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UNIVERSITY OF COLORADO COLORADO SPRINGS. Lab Safety Global Hazard System University of Colorado Colorado Springs. Division of Environmental Health and Safety. Overview. This training consists of four modules: Module 1: Background and Overview Module 2: Chemical Safety - PowerPoint PPT Presentation
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UNIVERSITY OF COLORADO COLORADO SPRINGS
Lab SafetyGlobal Hazard System
University of ColoradoColorado Springs
Division of Environmental Health and Safety
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Overview
This training consists of four modules:
Module 1: Background and Overview
Module 2: Chemical Safety
Module 3: Waste Management
Module 4: Other Laboratory Hazards
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There are four primary regulations which govern how UCCS manages hazardous materials on campus.
• OSHA Hazard Communication (Right-to-know) – passed in 1983 significantly updated 2012
• OSHA Laboratory Standard – passed in 1990
• Resource Conservation and Recovery Act (RCRA) – originally passed in 1976
• Colorado Springs Fire Department
Background
Module 1: Background and Overview
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UCCS’s Compliance Method
Campus-wide Laboratory Safety Manual Maintained by EHS – available online
Laboratory Registration Updated annually by PI’s, lab managers
Laboratory Chemical Inventories Updated annually by PI’s, lab managers
Laboratory Specific Safety Plans Prepared by PI’s, lab managers – reviewed at least
annually or whenever processes change
Comprehensive Training ProgramsProvided annually and on-line
UCCS has adopted a comprehensive approach to meeting these requirements. The elements incorporated in the
comprehensive approach are:
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UCCS’s Compliance Method
Consistent message across the campus in our approach to environmental, health and safety
Allows UCCS to incorporate the requirements of several regulations into one document instead of multiple documents – reduces confusion as to which one applies in “this situation”
Focuses on the specific hazards associated with any individual lab
Allows us to incorporate not only chemical but also physical hazards into the same plan
Reduces the number of different trainings that individuals have to participate in
WHY USE A COMPREHENSIVE APPROACH?
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Training
Depending on the nature of the work or research you conduct, you may need to take one or more of the
courses listed on the following page. Please note that completing this lab safety course does not satisfy any other requirements. Your supervisor should inform you
of which courses you need to take.
A COMMON ELEMENT
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Training
1. On-the-Job Training: You supervisor is required to lead you through individualized training for the conditions specific to your lab. Must be completed within 6 months of hire.
2. Blood Borne Pathogens Training for Research: Required annually for all individuals who work with human blood, bodily fluids, tissues, organs, and/or cell cultures (including human cancer cell lines) or related materials.
3. Biosafety Training: The purpose of this training module is to familiarize the Principal Investigator and lab personnel with good microbiological practices which include recognizing risk groups for biological materials, appropriate containment levels and personal protective clothing and equipment. Additional training in rDNA, shipping of biological materials, and/or animal safety may also be required.
4. Radiation Safety Training: Required annually for all who work with radioactive materials.
5. Respirator Training: An EHS risk assessment will determine if you need a respirator, and if so, the appropriate respirator training course will be assigned. Contact EHS for a risk assessment.
You may also contact Environmental Health and Safety (EHS) with any questions you have regarding your training requirements. Contact information for EHS is available at the end of
this course.
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TrainingFor all staff, faculty, instructors, student employees who work or teach in a lab / anyone who will handle hazardous chemicals or hazardous waste
• Complete your initial chemical safety and hazardous waste management training within 30 days of hire by taking the web-based Safety in the Laboratory course
• Complete an on-the-job training (OJT) form within 6 months of hire. You and your supervisor must work together to complete this training.
• Refresh your skills annually by taking the annual classroom course or the web-based course.
http://www.uccs.edu/pusafety/environmental.html
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Training
If you supervise anyone who handles hazardous chemicals, you are responsible for conducting the OJT for your employees within six months of their hire, to address the specific safety requirements of
their work activities and applicable safety precautions. See details of Supervisor/Principal
Investigator responsibilities. Until they complete all their training requirements, new employees who handle chemicals must be directly supervised by trained employees who have current hazardous
chemical management training.
