the
parking lot looked unfinished, but with
the new pavers the parking lot appears
to be in much better condition.

REDUCED MAINTENANCE:

The use of different color
pavers reduces parking lot
maintenance for city staff,
since they do not need to
repaint parking space lines every year.

LESSONS LEARNED

Thorough planning and preparation
helped the project team avoid major
problems or roadblocks; following are
some of the tips and strategies they
learned along the way:

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•	Be flexible, The steep slope of the
site or the underlying clay layer could
have been a roadblock, but the team
developed a creative solution.

•	Evaluate the needs of the site
before deciding on a solution.
Careful planning can help you solve
multiple problems with one project.

•	Piggyback off other projects or
funding. Using an existing financing
system helped fund the project
without cost or burden on citizens.

•	Small projects can inspire larger
projects. Though this site was small,
it was the starting point for Monona
to complete larger projects. Following
the successful completion of this
project, the city renovated a 560-foot
road next to the Monona Aguatic
Center with permeable pavers.

• Find local partners. Partnering
with local groups such as watershed
associations or local River Keepers can
help garner support for projects and
provide valuable insight from local
experts.

The City of Monona used green
infrastructure to solve multiple problems
at the Aguatic Center. By using existing
funding mechanisms, the city was able
to improve the parking lot, driveway,
and local water guality in a short amount
of time at minimal cost to the city.
Additionally, this smaller project inspired
the City of Monona to implement
additional green infrastructure projects.

ACKNOWLEDGEMENTS

Jon Biederman of Fehr Graham, the local
engineering firm hired for this project,
provided information and photos for this
case study.

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