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WQ678, Reducing the Risk of Groundwater Contamination by Improving Petroleum Product Storage

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Reducing the Risk of Groundwater Contamination by Improving Petroleum-Product Storage

Farm•A•Syst: Farmstead Assessment System Fact Sheet #4
This publication is included when you order MU publication WQ654, Assessing the Risk of Groundwater Contamination From Petroleum Product Storage, the worksheet that corresponds with this fact sheet.

Storage tank location

The most important aspect of the location of your liquid-petroleum storage tank is how close it is to your drinking-water well. State well-driller regulations (RSMo 256.600) require petroleum storage tanks be located at least 300 feet from a drinking-water well. Minimum separation distances regulate only new-well installation. Existing wells are required to meet only separation requirements in effect at the time of well construction. Make every effort, however, to exceed old regulations and strive to meet current regulations whenever possible.

Although diesel fuel and fuel oil are more dense than gasoline and move more slowly through the soil, they eventually will reach groundwater.

Every site has unique geologic and hydrologic conditions that can affect groundwater movement. How quickly the petroleum product reaches groundwater also depends upon local soils. The more porous the soil (sands and gravels, for example), the faster the rate of downward movement to groundwater. You may put a new tank more than 300 feet away from your well to provide reasonable assurance that subsurface flow or seepage of contaminated groundwater will not reach your well. If possible, you should place the tank downslope from the well. Figure 1 illustrates petroleum product seepage into soils.

If you have an above-ground tank, follow existing regulations for underground storage tanks as a guide. To protect against explosion and fire, do not put tanks (especially above-ground tanks) closer than 50 feet to existing buildings. Previous regulations for placing above-ground storage tanks were concerned more with the explosion potential of tanks than the groundwater pollution potential. State agencies have revised above-ground storage-tank regulations to better protect groundwater.

Petroleum product seepage into soils Figure 1
Petroleum product seepage into soils. Source: Underground Tank Corrective Action Technologies, EPA/625/6-87-015, January 1987.

New storage-tank location

Along with maintaining adequate distance from your drinking-water well, choose a location for a new tank based on the following considerations:

  •           Soil characteristics
    Highly corrosive clays, wet soils, cinders and acid (low pH) soils can significantly speed up the rate of corrosion of underground metal tanks and piping. Using clean backfill during installation can decrease the negative effects of surrounding soils.
  •           Soil stability
    Assess the ability of underlying soil to support both underground and above-ground tanks. For special tank locations, such as hillsides, properly anchor and hold tanks in place. Be sure pipes cannot twist or break if the tank is bumped or disturbed. Regardless of soil conditions, put above-ground tanks over an impermeable liner made of concrete or one of the newer synthetic fabrics. Build a collection device for spills.
  •           Current and previous land use
    Sites that contain abandoned pipes and tanks, agricultural drainage tiles or waste materials pose special installation problems. Any metal already in the ground at your chosen site will increase corrosion rates for the new tank.
  •           Traffic
    Assess traffic patterns around the tank. Determine if the location of the tank or dispenser will block movement of farm vehicles during refueling or cause special problems if any work needs to be done on the tank. Protect piping from collisions with farm and fuel vehicles.
  •           Depth to groundwater
    Floodways or areas where the water table is close to the surface are poor locations for storage tanks. Tanks placed in such areas require special installation. To reduce pollution potential, you may prefer an above-ground tank to an underground tank.

Tank design and installation

Whenever you install a fuel-storage tank, carefully follow the manufacturer's recommended practices for installation. Proper installation is one sure way to minimize leakage potential of the tank or the piping connected to it. Even scratches in a metal tank caused by careless installation can increase corrosion and tank deterioration.

Underground tanks

All new underground petroleum storage tanks and related piping must be constructed of nonmetallic materials such as fiberglass or have corrosion protection. Corrosion protection includes interior liners and sacrificial anodes.

A sacrificial anode is a special material connected to the tank with a greater tendency to corrode than the tank material. The anode will typically protect the tank for up to 30 years. Interior liners are made of noncorrosive synthetic materials and also can be effective in protecting metal tanks.