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UCCS Laboratory Safety Manual
• Provides hazard and hazard control information for classes of chemicals and types of physical hazards
• SOP for handling chemicals safely• SOP for addressing physical hazards• Reviews engineering controls and PPE• Addresses waste stream management• Copy of LSM on the EHS website
Sources of Chemical Information
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Laboratory Specific Safety Plan
• Provides hazard and hazard control information for specific chemicals and physical hazards found in YOUR lab
• SOP for procedures unique to your lab• Copy of LSSP should be in your individual labs
and available to anyone who works in YOUR lab
Sources of Chemical Information
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1. Understand the updated Hazard Communication Standard
2. Understand the Safety Data Sheet
3. Understand Labels• Pictograms• Signal Words• Hazard Statements• Precautionary Statements
4. Understand the relationship of SDS and label
5. Understand storage requirements
6. Understand emergency response for chemicals
Objectives
Module 2: Chemical Safety
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Sources of Chemical Information
• Laboratory Safety Manual
• Laboratory Specific Safety Plans
• SDS • NFPA Hazard Label • Container Label
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Understanding the GHS Labels
Understanding the GHS Labels
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Signal word: One word used to indicate the relative severity of hazard and alert the reader to a potential hazard on the label and safety data sheet. The GHS includes two signal words:
“Warning” for less severe hazard categories and; “Danger” for more severe hazard categories.
Hazard statement(s): Phrase assigned to each hazard category that describes the nature of the hazard. Examples of hazard statements are: “Harmful if swallowed,” “Highly flammable liquid and vapor” and “Harmful to aquatic life.”
Product identifiers: Names or numbers used on a hazardous product label or in a safety data sheet. They provide a unique means by which the product user can identify the chemical substance or mixture.
.
Understanding the GHS Labels
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Other core information to be provided:
Supplier identification: Under the GHS supplier identification would include the name, address and telephone number of the manufacturer or supplier of the substance.
Precautionary statement(s): Phrases that describe recommended measures that should be taken to minimize or prevent adverse effects resulting from exposure to a hazardous product, or improper storage or handling of a hazardous product. These phrases cover prevention, response, storage, and disposal of products
Pictogram(s): A symbol inside a diamond with a red border, denoting a particular hazard class (e.g., acute toxicity/lethality, skin irritation/corrosion, etc.).
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GHS Hazard Classification
• Defined criteria are used to assign a hazard classification
– Physical Hazards 16 categories
– Health Hazards 10 categories
– Environmental Hazards 2 categories
Understanding the GHS Labels
• Labels– Symbols (hazard pictograms) with red border
• Examples:
GHS Hazard Communication
Understanding the GHS Labels
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GHS Pictograms and Hazard Classes
• Oxidizers
• Flammables • Self-reactives • Pyrophorics • Self-heating • Emits flammable gas • Organic peroxides
• Explosives (1.1-1.4) • Self-reactives • Organic peroxides
• Acute toxicity (severe)
• Corrosive to metals • Skin corrosion • Serious eye damage
• Gases under pressure
• Carcinogenicity • Respiratory
sensitization • Toxic to reproduction • Specific target organ
toxicity (repeated) • Germ cell
mutagenicity • Aspiration hazard
• Aquatic toxicity (acute)
• Aquatic toxicity (chronic)
• Acute toxicity (harmful)
• Skin/eye irritation • Skin sensitization • Specific target organ
toxicity (single) • Hazardous to the
ozone layer
Understanding the GHS Labels
• These are the pictograms used in the GHS, with the hazard classes they are applied to.
• The first two rows were taken from the international transport system.
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Understanding the GHS Labels
• As a comparison, these are the transport pictograms.
• They have different colors and backgrounds that are used to convey other aspects of the hazard.
• They do not include words on labels or markings, so hazard is conveyed solely through the pictogram.
• The symbols appear in the upper portion of the frame.
Hazard statements
• Describe the hazards covered by the GHS• Indicate the degree of severity of the hazard• Text of the statements has been harmonized• Harmonized statements are assigned to each
hazard class and category, and have been codified (a numbering system has been applied to them for ease of reference)
Physical Hazards – H2XXHealth Hazards – H3XXEnvironmental Hazards – H4XX
– Example: H318 Causes serious eye damage.
