Chemical Awareness and Safety

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Chemical Awareness and Safety

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Title: Chemical Awareness and Safety

1
Chemical Awareness and Safety
2
Chemical Hygiene Plan

Marshall University has one
Available on Safety Health web site
www.marshall.edu/safety/chemical
Each lab should have a lab-specific one
Referencing University CHP
Include lab-specific procedures and hazards
Chemical spill information and small spill
cleanup procedures, reporting information

3
Training

Does your lab have a custom Chemical Hygiene Plan
with lab-specific hazards addressed?
staff and students must be trained on this
information upon hire and annually thereafter
Do you know the location of the nearest
fire alarm pull stations
fire extinguisher
eyewash and emergency shower
route of emergency exit from lab AND office
MSDS book and internet resources
chemical spill cleanup equipment

4
Chemical Spills

Can you answer YES to all of these questions?
If so, it may be safe to clean up the
spill
Do you know what chemical was spilled?
Do you know hazards of spilled chemical?
Do you have a chemical spill kit?
Can you protect yourself from the hazards?

5
Chemical Spill Response

In the event of any hazardous chemical spill, or
a non-hazardous spill in excess of 1 liter
Remain Calm
Avoid breathing vapors or fumes
Activate fire alarm to evacuate building if
chemical is a respiratory hazard
Notify MUPD at 6-4357 then Safety at 6-3461
Provide chemical name and quantity if possible
Secure the spill location to prevent others from
entering until MUPD or Safety arrive

6
Chemical Spill Response

If spill is flammable, turn off ignition and heat
sources
Try to contain the spill if possible
Do not risk injury to do these tasks
If personnel were exposed, move to safe location
and flush with copious amounts of water (at least
15 minutes)
If spill on clothing, remove all clothing in
emergency showerthis is no time for modesty

7
Small Chemical Spill

A small spill
less that 1 liter of a non-hazardous chemical
NO hazardous chemicals
can be cleaned up by lab personnel
contact Safety Health for assistance if
necessary
Steps for Clean Up
use personal protective equipment
stop source of leak
neutralize acids/bases
contain spill with paper towel, kitty litter,
etc.
contact Safety Health to report incident and
for waste disposal

8
Fire Safety

Fire Extinguishers
Always activate building alarm first!
Most common type on campus is red class ABC
Some labs equipped with CO2
Library and dorms have water in silver class A
Only attempt to extinguish small fires that you
feel comfortable fighting
Keep an exit at your back and fire in front
Use appropriate extinguisher for the type of fire
Label indicates approved uses

9
Fire Safety

Remember the word PASS
Pull the pin
Aim the extinguisher nozzle at the base of the
fire
Squeeze the handle
Sweep the nozzle from side to side
Only have media enough for about 10 seconds of
operation
Should be 8-10 feet from fire, moving closer as
flames go out or away if not

10
After an Emergency

Must submit a report after any significant event,
even if no injury occurs, so that we can track
close calls and minor problems
Employee Incident, Injury, Illness Report Form
Student and Visitor Incident, Injury, Illness
Report Form
Biohazard Spill Occurrence Form
Fill out as much information as possible
Before an incident, you can report a safety
concern on the Safety Health web site

11
Who is Responsible for Chemicals?

Before purchasing decisions are made
Are there less hazardous alternatives?
When hazardous materials must be used, proper
management is critical
Starts with chemical procurement
Proceeds to safe work procedures
Storage and handling
Ultimately, waste disposal

12
Ordering Chemicals

Prepare orders early and thoughtfully.
Only order the amount of product that you can use
in a reasonable time.
Bigger is NOT cheaper in the long run!
Check to see if recycled solvents are available.
Review hazards of chemical(s)
Is special PPE required, and available?
Is special storage required?
Is space available?
Is it a time-sensitive chemical that must be
disposed after a particular time frame?

