v>EPA
United States
Environmental Protection
Agency
Off ice of Water
Washington, D.C.
832-F-99-046
September 1999
Storm Water
Management Fact Sheet
Visual Inspection
DESCRIPTION
Visual inspection is a Best Management Practice
(BMP) in which members of a Storm Water
Pollution Prevention Team visually examine
material storage and outdoor processing areas, the
storm water discharges from such areas, and the
environment in the vicinity of the discharges, to
identify contaminated runoff and its possible
sources.
In a visual inspection, storm water runoff may be
examined for the presence of floating and
suspended materials, oil and grease, discoloration,
turbidity, odor, or foam; and storage areas may be
inspected for leaks from containers, discolorations
on the storage area floor, or other indications of a
potential for pollutants to contaminate storm water
runoff.
Visual inspections may indicate the need to modify
a facility to reduce the risk of contaminating runoff.
APPLICABILITY
The U.S. EPA has recognized visual inspection as
a baseline BMP for over 10 years. Its
implementation, however, has been sporadic.
Implementation may increase as more facilities
develop Storm Water Pollution Prevention Plans.
Implementation may also increase as facility
management recognizes visual inspection to be
effective both in protecting water quality and in
reducing costs.
ADVANTAGES AND DISADVANTAGES
Visual inspections are an effective way to identify
a variety of problems. Correcting these problems
can improve the water quality of the receiving
water.
Limitations associated with visual inspections
include the following:
• Visual inspections are effective only for
those areas clearly visible to the human eye.
The inspections need to be performed by
qualified personnel.
• To be effective, inspections must be carried
out routinely. This requires a corporate
commitment to implementing them.
• Inspectors need to be properly motivated to
perform a thorough visual inspection.
KEY PROGRAM COMPONENTS
Visual inspections for signs of storm water
contamination should be performed routinely.
Flows should be observed during dry periods to
determine the presence of any stains, sludge, odors,
and other abnormal conditions.
Visual inspections should also be made at all storm
water discharge outlet locations during the first
hour of a storm event, once runoff has reached its
maximum flow rate. Inspectors should examine the
discharge for the presence of floating and
suspended materials, oil and grease, discoloration,
turbidity, foam, or odor.
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Inspection frequency interval may be determined by
the storm water discharge permit, by storm
frequency, or by the potential risk from the site.
Inspections should be made at least once a month in
areas with frequent storms; inspections may be less
frequent where storms are less frequent. Finally,
inspection frequency may be based in part on the
history of previous spills and leaks. Experienced
personnel should evaluate the causes of previous
accidents, assess the risks for future accidents, and
determine an inspection schedule based on these
risks.
Proper records of inspection results must be kept.
The record for each inspection should include the
date of the inspection, the names of the personnel
who performed the inspection, and their
observations.
Visual inspections of a facility should focus on the
following key areas:
• Storage facilities.
• Transfer pipelines.
• Loading and unloading areas.
• Pipes, pumps, valves, and fittings.
• Tanks (including internal and external
inspection of the tank for corrosion and
inspection of its support or foundation for
deterioration).
Primary or secondary containment facilities.
Shipping containers.
In addition, a visual inspection should include
assessing the integrity of the storm water collection
system; checking for leaks, seepage, and overflows
from sludge and waste disposal sites; and ensuring
that dry chemicals and dust from industrial areas is
not exposed to wind or other elements that may move
them into the runoff.
IMPLEMENTATION
A visual inspection BMP program should be
incorporated into every storm water discharger's
record keeping and internal reporting structure.
Outfall flow rates and the presence of oil sheens,
floatables, coarse solids, color, and odors will
probably be the most useful indicators of potential
problems. Specific parameters to look for in
completing a visual inspection include the
following:
Odor: Discharge odors can vary widely.
Some may indicate the source of
contamination. Industrial discharges may
smell like a particular spoiled product, oil,
gasoline, a specific chemical, or a solvent.