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Understanding the GHS Labels
Other required information• Precautionary statements are required. The GHS
includes possible statements, but they have not yet been harmonized
• There are 5 types of statements: – General – P1XX– Prevention – P2XX– Response – P3XX– Storage – P4XX– Disposal – P5XX
• These have been assigned to hazard classes and categories, and codified (numbered).
– Example: P280 Wear eye protection/face protection.
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Understanding the GHS Labels
Precautionary pictograms• Some systems may choose to illustrate
precautionary information using pictograms. These are not harmonized in the GHS.
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Understanding the GHS Labels
Product and supplier identification
• Chemical identity required for substances• For mixtures either:
– All the ingredients contributing to the hazard of the mixture/alloy, or
– All the ingredients contributing to any health hazards presented by the product other than irritation and aspiration
• Supplier identification required on all labels, including name, address, and phone number
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Understanding the GHS Labels
This illustrates the elements of a GHS label.
The GHS does not specify a format for the label, but
does specify that the harmonized label
elements, also referred to as the core information,
needs to be located together on the label.
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Product Identifier
Identity of Hazardous Ingredients
Pictogram (Symbol in Red Frame)
Signal Word (Warning)
Hazard Statement(s) (Harmful if inhaled)
Precautionary Statement(s) (Use only outdoors or in a well-ventilated area)
Name and Address of Company
Phone Number
Understanding the GHS Labels
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ToxiFlam (Contains XYZ Hazardous
Ingredients)
Toxic if SwallowedHighly Flammable Liquid and
Vapour
IF SWALLOWED: Immediately call a Poison Control Center or physician.
Rinse mouth.
Do not eat, drink, or use tobacco when using this product. Wash hands thoroughly after handling. Wear protective gloves and eye/face
protection.
Keep container tightly closed. Keep away from heat/sparks/open flame. No
smoking. Ground containers and receiving equipment. Use explosion-
proof electrical equipment. Take precautionary measures against static
discharge. Use only non-sparking tools. Store in cool/well-ventilated place.
In case of fire, use water fog, dry
chemical, carbon dioxide or “alcohol” foam.
ToxiFlam Manufacturing Company Route 66, MyTown, TX 00000 1 555 666 8888
Understanding the GHS Labels
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Secondary Containers
Labs often pour chemicals into smaller containers for daily use – these are referred to as secondary containers
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GHS vs NFPA Warning Labels
We will still be utilizing the NFPA labels across campus.
There are however some conflicts between the GHS and NFPA labeling systems.
Namely the hazard ratings are in reverse order.
GHS hazard ratings; however, will only appear on the SDS and not on the label.
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The NFPA label is divided into four quadrants. Each quadrant describes a specific hazard:
Blue = healthRed = flammability Yellow = reactivityWhite = special hazards
NFPA Warning Labels
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Numbers in the three colored quadrants indicate the degree of hazard, from 0-4:
0=Minimal Hazard 1=Slight Hazard
2=Moderate Hazard3=Serious Hazard4=Severe Hazard
NFPA Warning Labels
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The specific hazard in the white is abbreviated. Some of the common abbreviations are: A. OXY=Oxidizer B. ACID=Acid C. ALK=Alkali D. COR=Corrosive E. W=use no water F. The radiation symbol G. Biohazard
NFPA Warning Labels
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• 16 sections specified in a given order of information
• Information in the beginning sections have a broad audience
• More detailed, technical information included in following sections
Safety Data Sheets
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GHS calls for a reworking of the Material Safety Data Sheets (now just Safety Data Sheets)
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Safety Data Sheets
• Comprehensive sources of information about substances and mixtures
• Provides information about the hazards, but also information to establish risk management programs
• Audiences for the 16 sections vary, but include workers, safety engineers, physicians, and other professionals providing protection to exposed people
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Safety Data Sheets
Safety Data Sheets
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These 2 sections together contain all of the same information that you will find on the label including:
• Product Identification• Signal Word• Pictograms of hazards• Hazard statements• Precautionary statements• Supplier Information
Safety Data Sheets
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This lists the constituents that make-up the product.