13
Time-Sensitive Chemicals
A Lifecycle Issue Chemicals that are stored
beyond their safe shelf-life present a hazard to
faculty, staff, and studentsbut thats not
all. Disposal is expensive because of the threat
of explosion, and the added precautions that must
be taken.
Here Calcium carbide reacted with copper in the
metal lid forming acetylene gas (note the bulging
lid), a potentially explosive situation!
14
Chemical Management

Infrastructural
Storage cabinets
Corrosives
Flammables
Chemical fume hoods
Report hoods that arent working
Institutional
Purchasing practices
Buy least amount necessary, not bulk
Storage handling practices
Annual inventory
Date time-sensitive chemicals on receipt
Secondary containment for all liquids
Transport in chemical carrier or on cart
Process
Chemical use
Less hazardous whenever possible
Waste disposal
Contact Safety Health

15
Storage cupboards and safety cabinets are
excellent, but there are too many chemicals
stored on counters here. Must eliminate cluttered
work spaces.
16
Hazard Identification

What do I Need to Know about a chemical?
What kind of hazard(s) does it present
What is the route of exposure
Does the dose represent an acute or chronic
exposure
how much am I working with
and for how long?

17
Hazard Identification

Where Do I Get the Information?
Container label
target organs, hazards, warnings
Material Safety Data Sheets (MSDS)
Internet search resources at http//www.marshall.e
du/safety/chemical/msds.asp
Manufacturer or Distributor
Lab TA or Supervisor
Safety Health (6-3461)
COS Chemistry Stockroom and/or Lab Manager

18
Material Safety Data Sheets (MSDS)

Each University department is responsible for
maintaining an available record of hazardous
chemicals
Useful sections
3. Hazards identification
4. First-aid measures
6. Accidental release measures
7. Handling and Storage
8. Exposure controls/personal protection
10. Stability and reactivity
11. Toxicological information
Must be kept for 30 years after use discontinued

19
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20
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21
Labeling

Must give full chemical name in English
ALL containers must be labeled with their
contents and hazards
Only secondary containers used the same day are
permitted to not be labeled
Mixtures include percent by component
Date time-sensitive chemicals upon arrival
Peroxide-forming chemicals labeled and dated
according to guide
Management of Peroxide-Forming Chemicals

22
HMIS vs. NFPA Label
1

4 3 2
3
0
OX W
A-K

For Employee Safety
Generally more protective (higher numbers)

For First Responder Safety
Every lab entry door should be labeled

Hazard ratings info can be obtained from the MSDS
On a scale of 0 to 4

23
Chemical Storage

Store chemicals according to hazard class
acids must be stored away from bases and
flammables
Review storage guidance documents on Safety and
Health web site
Hazardous Chemicals of Concern List and Storage
Guide
Quick Guide to Chemical Compatibility
Flammable gases must be 20 ft from oxidizers
Place spark or flame generating
equipment away from flammables
Fluids stored in secondary
containment trays

24
Chemical Storage

Some manufacturers/suppliers (Fisher,
Cole-Parmer, Davis) provide their own hazard
coding storage system - ChemAlert
RED (R) Flammable. Store in area segregated for
flammable reagents.
BLUE (B) Health hazard. Toxic if inhaled,
ingested or absorbed through skin. Store in
secure area.
YELLOW (Y) Reactive and oxidizing reagents. May
react violently with air, water, or other
substances. Store away from flammable and
combustible materials.
WHITE (W) Corrosive. May harm skin, eyes, mucous
membranes. Store away from red-, yellow- and
blue-coded reagents.
GRAY (G) Presents no more than moderate hazard
in any of the other categories. For general
chemical storage.
Reagents in same color bar not compatible,
store separately.

