| Civil Defense Now! Home Blast Shelter Plans
By Richard A. Fleetwood - May 2001
The plan on this page is for a 15 psi blast and fallout shelter constructed below ground, giving you more protection from fallout radiation than on open ground. The data below was scanned in and converted originally by Robin Hanus, and the zip file of it can be found on my SHELTER PLANS page, as well as Robin's website at www.bwolf.com. Thanks, Robin.
Home Blast Shelter
H-12-3 / November 1983
(Supercedes H-12-3 dated July 1981)
Federal Emergency Management Agency
GENERAL INFORMATION
This family blast shelter can be placed in the yard and will provide protection
against thermal effects, fallout radiation, and blast effects from a nuclear weapon. It is
designed to accommodate six adults. This shelter will also provide excellent protection
against tornadoes. It has a protection factor far greater than 40 which is the minimum
standard of protection from fallout radiation established by the Federal Emergency
Management Agency for public shelters. It will withstand blast overpressures of up to 15
pounds per square inch (psi). If it is built as detailed, with the top near ground level,
an outdoor patio can be constructed above the roof slab. The shelter is accessible by a
hatch-door and wood stairway. Fresh air flow is provided by a hand-operated centrifugal
blower and two ventilating pipes that extend above ground level.
The blast effect from a nuclear weapon is a wave of air, at high pressure, moving
outward from the explosion. The moving air is strong enough and lasts long enough to
destroy buildings out to a distance of several miles. Ordinary homes will be damaged or
destroyed by the blast pressure if it exceeds two pounds per square inch. At 15 psi peak
overpressure, homes will be reduced to rubble and there could be fires and smouldering
debris.
People can be killed or injured by blast in three ways: First, the blast pressure
acts directly on weaker parts of the body such as the lungs and eardrums; second, it hurls
pieces of debris about at such speeds that they can kill or injure; and third, it can
throw persons against solid objects. Protection from the effects of blast can be provided
only by structures strong enough to resist the blast wave. Occupants of a shelter can be
killed or severely injured if excessive blast pressures enter the shelter. A good blast
shelter must have the opening sealed to keep out the blast wave, as well as smoke and
toxic fumes.
The shelter has a wood main hatch cover, and a smaller wood access hatch cover,
both of which are blast hardened to prevent the blast wave from entering. The main hatch
cover weighs about 600 pounds and would be opened only when needed to move furniture and
equipment in and out of the shelter. The main hatch cover is held in place by load binders
(two on each of the long sides). People enter and leave the shelter through the access
hatch opening in the main hatch. The access hatch cover is hinged and weighs about 125
pounds. It also is held in place by load binders (one on each of the long sides).
The ventilation piping includes a gate valve and pipe cap on the air intake, and a
pipe cap for the air exhaust, to prevent the blast wave from entering the ventilation
system. During normal periods, the pipe caps on both the air intake and exhausts should be
removed. This will permit
some natural ventilation and help keep the shelter dry. When the blast shelter is
to be used for protection, both caps should be placed on the air intake and exhaust, and
the gate valve closed to the blower, to prevent the blast wave and smoke from entering. As
soon as the blast wave has passed over the shelter, the gate valve to the blower can be
opened, the pipe cap of the air exhaust removed, and the blower started. If smoke
contaminates the air around the air intake, it will be necessary to delay removal of the
pipe caps, and blower operation. To prevent fallout particles being pulled into the
shelter through the air intake, an optional air intake hood can be stored in the shelter
and installed after the blast.
If the attack does not occur by the time the shelter has been occupied for about 2
hours, the ventilation system should be operated for about 15 minutes to provide fresh air
in the shelter.
The ventilation system should then be closed again and this cycle repeated until
either the blast wave has passed over the shelter (detected by a shaking movement) or the
danger of attack has ended.
Before building the shelter, make certain that the design conforms to the local
building code. Obtain a building permit, if required. If the shelter is to be built by a
local contractor, engage a reliable firm that will do the work properly, offer protection
from any liability or other claims arising from its construction, and will guarantee
workmanship and materials for a period of at least one year.
DRAWINGS
The drawings on pages 6, 7, and 8, show a plan view and three cross sections. With
these drawings, a contractor can build the structure. Individuals who may not be able to
read and understand the drawings and plan to construct their own shelter may require
outside assistance.
