Technical Factsheet on: BERYLLIUM

List of Contaminants

As part of the Drinking Water and Health pages, this fact sheet is part of a larger publication:
National Primary Drinking Water Regulations

Drinking Water Standards

MCLG: 0.004 mg/l
MCL: 0.004 mg/l

HAL(child): 1- to 10-day: 30 mg/L; Longer-term: 4 mg/L
Health Effects Summary

Acute: EPA has found beryllium to potentially cause the following health effects from acute exposures at
levels above the MCL: inhalation may cause acute chemical pneumonitis; less toxic via oral exposure.

Short-term exposures in drinking water considered "safe" for a 10-kg (22 lb.) child consuming one liter of
water per day: up to a ten-day exposure to 30 mg/L; a longer-term exposure (upto 7 years) to 4 mg/L.

Chronic: Beryllium has the potential to cause the following health effects from long-term exposures at
levels above the MCL: damage to bones and lungs.

Cancer: There is limited evidence that beryllium may cause cancer from lifetime exposures at levels
above the MCL.

Usage Patterns

Production of beryllium metal increased during the 1980s: from almost 300,000 lbs. in 1982 to 490,000
lbs in 1986. In 1986, it was estimated that the greatest use of beryllium is as an alloy and metal in nuclear
reactors and aerospace applications, which consumed 40% of all production in 1986. Consumption for
other uses: as an alloy and oxide in electrical equipment, 35%; as an alloy and oxide in electronic
components, 17%; and as compounds and metal in other applications, 8%.

Beryllium metal is used as a hardener in alloys; in space vehicles, navigation and optical equipment, and
missile fuel. The chloride is used as a catalyst and intermediate in chemical manufacture. The oxide is
used in glass/ceramics; as a component of nuclear fuels and moderators, electric heat sinks; electrical
insulators; microwave oven components; gyroscopes; military vehicle armor; rocket nozzles; crucibles;
thermocouple tubing; laser structural components.

Release Patterns

Beryllium is concentrated in silicate minerals relative to sulfides and in feldspar minerals relative to
ferromagnesium minerals. The greatest known naturally occurring concentrations of beryllium are found
in certain pegmatite bodies. Certain fossil fuels contain beryllium compounds, perhaps accounting for its
presence in some community air samples. Beryllium is not likely to be found in natural water above trace
levels due to the insolubility of oxides and hydroxides at the normal pH range. It has been reported to
occur in US drinking water at 0.01 to 0.7 ug/L.

Beryllium enters the environment principally from coal combustion. Beryllium content of the ashes and
wastewater from a power plant suggest that secondary long term beryllium pollution emerges from the


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slag and ash dumps. It is also found in discharges from other industrial and municipal operations. Rocket
exhaust products also consist of its compounds, principally the oxide, fluoride and chloride.

From 1987 to 1993, according to the Toxics Release Inventory beryllium releases to land and water
totalled over 340,000 lbs., of which most was to land. These releases were primarily from copper rolling
and drawing industries which use it as a hardener in alloys. The largest releases occurred in
Pennsylvania and Ohio.

Environmental Fate

There is little information available on the environmental fate of beryllium and its compounds. Beryllium
compounds of very low water solubility appear to predominate in soils. Leaching and transport through
soils to ground water appears unlikely to be of concern. Erosion and bulk transport of soil may bring
beryllium to surface waters, but most likely in particulate rather than dissolved form.

Chemical/Physical Properties

CAS Number: 7440-41-7

Color/ Form/Odor: Beryllium is a grayish metal which exists in nature only in combined forms, and in
some precious stones such as emeralds, aquamarine.

Soil sorption coefficient: N/A

Bioconcentration Factor: Nitrate BCF = 100 under constant exposure; not expected to bioaccumulate.

Solubilities:

chloride very soluble
fluoride very soluble
hydroxide slightly sol. in dil. alkali
oxide insoluble
phosphate poorly soluble
sulfate- insol. in cold water

Common Ores: Major commercial ore is bertrandite; oxide- bromellite; others: phenacite, pegmatite
bodies.

Other Regulatory Information

Monitoring:

-	For Ground Water Sources:

Initial Frequency-1 sample once every 3 years

Repeat Frequency-lf no detections for 3 rounds, once every 9 years

-	For Surface Water Sources:

Initial Frequency-1 sample annually


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Repeat Frequency-lf no detections for 3 rounds, once every 9 years

- Triggers - If detect at > 0.004 mg/L, sample quarterly.

Analysis

Reference Source

EPA 600/4-79-020
NTIS PB 91-231498
ASTM

Standard Methods

Method Number

210.2

200.7; 200.8; 200.9
D3645-84B
3113; 3120

Treatment/Best Available Technologies: Activated Alumina; Coagulation/filtration; Ion Exchange, Lime
Softening, Reverse Osmosis

Toxic Release Inventory - Releases to Water and Land, 1987 to 1993 (in pounds):



Water



TOTALS

1,314



Top Five States





PA

653

174,250

OH

490

166,292

Ml

5

1,000

TX

0

174

MN

142

0

Major Industries

Copper rolling, drawing	405	180,502

Nonferrous metal smelting	481	151,790

Nonferrous rolling, drawing	4	8,000

Aluminum foundries	5	1,000

Blast furnaces, steelworks	250	250

Petroleum refining	142	174

For Additional Information:

EPA can provide further regulatory and other general information:
EPA Safe Drinking Water Hotline - 800/426-4791

Other sources of toxicological and environmental fate data include:
Toxic Substance Control Act Information Line - 202/554-1404
Toxics Release Inventory, National Library of Medicine - 301/496-6531
Agency for Toxic Substances and Disease Registry - 404/639-6000


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