STOP
25
Storage Segregate Incompatibles
Mix these and flaming acid will result.
26
Chemical Compatibility
--- Corrosives ---
27
Hazard Labeling
28
US DOT Hazmat Placards
29
Chemicals that Pose Exposure Hazards

Health Hazard (benzene, chloroform)
Carcinogens cause cancer in humans or animals
Includes mutagens, teratogens, target organ
toxicity
Acute Toxics (ethidium bromide, mercury)
Severe - causes death or disease at these
concentrations
Corrosives (sulfuric acid, sodium hydroxide)
a substance that causes visible destruction or
irreversible alteration of living tissue or
metals
DOT - pH lt2 or gt12.5
In lab can use pH lt4 or gt9 for added safety

30
Acids

Always pour acid into water, not the reverse.
Strong acids require rubber aprons.
Store on lower shelves, preferably in a corrosive
cabinet.
Spills from poor transfer and housekeeping will
corrode metal surfaces and equipment, and can
lead to chemical burns.

31
Bases

Skin contact is potentially more dangerous than
acids.
Bases do not coagulate protein like acids
(impeding penetration), resulting in deeper
tissue penetration before it is apparent and
causing severe, slow-healing burns.
Inhalation of high concentrations can cause
delayed, severe pulmonary edema.
Appropriate gloves and chemical splash goggles
should be worn when pouring bases.

32
Chemicals that Pose Exposure Hazards

Irritant (ammonia, sodium hydroxide)
a substance that causes reversible inflammatory
effect on living tissue
Sensitizer (latex, formaldehyde)
a substance that causes an allergic reaction on
the skin or respiratory system
usually happens after repeated exposures

33
Chemicals that Pose Physical Hazards

Flammable Liquid (acetaldehyde, ethanol)
presents exposure hazard also because of
volatility
flash point below 100 oF
Must be stored in Flammable Materials Cabinet
Flammable Solid (magnesium, sulfur)
a solid that can ignite through friction,
absorption of moisture, or when ignited burns so
vigorously it creates a serious hazard
require chemical-specific fire extinguisher
Class D
Combustible (acetic acid, phenol)
flash point above 100 oF and below 200 oF

34
Chemicals that Pose Physical Hazards

Water Reactive (sodium, potassium)
a chemical that reacts with water to release a
gas that is either flammable or presents a health
hazard
Oxidizer (nitric acid, permanganate)
a chemical that promotes the combustion of other
materials by releasing oxygen when heated
Explosive (known TNT, potential picric acid)
a chemical that causes sudden release of
pressure, gas, and heat when subjected to sudden
shock, pressure, or high temperature

35
Routes of Exposure

Inhalation
Work in fume hoods,
especially with volatile chemicals
Absorption
Employer responsible to provide and ensure use
Make sure PPE is appropriate for hazard
Injection
Ingestion
No eating, drinking, applying makeup in labs

36
Acute vs. Chronic Hazards

Acute (ammonia, sulfuric acid)
High dose, short duration
Usually temporary effects that reverse after
removal from exposure
Chronic (asbestos, silica dust)
Low dose, long duration
Usually long-term illness, i.e. cancer

37
Toxicology

The right dose differentiates a
poison and a remedy. - Paracelsus
LD50 (Watch for lt 50 mg/kg)
Factor for Absorption and Ingestion
LC50 (Watch for lt 200 ppm)
Factor for Inhalation, used for gases, fumes,
etc.
OSHA Permissible Exposure Level (PEL)
Time Weighted Average (TWA)
Short Term Exposure Level (STEL)

38
Methods for Protecting Yourself

Engineering controls
Barriers
Flammable storage cabinets
Ventilation
Chemical fume hoods, snorkel exhaust ducts
Administrative controls
Marshall University Chemical Hygiene Plan
Lab-specific CHP and safety guidelines
Signage on doors and equipment
Personal protective equipment

39
Personal Protective Equipment

Eye and face protection
safety glasses, vented goggles, chemical splash
goggles, face shield
Hand protection
gloves
Body protection
lab coats
Dress appropriately for lab work. No shorts, No
sandals or open-toed shoes!