Safety Data Sheets
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If someone breathes in a chemical:• Remove the person to fresh air• Stay with them until you are sure they are ok• If symptoms persist, call 911 or campus police • Report the incident to your supervisor
If someone ingests a chemical:• Remove the person from the area• Call 911 or campus police• Have someone locate the SDS for instructions• Report the incident to your supervisor
If someone gets a chemical on their skin/eyes:• Immediately flush for 15 minutes with cold water at an eye wash
station or shower as appropriate• Always remove contacts immediately after contamination• Seek medical attention if symptoms develop (rash or hives are typical
symptoms)• Call 911 or campus police• Seek medical treatment• Report the incident to your supervisor
Safety Data Sheets
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In the event of a fire• Be sure fire alarm has been activated• Turn off utilities• Exit by published evacuation route• Use fire extinguisher if fire is small
This section will also list decomposition products.
lists suitable extinguishing techniques, equipment; chemical hazards from fire
Accidental Release Measures
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Determine if the spill is
Incidental Spill or
Emergency Response Spill
Incidental Spill
A spill you can handle on your own (or with the help of a
coworker)
Accidental Release Measures
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Incidental SpillHow do you know if you can handle the spill? Ask yourself if you:
Have the right kind of spill cleanup materials.
Have the proper gloves, goggles and other protective equipment (i.e.: apron, face shield).
Have no exposure risk because it is a low toxicity chemical.
Have no one with a chemical exposure or injury.
Have experience or training in cleaning up this type of spill.
Have a spill that will not go down the drain.
Have spilled less than a gallon, minimizing the fire and exposure risks.
Accidental Release Measures
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Incidental Spill CleanupHow do you clean up an Incidental Spill? Follow the 4W Procedure:
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WrapWear WipeWarn
An Incidental spill becomes an Emergency Response spill if you:
• Do not have the proper spill cleanup materials. • Do not know how to safely clean it up.• Do not have your PPE (gloves, goggles, lab coat) to clean it up. • Have to clean up more than a gallon of a toxic or volatile liquid.
If any of these factors come into play and you cannot safely clean up your spill, and you should implement the Emergency Response spill procedure, described on the next page.
Accidental Release Measures
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Emergency Spill ResponseIf you have a chemical spill that is too large to handle on your own, or one in which you do not have the proper cleanup equipment or PPE, it is an Emergency Response spill and you should follow these 4 steps:
1. Warn others and evacuate the area. If there is a fire, pull the fire alarm. 2. Secure the area: close the door, use caution tape, a sign, or post an
employee (at a safe distance) to warn others not to enter.* 3. Report the spill from a safe location. (Call the UCCS Police at 911 or x3111.
Give your name, call back phone number, building name, location of release, and the name and quantity of the chemical released.
4. Wait for the emergency responders from Environmental Health and Safety to provide them spill details.
*ImportantIf there is a fire or large-scale release of toxic or flammable gases, pull the fire alarm and evacuate all building occupants. Give verbal instructions to those in the immediate area to ensure they do not evacuate through the affected area of the chemical release.
Accidental Release Measures
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Types of Emergencies
• General accidents/near misses
Accident Report Form in labs
To be filled out by instructor
Even minor accidents need form
Any time a person is exposed and/or there is a significant quantity of hazardous materials involved – the report should be forwarded to EHS
Emergency Preparedness
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Safety Data Sheets
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7. Storage and Handlinglists precautions for safe handling and storage, including incompatibilities
When different types of materials mix, anything can happen! Here are some important segregation rules:
Safety Data Sheets
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• Hand Protection – gloves – pick the right one for the job and the chemicals or hazards in question
• Eye Protection – goggles – glasses – face shield – use the right one for the job
• Hearing Protection – ear plugs – muffs• Foot Protection – closed toe, closed heel, non-skid• Body Protection – pants, shirts, leggings, etc.