All new underground storage tanks should have some kind of spill protection. This typically consists of a catch basin for collecting spills when the tank is filled. Overfill protection warns of or prevents overfill with an automatic shut-off or buzzer. Spill and overfill protection are important; they can prevent a number of small releases over a long period of time from polluting the groundwater.

Above-ground tanks

State regulations for above-ground tank installation seek to reduce the potential for both pollution and fire. Requirements include enclosing the tank within a secure 6-foot fence or well-ventilated building of noncombustible material and constructing a fire wall between the fuel-dispensing area and the tank.

To decrease pollution potential, place farm tanks within a secondary containment structure consisting of a dike and a pad. All piping should be above ground within the dike or may go over the dike wall, but below-ground piping must be within 10 feet of the dike wall. Above-ground piping must be made of steel and coated to prohibit corrosion. Below-ground piping may be either steel or fiberglass. Steel tanks must be coated and cathodically protected.


Regulations for new underground tanks require that all tanks have a method of detecting leaks. Select the tank location carefully to ensure ease of installation and reliability of chosen leak-detection methods. Test the tank periodically for leaks, and measure the tank inventory on a monthly (or more frequent) basis to detect leaks before major problems develop.

Because cleanup of gasoline leaks is always costly and often not totally effective, it is important to constantly monitor underground tanks containing petroleum products.

If you already have a petroleum storage tank on your farm, know the age of your tank and establish a leak-detection program. Figure 2 shows how groundwater can be contaminated by underground tanks.

Contamination of groundwater due to improper fuel storage and transfer Figure 2
Contamination of groundwater due to improper fuel storage and transfer. Source: Handling and Underground Storage of Fuels, Cooperative Extension Service, Michigan State University, Extension Publication WQ1. Reviewed February 1986.

Because most tanks used on farmsteads are bare steel, tank corrosion or piping problems will cause leaks sooner or later. If your tank is more than 20 years old, or if you don't know its age, make a special effort immediately to determine whether leaks exist.

You can test tank integrity through such methods as precision testing/tightness testing and volumetric analysis. State regulations prohibit some other testing methods. Air-pressure testing, for example, is prohibited if a tank has ever contained product.

Ask for a list of approved tank-testing methods and suppliers' phone numbers from the Missouri Department of Natural Resources (DNR) at 573-751-7428.

Even when a tank has been tested and proven tight, existing regulations and good practice require that you have a method for regularly detecting leaks.

Install such internal or external monitoring methods as groundwater monitoring wells, vapor monitoring, automatic tank gauging or other approved methods.

Measuring tank inventories is an inexpensive and easy way to help detect leaks. Leaks exist when there is any decrease in level over time without any withdrawal of fuel, or if there's an increase in water in the tank. Although inventory measurement will not detect small leaks, it will provide a warning that further investigation may be necessary.

If you use a measuring stick to measure tank liquid level, be sure that the stick does not puncture or damage the bottom of the tank.

The closer the tank is to the farmstead's drinking-water well, the more important it is to ensure that an adequate leak-detection system is in place.

Leaks and spills

If you find a leak or spill from any tank — whether it be above or below ground, or even a vehicle-mounted tank — state law requires that you notify the 24-hour hotline of the DNR at 573-634-2436 or your local DNR office. Take whatever actions are necessary to remedy the problem, according to recommendations you receive when you report the spill or leak.

The DNR, Division of Environmental Quality, administers the Underground Storage Tank Insurance Fund, which can reimburse participating tank owners for a substantial percentage of costs incurred in cleaning up a problem for federally regulated tanks or home-heating fuel tanks. For more information about the fund, call the DNR at 573-751-7428. Residential and farm vehicle-fuel tanks with less than 1,100-gallon capacity are not federally regulated and therefore are not eligible for this assistance.

Tank closure

Tanks no longer in use can cause problems for owners and operators many years later. They will continue to corrode and, if they still contain gas or oil, will likely contaminate groundwater.

Try to find unused tanks on your property. Also, try to find out whether the tanks still hold product or have holes. You must pull these tanks from the ground and dispose of them in a landfill or at a scrap dealer.

State law requires that certified individuals pull a tank. Before pulling a tank, always notify your local fire department at least one month before you have the tank pulled to ensure that precautions are taken to prevent an explosion or other problem. Deaths have occurred because of improper closure.