GUIDE TO CONTRACTS AND SPECIFICATIONS
It is always advisable to have a written contract with your contractor, as well as
technical specifications to supplement the drawing. A widely used and convenient contract
form for
construction of this size is the AlA Document A 107, "Short Form for Small
Construction Contracts (Stipulated Sum)," which is available from the American
Institute of Architects, 1735
New York Ave., NW., Washington, D. C. 20006. It would be impractical to write a
technical specification to suit every local condition. However, the following summary of
generally accepted construction materials and practices should be a useful guide.
EXCAVATION
The excavation should have side slopes gradual enough to prevent caving; or
appropriate shoring should be provided. Materials used for backfill and embankment should
have debris roots, and large stones removed before placement. The sub-grade for the floor
slab should be level for ease in placing waterproofing membrane and to provide uniform
bearing The area over the roof should be sloped away at a minimum grade of 1 inch per 10
feet to provide good drainage
CONCRETE
For details of concrete construction, follow "Building Code Requirements for
Reinforced Concrete" (ACI 318-71), which can be obtained from the American Concrete
Institute, Detroit, Michigan 48219. Concrete shall have a minimum compressive strength of
3,000 psi, and all reinforcing steel shall be Grade 60.
WATERPROOFING
Waterproofing specifications may be obtained from the nearest FHA (Federal Housing
Administration) office; or those of a reputable manufacturer of waterproofing materials
may be used. Special attention should be given to assure good waterproofing, and the
contractor should guarantee it for a period of at least 5 years.
VENTILATION
All pipe and fittings shall be galvanized. Suitable ventilating blowers and roof
ventilators are available from many sources of supply. Fabrication details and
installation requirements will differ. Blowers having geared, hand-crank drives can be
obtained from commercial sources. The Optional air-intake hood can be obtained from
commercial sources also.
MODIFICATIONS
If the topography permits, the shelter can be built into a hillside or embankment.
This modification can increase the protection factor further by the additional earth mound
over the shelter. A maximum of 3 feet of earth cover is recommended. The minimum cover for
the shelter is shown on the detailed drawings. On the downhill side, a maximum slope of 1
on 2 is recommended within 18 feet of the shelter. There are no restrictions on the slope
on the uphill side.
The principal advantage of this shelter is that it can be erected with a minimum
of excavation in locations where there is poor drainage or where the ground-water table is
close to the surface. However, the exposure of the shelter above ground requires the
addition of earth mounding around all sides. A maximum slope of 1 on 2 is recommended
within 18 feet of the shelter.
OPTIONS
To accommodate more people, increase the shelter length 1 '-3', for each
additional shelter space. Do not increase the 10'~3" width without redesigning the
roof slab for the longer span. Electrical service may be brought to the shelter from a
separate circuit in the house. A branch circuit breaker should be installed inside the
shelter. This is for use under normal times, since electric power may or may not be
available during the shelter period.
The optional air intake hood, shown below, can be installed after the blast wave
has passed, by removing the gooseneck piping and slipping the air intake over the pipe and
tightening the hood to the pipe.
NOTES:
Exterior walls, roof slabs, and under-floor slabs shall be waterproofed with a
3-ply membrane waterproofing system. This provides a continuous barrier which seals the
entire area of surface to be protected. The membrane shall be protected from backfill and
other construction damage.
Place flagstones or bricks on a sand bed when using the roof slab as a patio.
Bevel all exposed corners of concrete 34" at 45 degrees.
Use construction grade 2 x 6's and 4 x 4's for the hatch cover. 2 x 4's standing
on edge may be substituted for the 4 x 4's. Nail, bolt, or screw the 4 x 4's to the 2 x 6
frame. Cover the outside with galvanized sheet metal. Provide a smoke-tight seal all
around the hatch cover (neoprene gasket, weatherstripping, etc.)
Cover opening in air intake and exhaust goosenecks with a No.6 mesh rustproof
screen. An optional removable air intake hood can be made and stored in the shelter for
use after the blast.
Structural Design Data:
All reinforcing bars shown are No.5's, Grade 60
Concrete = 3,000 psi
Minimum sol bearing = 1,000 pounds per square fool (psi)
Lumber in hatch cover: Design bending stress 500 psi
Distribution:
FEMA Regions and NETC
State & Local Emergency Management Directors
U.S. GOVERNMENT PRINTING OFFICE 2 1983 0 - 426-857
Provided for you by BlueWolf Productions at: http://www.bwolf.com
Updated May 2001 - © 2001 By Richard A. Fleetwood |
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