• Hand Protection – gloves – pick the right one for the job and the chemicals in questions
Chemical Handling
Laboratory Safety Manual Appendix H – Glove Selection
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Latex (natural rubber)
Neoprene
Nitrile
PVC
PVA
ButylViton
Cryogenic
Plastic Film
Insulated
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GogglesGlassesFace Shield
use the right one for the job
Chemical Handling
Safety Data Sheets
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lists the chemical’s characteristics.
lists chemical stability and possibility of hazardous reactions.
includes routes of exposure; related symptoms, acute and chronic effects; numerical measures of toxicity.
The pathway of a hazardous substance into the body is known as its exposure route. Exposure routes include:
• inhalation,• absorption (contact with skin or eyes),• injection (needle or sharps punctures), • ingestion
Exposure can cause Acute (immediate) or chronic (long-term)
effects to one or more body systems
Safety Data Sheets
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lists effects this chemical can have if released into the environment
Generally very vague. All disposal should be coordinated with EHS.
DOT required labeling, etc.
Identifies regulations to which this chemical may be subject
Other pertinent information. Date of the SDS.
Generic Protocols for handling chemicals
• Wear proper PPE• No eating, drinking, smoking in lab• No mouth pipetting• Confine long hair & loose clothing• Wear appropriate clothing (lab coat,
no shorts or sandals)• No bare arms, legs or midsections• No working alone in labs• Wash hands before leaving the lab• Use a fume hood when necessary
Chemical Handling
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General Protocols - continuedKnow Location of:
• Fire Alarm Pull Station, • Eyewashes/ Showers,• Fire Extinguishers,• Exits,• MSDSs,• Spill Equipment
Chemical Handling
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Storage – the basics
• No food in refrigerators!• Flammable storage cabinets• Gas cylinders secured• Segregate incompatibles• Highly reactive or toxic chemicals
Chemical Handling
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Storage – segregation
• Reactives must be segregated from Ignitables• Acids must be segregated from Caustics• Corrosives should be segregated from Flammables• Oxidizers should be segregated from EVERYTHING• Cyanides from Acids• Many Corrosives are “Water Reactive”• Most Organic Reactives must be segregated from
Inorganic Reactives (metals)
Chemical Handling
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Suspicious Containers• Don’t open suspicious looking, crusty or
bulging containers
Chemical Handling
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Special HazardsYou need to be especially vigilant with chemicals that form
explosive or reactive compounds. Examples:
Chemical Handling
• Any ethyl ether• Isopropyl ether
• Ether• Grignard reagent
• Dry, solid picric acid
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Special HazardsExpired chemicals that form reactive
compounds must be disposed of immediately; they could potentially be a time bomb!
Chemical Handling
On the EHS website is a list of peroxide forming compounds and includes storage guidelines
and a method to test for peroxides.
• Container labeling and Safety Data Sheets have been put in place to provide the best information possible to the individuals who handle hazardous material.
• Use this information to protect you and your fellow workers
Conclusion
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We have been discussing: information sources for the hazardous materials you work
with general practices for safely working with hazardous
materials; personal protective equipment to utilize with hazardous
materials; and, how to handle a hazardous materials emergency
NOW
We need to discuss how YOU can help to keep other people and the environment safe from the hazardous materials once you are done with them.
Waste Management
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Module 3: Waste Management
After completing this module you will be able to:
1. Identify who is responsible for managing chemical waste.
2. Determine if a chemical is a “regulated” hazardous waste.
3. Identify hazardous waste types by using the CRIT (Corrosive, Reactive, Ignitable, Toxic) waste characteristics.
4. Explain proper management of various waste types, including listed waste (U, P, and F listed); universal waste (batteries, lights, computers); research chemical waste (drugs, medicine, etc.); reagent containers, and scrap glass.
Objectives
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History
Resource Conservation and Recovery Act (RCRA) – originally passed in 1976
– 40 CFR 260-268
• Deals with waste management• Requires cradle to grave responsibility
Proper chemical/materials waste management protects our environment and helps make our planet a healthier place to live.
The Environmental Protection Agency (EPA) has adopted a "Cradle to Grave" approach that is defined in the Resource Conservation and Recovery Act (RCRA). Accountability for chemical waste stays with the generator, which means that the waste generator is liable for any damage resulting from mismanagement of their waste, even after the waste has been shipped from the University.