40
Lab Safety Guidelines

No eating, drinking, applying cosmetics in labs
Wear appropriate personal protective equipment
Always wash hands after working with chemicals,
after removing gloves, and before leaving the lab
Remove gloves before handling items such as
telephones, door knobs, computers, etc
Leave personal protective equipment in work area
when leaving remove gloves

41
Lab Safety Guidelines

Housekeeping - keep benches organized and free of
clutter
Proper labeling for ever container
Chemical segregation by compatibility
Dont store chemicals on the floor
Never pipette by mouth
Proper waste disposal
Students should not work alone
Move chemicals on carts with a
spill tray or in a rubber bucket

42
High Risk Materials

4 Types of Time-Sensitive Chemicals
Peroxide Formers
Dioxane, Ether, Isopropyl Ether, Potassium,
Tetrahydrofuran
Peroxide Formers that Undergo Hazardous
Polymerization
Acrylic acid, Ethylene oxide, Vinyl acetate
Shock or Friction Sensitive upon Evaporation of
Stabilizer
Salts (metal picrate, calcium salts) form around
caps
Multi-nitro aromatics such as Picric acid and
Trinitrobenzene
Significant Additional Hazards after Slow
Chemical Reaction
Alkali metals, Anhydrous hydrogen fluoride and
hydrogen bromide, Chloroform, Formic acid, Heavy
metal acetylides (Calcium carbide), Liquid
hydrogen cyanide

43
Perchloric Acid

Never heat in an ordinary fume hood, must be used
in a specially designed perchloric acid hood with
a wash-down system
Explosive perchloric acid salts build up in
ordinary hood exhaust systems (w/o wash-down)
Strong oxidizer! Do not allow contact with
flammables, organic materials (wood), metal
surfaces or floors. Remove these materials from
hood when working with perchloric acid
Do not allow to dry, forms explosive perchlorates
Neutralize spills, flood area with water. Clean
up area and place cleanup materials in plastic
bag(s), seal shut.

44
Sodium Azide

Biostatic, common preservative of samples and
stock solutions
High acute toxicity, mutagenic - extremely toxic
hydrazoic acid generated upon dissolving, must be
prepared in a hood
Explosive when heated near its decomposition
temperature (300C) or reacted with metals
Heating sodium azide should be avoided
Metal shelves and metal items used to handle
sodium azide can react to form explosive heavy
metal azides
Solid or concentrated solutions should never be
flushed down the drain, can cause drain line
explosions
Solutions of sodium azide do not pose the danger
of shock-sensitivity associated with the solid
form
If not dissolved, solid sodium azide should be
stored in a secured cabinet because of the shock
hazard

45
Peroxide Formers

Organic peroxides are one of the most hazardous
substances used in the lab, large amount of
substances are considered peroxide formers
Low-power explosives sensitive to friction, heat,
sparks or other accidental initiation
Extremely flammable, many will autoxidize when
exposed to the oxygen in air
Ether is especially prone
4 classes of peroxide-forming chemicals
Review Management of Peroxide-Forming Chemicals
on Safety and Health web site

46
Organic Peroxide Hazard

Disposal of 1 liter of peroxided ether
These cans of ether were expired 15 years ago.
Ether has a shelf life of roughly 90 days when
opened. Organic peroxides may then form after
opening, thus creating a violent explosive
hazard.
Have you checked your expiration dates?

47
Highly Explosive Peroxide Crystals
Crystals on acid bottle, not a problem.
Crystals on solvent lid or inside, assume
explosive!!! Also watch for discoloration and
layer stratification. Do not move or open,
call Safety and Health for disposal.
48
Peroxide Formers

4 most common Isopropyl ether, Ethyl ether,
Dioxane and Tetrahydrofuran
Follow the manufacturers recommendations on the
minimum safe temp for storage. Do not store
below this temp (makes inhibitor less effective)!
Do not store diethyl ether in a refrigerator or a
freezer, precipitates could form.
Store peroxide formers away from heat and light
in closed vessels from the manufacturer.
Limit the quantity kept in the lab to smallest
amount necessary for immediate use.
Dont return unused portions to the original
container.
Never use metal spatulas only plastic.