If you are concerned that your unused tank has been leaking, consult an environmental engineer or DNR investigator to determine if further investigation is warranted. If there is groundwater pollution in your area, your neighbors will be sure to suspect the tank as its cause. The DNR also has regulatory authority to investigate potential pollution situations and recover costs from responsible parties.

You should document steps you take to legally close your tank — including notifying the DNR, Division of Environmental Quality, that the tank has been closed — so that you are protected from legal action in the event of groundwater problems.

Contacts and references

Tank registration, reporting closure and changes in tank ownership

  • DNR, Division of Environmental Quality, P.O. Box 176, Jefferson City, Mo. 65102

EPA regulations

  • Environmental Protection Agency (EPA) Region VII Underground Tank Program Coordinator or DNR, P.O. Box 176, Jefferson City, Mo. 65102.

Petroleum product spills

Your DNR regional office:

  • Kansas City Regional Office
  • Macon Regional Office
  • Jefferson City Regional Office
  • St. Louis Regional Office
    Springfield Regional Office
  • Poplar Bluff Regional Office

Health effects of gasoline-contaminated groundwater

  • Missouri Department of Health, Section of Epidemiology

What to read about

  • Publications are available from sources listed at the end of the reference section. (Refer to number in parentheses after each publication.)

Tank design, installation and site selection

  • Site Assessment Guidelines. Missouri DNR, Division of Environmental Quality. (1)
  • The Interim Prohibition: Guidance for Design and Installation of Underground Storage Tanks. U.S. EPA. EPA/530-SW-85-023. Longer document, contains technical information. (2)
  • Tank Installation Perspectives: Underground Tank Technology Update, volume 1, number 3. 1987. University of Wisconsin-Madison, College of Engineering. (3)

Petroleum-product storage and handling

  • Handling and Underground Storage of Fuels. 1986. Cooperative Extension Service, Michigan State University. Extension Bulletin WQ1. (4)

Tank regulations, financial responsibilities

  • Musts for USTs: A Summary of New Regulations for UST Systems. U.S. EPA. (2)
  • Dollars and Sense: A Summary of Financial Responsibility for UST Systems. U.S. EPA. (2)

Tank testing

  • A List of Approved Tank-Testing Systems. Missouri DNR, Division of Environmental Quality. (1)

Tank closure

  • Tank Abandonment and Closure. Missouri DNR, Division of Environmental Quality. (1)

Publications available

  • Missouri DNR, Division of Environmental Quality Underground Storage Tank Coordinator, P.O. Box 176, Jefferson City, Mo. 65102
  • U.S. EPA, 401 "M" St., S.W., Washington, D.C. 20460.
  • UW-Madison, College of Engineering, Madison, Wis. 53706.
  • Michigan State University Cooperative Extension Service.
The Missouri Farmstead Assessment System is a cooperative project of MU Extension; College of Agriculture, Food and Natural Resources; and the Natural Resources Conservation Service.
The National Farmstead Assessment Program provided support for development of the Missouri program. These materials are adapted from the Wisconsin and Minnesota prototype versions of Farm•A•Syst.
This material is based upon work supported by the Extension Service, U.S. Department of Agriculture, under special project number 91-EHUA-1-0055 and 91-EWQI-1-9271.
Adapted for Missouri from material prepared by Susan Jones, U.S. E.P.A., Region V, Water Division, and University of Wisconsin Cooperative Extension.
MU Extension Farm•A•Syst team members: Joe Lear, Regional Agricultural Engineering Specialist and Chief Editor; Beverly Maltsberger, Regional Community Development Specialist; Robert Kelly and Charles Shay, Regional Agricultural Engineering Specialists; Thomas Yonke, Program Director, Agriculture and Natural Resources; Jerry Carpenter, State Water Quality Specialist; and Bob Broz, Water Quality Associate.
Technical review provided by August Timpe, Missouri Department of Natural Resources; Charles Fulhage, MU Department of Agricultural Engineering; U.S. E.P.A. Region VII, Environmental Sciences Division; and Missouri Natural Resources Conservation Service.

WQ678 Reducing the Risk of Groundwater Contamination by Improving Petroleum Product Storage | University of Missouri Extension