That is why it is so important to properly manage hazardous chemical waste on campus
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At this point you may be asking yourself, "Am I a hazardous chemical waste generator? Am I personally responsible for following these regulations?"
To see if you qualify as a hazardous waste generator, ask yourself two questions:
Waste Management
Do I use or dispose of any chemicals?Do I manage people that dispose of, or could dispose of chemicals?
If the answer to either of these is "yes," you are a hazardous waste generator and are responsible for managing your waste in accordance with institutional guidelines and state and federal regulations.
Note that these regulations also apply to any product, drug, equipment, or instrument that contains a hazardous chemical, not just laboratory reagents.
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RCRA hazardous waste regulations apply to: Spent chemicals that were "used" for their intended purpose Unused chemicals that have expired Chemicals that are no longer useable such as those that have
become unstable and cannot be used safely Unneeded surplus Waste drugs, products, and equipment that contain hazardous
chemicals The RCRA rules do not apply to unused chemicals that are being
stored for legitimate uses. However, you may not store materials indefinitely with no legitimate use intended. In other words, you may not speculatively accumulate chemicals.
If you know your materials are waste, the next step is to determine the type of waste you have, which brings us to the CRIT waste criteria.
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In this module we will be discussing not only RCRA hazardous waste but all waste streams generated in the labs:
The type of wastes covered in this module that you are likely to encounter are:
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Chemical Corrosive Reactive Ignitable Toxic Listed
Universal Batteries Fluorescent bulbs Electronics and parts Aerosol cans
Additional Visualizing dyes DEA controlled drugs Some pharmaceuticals Bio-hazardous waste
What type of hazardous waste is it?
Characteristic wasteCorrosive
Reactive
Ignitable
Toxic
F-Listed
P-Listed
U-Listed
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Remember:Unwanted or broken equipment that contains hazardous chemicals or materials (such as lead, mercury, or acid) is also considered a hazardous waste.
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Tip:Have you inspected the warning labels on your materials? A corrosive warning is a clue that the waste from this material may be regulated when the material becomes spent or expired.
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We have discussed “characteristic” wastes but another way a chemical can become a regulated waste is if it is
on a specific regulatory list. The EPA has developed several lists of regulated hazardous wastes. If your waste
type is found on any of these lists the waste must be collected for proper disposal.
F-listed
P-listed
U-listed
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Take a few minutes to look at the lists below. Do you see any chemicals that you commonly work with?
F-listed wastes
F001: The following spent halogenated solvents used in degreasing (tetrachloroethylene, trichloroethylene, methylene chloride, trichloroethane, carbon tetrachloride, chlorinated fluorocarbons) and any mixture containing before use a total of 10% or more of any of the above solvents.
F002: The following spent halogenated solvents (including all solvents listed above) plus chlorobenzene, trichlorofluoromethane and any mixture containing before use a total of 10% or more of any of the above solvents.
F003: The following spent non-halogenated solvents: xylene, acetone, ethyl acetate, ethyl benzene, ethyl ether, MIK, n-butyl alcohol, cyclohexanone, methanol any mixture containing before use a total of 10% or more of any of the above solvents.
F005: The following spent non-halogenated solvents: toluene, MEK, carbon disulfide, isobutanol, pyridine, benzene, 2-ethoxy ethanol, 2-nitropropane and any mixture containing before use a total of 10% or more of any of the above solvents.
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• The P-list and the U-list (unused chemical products): These lists include specific commercial chemical products that have not been used, but that will be (or have been) discarded. Industrial chemicals, pesticides, and pharmaceuticals are examples of commercial chemical products that appear on these lists and become hazardous waste when discarded. The P- and U-lists appear in the hazardous waste regulations in 40 CFR §261.33 .
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Universal Wastes
Universal wastes are regulated hazardous wastes that we might not recognize as "chemical" waste. Examples include:• batteries, (recycle buckets around campus)• fluorescent lights including CFL, (Facilities collects these)• electronic circuit boards, (Facilities collects these)• surplus computers, (Facilities collects these)• aerosol cans, and (contact EHS for guidance)• switches and devices containing mercury. (contact EHS for guidance)
Other equipment may also contain hazardous materials, including lasers and carbon containing products.