49
Peroxide Formers

Should not use glass containers with screw cap
lids, never glass stoppers. Plastic bottles
preferable.
Label and Date all bottles as they arrive.
True for all Time-Sensitive Chemicals
Test for peroxides, record results on label
25 ppm is cut off, must be disposed at and above
If a peroxide former is discolored, has formed
crystals, or layers are stratified do not touch.
Secure the area then call Safety Health to have
it removed.

50
Potassium

Used to demonstrate comparative water reactivity
in earth metals
Supposed to be gray-silver
Color changes as oxidized
White to yellow
(corrosive oxide dispose)
Orange, red, purple
(explosive super oxide)
Very slow, expensive deactivation procedure

51
Hydrofluoric Acid

Anesthetic effect, doesnt burn immediately on
contact
Extremely corrosive to all tissues will cause
deep burns and bone disintegration through
decalcification
Brief exposure (5 min) of 50 ppm can be fatal to
humans. Spills of 70 on an area the size of your
hand are fatal.

Contact with solutions of 1-20 may not be felt
for several hours and can still be fatal.

52
Hydrofluoric Acid

Extreme pain, can require fingernail removal or
amputation, can cause gangrene
HF vapor can cause permanent lung damage and
blindness.
HF reacts with glass ceramics and some metals
forming H2 gas.
It should be stored in secondary containers and
only used by trained personnel.
Calcium Gluconate gel must be on hand in all labs
that use HF.

53
Nitric Acid

Highly corrosive
Severe burns on contact
Powerful oxidizer
Eats plastic caps in 7 to 10 years

Red cap nitric acid. Yellow cap sulfuric acid.
Green cap ammonium hydroxide. Strong acids
bases are incompatible. White crystals are
ammonium nitrate formed by leaking vapors of
nitric acid ammonia.
54
If chloroform is not preserved with alcohol and
is exposed to light, assume Phosgene gas is
present. Contact Safety Health for disposal.
55
EPA Regulations

Pollution Prevention and Waste Minimization
Separate hazardous and non-hazardous wastes
Substitute less-hazardous whenever possible
Toluene For Benzene
Non-Mercury Thermometers
Teflon-coated mercury thermometers used only when
absolutely necessary for precise, high
temperature work (300 oC)
Filtered vacuum systems, water aspirators
Scale Reduction
Dont Over Purchase
Cost of Chemicals vs. Cost of Disposal

56
Waste Management

Heavy metal limits are very low for sewer
discharges.
The following are highly regulated and should
not be drain disposed
Arsenic, Cadmium, Chromium, Copper, Cyanide,
Lead, Mercury, Nickel, Silver, Zinc

57
Waste Management

Evaporation of solvents, drain disposal, and
disposal in trash containers is banned
Keep vacuum pump oil uncontaminated
Unwanted chemicals are not waste
Collect in container compatible with chemistry of
waste chemicals, with secondary containment trays
Ex empty chemical bottles of same chemical
Remove or mark out old label first

58
Waste Management

Collection containers must remain closed at all
times, no funnels left in them when not in use
Only add waste to a properly labeled container
Label must have words waste and description of
contents. Percentage of contents if mixture,
approximation is ok
Manage waste to prevent unknowns
Label, always and accurately

59
Hand-written word Nitro Tested was
nitroglycerine
We do not want to discover toxic 5 water
NOT GOOD!
60
Waste Management

Allow 10 of volume for head space , or 1
Separate and store containers by compatibility
Containers must not be leaking or bulging
Submit pick-up request to Safety Health, form
on web site
www.marshall.edu/safety/chemical
For both unwanted chemicals and chemical wastes

61
Compliance / Inspections

Safety Health conducts random compliance
inspections and will generate a written report
for each lab that addresses areas of concern
Each lab should conduct self-audits
form is available on the Safety Health web site
perfect time is in conjunction with annual
inventory, along with disposal of unwanted
chemicals
WV DEP US EPA have inspected our labs

62
What happens when peroxidized ether is distilled
The End Questions?
63
TEST