For example, the decomposition of organic
wastes in a discharge will release sulfide
compounds, creating an intense smell of
rotten eggs. Significant sanitary
wastewater contributions will also cause
pronounced and distinctive odors.
Color: Color may indicate inappropriate
discharges, especially from industrial
sources. Industrial discharges may be any
color. Dark colors, such as brown, gray, or
black, are most common. For instance,
flow contaminated by meat processing
industries is usually a deep reddish-brown.
Paper mill wastes (plating-mill wastes) are
often yellow. Wash water from cement and
stone working plants can cause cloudy
discharges. Contamination from industrial
areas may come from process waters (slug
or continuous discharges); from equipment
and work area wash water discharged to
floor drains; or from spills washed into
storm drains.
• Turbidity: Turbidity is often affected by the
degree of gross contamination. Industrial
flows can be cloudy (moderately turbid) or
opaque (highly turbid). Undiluted industrial
discharges, such as those coming from
continual flow sources or intermittent spills,
are often highly turbid. Sanitary wastewater
is also often cloudy in nature.
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Floatable matter: A contaminated flow may
also contain floatable solids or liquids.
Identifying floatables can aid in finding the
source of the contamination, because these
substances are usually direct products or
byproducts of the manufacturing process or
the sanitary system. Examples of floatables
of industrial origin are animal fats, spoiled
food products, oils, plant parts, solvents,
sawdust, foams, packing materials, and fuel.
Deposits and Stains: Deposits and stains
(residues) are any type of coating that
remains after a non-storm water discharge
has ceased. Deposits or stains usually are of
a dark color and usually cover the area
surrounding the storm water discharge.
They often contain fragments of floatable
substances, and, at times, take the form of a
crystalline or amorphous powder. For
example, contamination from leather
tanneries often produces grayish-black
deposits containing fragments of animal
flesh and hair. Another characteristic
example is the coating of white crystalline
powder formed on sewer outfalls by
nitrogenous fertilizer wastes.
Vegetation: Storm water discharges often
affect surrounding vegetation. Industrial
pollutants often cause a substantial
alteration in the chemical composition and
pH of the discharge water, which can affect
plant growth even when the source of
contamination is intermittent. For example,
nutrients from various food product wastes
increase plant growth. In contrast, the
discharge of chemical dyes and inorganic
pigments from textile mills may decrease
vegetation, as these discharges are often
very acidic. In either case, even when the
pollution source is gone, the vegetation
surrounding the discharge will continue to
show the effects of the contamination.
In order to accurately judge if the vegetation
surrounding a discharge is normal, the
observer must take into account recent
weather conditions, as well as the time of
year. Increased or inhibited plant growth
near storm water discharges, as well as dead
and decaying plants, is often a sign of
pollution. However, it is important to
distinguish whether plant damage is caused
by contamination or by the physical effects
of increased flows, such as scour. This can
be done by chemically analyzing the flow or
by confirming its source through additional
visual inspections.
• Structural Damage: Structural damage is
also a sign of industrial discharge
contamination. Cracked or deteriorated
concrete or peeling surface paint at an
outfall usually indicates the presence of
severely contaminated discharges.
Contaminants causing this type of damage
are usually very acidic or basic and are
usually of industrial origin. For instance,
discharges from primary metal industries
may cause structural damage because their
batch dumps are highly acidic.
The effectiveness visual inspections in reducing
storm water runoff contamination is highly variable
and dependent upon site-specific parameters.
These factors include inspectors' motivation level,
the types of industrial activity occurring at the
facility, and the facility's maintenance procedures.
Because familiarity with facility operations is
essential in performing effective visual inspections,
the inspections should be assigned to qualified staff
such as maintenance personnel or environmental
engineers. Figure 1 provides a sample visual
evaluation worksheet that can be used to record the
results of the inspections.
COSTS
Costs for performing the visual inspection BMP are
minimal and consist of direct labor and overhead
costs for staff hours spent on training, planning
inspections, inspecting, and completing follow up
activities. Annual costs can be estimated using the
example in Table 1. Figure 2 can be used as a
worksheet to calculate the estimated annual cost for
implementing a visual inspection program.