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These items CANNOT be thrown in the regular trash
Other Chemicals
Many of our research chemicals are not regulated as hazardous waste, but still must be collected for proper disposal. Examples of these chemicals are: visualizing dyes (ethidium bromide), Drug Enforcement Administration (DEA) controlled substances, expired pharmaceuticals, copper sulfate, and dimethyl sulfoxide.
As a general rule, all research chemicals must be properly collected and disposed of through Environmental Health and Safety.
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Managing Empty Chemical Reagent Containers
Empty Non-Hazardous Chemical Reagent Containers
Non-hazardous chemical reagents are not corrosive, reactive, ignitable or toxic. Non-hazardous chemicals include agar, sucrose, most cell culture media, sodium chloride, calcium chloride, sodium phosphate and other commonly used chemicals of low toxicity.
Dispose of empty non-hazardous reagent bottles/containers through Environmental Health and Safety (for re-use or recycling) or into a recycle dumpster. Be sure to mark the container as “EMPTY”. Your empty non-hazardous chemical reagent containers cannot have more than 3% residue remaining, even if it is only water.
If you have any partially full reagent containers holding non-hazardous or hazardous chemicals, dispose of these only through Environmental Health and Safety.
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Managing Empty Chemical Reagent Containers
Empty Hazardous Chemical Reagent Containers
You can save for re-use or recycle empty chemical reagent containers. Before re-use or recycle – clearly mark over or remove the previous labels.
Empty chemical reagent containers can be recycled, even if they previously held a hazardous substance, as long as the previous substance was not a P-listed waste. Containers that held any P-listed chemicals must be triple-rinsed with a chemically compatible solvent before they are considered empty and can be recycled.
Water soluble P-listed wastes can be rinsed with water Water insoluble P-listed wastes should be rinsed with an organic solvent Collect all P-listed rinse solution the way you would collect any P-listed chemical
and store for disposal through EHS
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Managing Scrap Glass
Scrap glass such as beakers, jars, flasks, un-used test tubes, large glass serological pipettes, light bulbs, and empty non-hazardous reagent bottles.
Do not discard scrap glass in the regular trash because it may injure the custodial staff. Instead, place glass in a strong cardboard box, tape the lid shut and mark it "Scrap Glass." The custodial staff will pick the box up for disposal in a trash compactor.
Many wastes are prohibited from the regular trash, therefore they cannot be discarded into a scrap glass box either.
Collect "sharps" such as syringes, razor blades, scalpels, and Pasteur pipettes in a rigid plastic Sharps container. Do not discard these wastes in a scrap glass box.
Sharps containers must be disposed of in the appropriate bio-medical waste container.
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• What can go down the drain?Process waste (non-hazardous, select rinsates
with EHS approval)
• What can be tossed in the trash?Paper towels, some filter paper, etc.
• What needs to be recycled?Batteries, empty aerosol cans, fluorescent light
tubes, empty (triple rinsed) chemical bottles
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What cannot be disposed of in the trash?
Biohazard bags not autoclaved
Broken glass
Chemicals
Mercury thermometer
Spill clean-up debris
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Collection of Hazardous Waste
Now that you know how to identify hazardous chemical wastes, let us learn about container
management rules and disposal practices.
It is very important to segregate incompatible chemical wastes into separate waste containers. Improper practices may cause fires, explosions,
toxic fumes, and regulatory penalties
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Satellite Accumulation Area (SAA)
A Satellite Accumulation Area (SAA) is defined as any laboratory or room where chemical wastes are
initially generated or where chemical waste containers are stored at or near the point of
generation.
At UCCS we manage our waste containers in SAAs.
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There are limits to how much hazardous waste you can store in any SAA
The maximum volumes that are permitted in any storage area are:• 10 gallons (37 liters) of hazardous waste per SAA• 1 quart (946 milliliters) of an acutely toxic waste (P-listed waste)• 2 gallons (3.8 liters) of flammable waste outside a flammable-rated
storage cabinet
Do no exceed any of the above limits at any time. Be sure to schedule your hazardous waste pickup before you approach these limits.