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Outfall #
Location:
Photograph #
Date:
Weather: air temp.:
°C
rain: Y
sunny
cloudy
Outfall flow rate estimate:
L/sec
Known industrial or commercial uses in drainage area?
Describe:
PHYSICAL OBSERVATIONS
Odor: none sewage
Color: none yellow
Turbidity: none cloudy
Floatables: none
Deposits/stains:
Vegetation conditions: normal
extent:
sulfide
brown
opaque
petroleum sheen
none sediment
oil gas
green
rancid-sour other:
gray other:
sewage other: _
oily describe:
(collect sample)
_ (collect sample)
excessive growth
inhibited growth
Damage to outfall structures:
identify structure:
damage: none / concrete cracking / concrete spelling / peeling paint / corrosion
other damage:
extent:
Source: Pitt, et. al, 1992.
FIGURE 1 VISUAL INSPECTION WORKSHEET
REFERENCES
California Environmental Protection
Agency, 1992. Staff Proposal for
Modification to Water Quality Order No.
91-13 DWQ Waste Discharge
Requirements for Dischargers of Storm
Water Associated with Industrial Activities,
Draft Wording, Monitoring Program and
Reporting Requirements.
Pitt R., D. Barbe, D. Adrian, and R. Field,
1992. Investigation of Inappropriate
Pollutant Entries into Storm Drainage
Systems-A Users Guide. U.S. EPA, Edison,
NJ.
U.S. EPA,
Document.
1981. NPDESBMP Guidance
4. U.S. EPA. Pre-print, 1992. Storm Water
Management for Industrial Activities:
Developing Pollution Prevention Plans and
Best Management Practices. EPA 832-R-
92-006.
ADDITIONAL INFORMATION
Center for Watershed Protection
Tom Schueler
8391 Main Street
Ellicott City, MD21043
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TABLE 1 EXAMPLE OF VISUAL INSPECTION PROGRAM COSTS
Title Quantity Average
Hourly Rate
($)
Storm Water Engineer
Plant Management
Plant Employees
1 x 15
5 x 20
100 x 10
*Note: Defined as a multiplier (typically ranging between 1
payroll expenses, building expenses, etc.
Overhead* Estimated
Multiplier Yearly Hours
onSW
Training
x 2.0 x 20
x 2.0 x 10
x 2.0 x 5
TOTAL ESTIMATED ANNUAL COST
and 3) that takes into account those costs
Estimated
Annual Cost
($)
600
2,000
10,000
$12,600
associated with
Source: U.S. EPA, 1992.
Title
Quantity
Average
Hourly
Rate ($)
Overhead
Multiplier
Estimated Yearly
Hours on SW
Training
Estimated
Annual Cost($)
(A)
.(B)
.(C)
.(D)
Source: U.S. EPA, 1992.
FIGURE 2 SAMPLE INSPECTION PROGRAM COST WORKSHEET
Northern Virginia Planning District Commission
David Bulova
7535 Little River Turnpike, Suite 100
Annandale, VA 22003
Oklahoma Department of Environmental Quality
Don Mooney
Water Quality Division, Storm Water Unit
P.O. Box 1677
Oklahoma City, OK 73101-1677
Southeastern Wisconsin Regional Planning
Commission
Bob Biebel
916 N. East Avenue, P.O. Box 1607
Waukesha, WI53187
United States Postal Service
Charles Vidich
6 Griffin Road North
Windsor, CT 06006-7030
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The mention of trade names or commercial
products does not constitute endorsement or
recommendation for the use by the U.S.
Environmental Protection Agency.
For more information contact:
Municipal Technology Branch
U.S. EPA
Mail Code 4204
401 M St., S.W.
Washington, D.C., 20460
IMTB
Excellence fn compliance through optimal technical solutions
MUNICIPAL TECHNOLOGY BRANCH
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