You man not store chemicals “speculatively” – this is storing them “in case”, there is a need in the future. Regulatory agencies can fine laboratories for speculative storage
Note: up to 55 gallons of waste (except P-listed wastes) are technically permitted in a SAA. However, EHS recommends limiting watete in a SAA to 10 gallons. The 10 gallon SAA limit is compliant with fire codes and reduces the potential for large spills or exposures.
Waste ManagementStorage Limits
Inspections of SAA
Weekly Inspections
Chemical waste containers are more likely to develop leaks than unused chemical reagent
containers. Chemical waste containers must be inspected weekly for leaks.
Inspect your chemical waste containers weekly by using the Hazardous Chemical Waste
Container Weekly Inspection Log and immediately resolve problems.
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Inspections of SAAInspection items: waste containers are in good condition with no leakage; waste container is closed with a proper lid; chemical waste labels attached and filled out properly; no incompatible wastes stored together; no excessive accumulating (limit 1 quart (946 milliliters) of P-coded
waste); Inspection results must be documented weekly on the log provided; save inspection logs for 3 years; if you will be gone for longer than a week, you are required to either
request a chemical waste pick-up for all waste chemicals in your storage area, or find another trained staff member to conduct the inspections in your absence
Tip:If you do not have any hazardous chemical waste containers in your laboratory, you should immediately write a comment on the Satellite
Accumulation Area Inspection Log that no waste containers are in the laboratory, such as “no containers, July 1, 2010 – July 13, 2010."
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Collection of Hazardous Waste
To manage your experiments' chemical wastes, follow this five-step procedure:
1. Collect the waste in an empty chemical reagent bottle which is chemically compatible and has no cracks, dents, or rust. Waste containers should be provided with secondary containment;
2. Seal the container with its original lid. Do not use corks, rubber stoppers, or Parafilm. Keep containers closed at all times except when adding or removing wastes;
3. Complete a Hazardous Waste Label and place it over the existing reagent label as soon as the first drop of waste is added to the container;
4. Keep the chemical waste container within eyesight at all times, otherwise you must place the container inside a locked room or a locked storage cabinet, and
5. Inspect the waste container weekly for leaks, and document your inspection in your SAA log.
Now that you have seen what you should do to control chemical waste, let us look at what you should not do.
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Collection of Hazardous Waste
The Five Don'tsIt is difficult to remember all the different waste management rules. There are five simple rules, however, that identify the most important waste management practices.
Don’t:
1. Discard hazardous chemicals down sink or floor drains.2. Discard hazardous chemicals in the household trash.3. Evaporate organic solvents inside a chemical fume hood (it is illegal!).4. Vent toxic or flammable compressed gases inside a chemical fume hood
(also illegal).5. Treat or destroy hazardous chemicals in your laboratory without prior
approval from EHS. These five rules should guide your day-to-day laboratory practices, and everyone who works in your lab should know them.
Before you pour anything down a drain, please check with EHS.
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Collection of Hazardous Waste
Within your designated SAA, there are rules for managing chemical wastes that relate to the following issues:
Containers Quantity accumulation limit
Segregation Adequate aisle space (space between containers)
Security Labeling
Weekly inspections Disposal
Let us look at these rules in more detail.
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Container Selection and Storage
Chemical wastes are collected inside empty chemical reagent bottles or other chemically compatible containers. Follow these rules when selecting an empty chemical reagent bottle to collect chemical waste:
Select an empty container in good condition (no cracks, rust, dents or holes).
Check the container's lid to make sure it fits properly and it is the proper type (no corks, rubber stoppers, or paraffin).
Rinse empty containers thoroughly before adding an incompatible waste to it.
Collect waste in chemically compatible containers (no acids in metal containers).
Keep containers closed at all times except when adding or removing wastes.
Ensure that the container has the proper UCD chemical waste label as soon as the first drop of waste is added to the container.
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Segregation
When different types of waste mix, anything can happen! Here are some important segregation rules:
Do not store oxidizers with flammable liquids.
Do not store acids with bases.
Do not store water-reactive chemicals (sodium hydride) next to aqueous materials or corrosives.
Do not mix hazardous chemicals with infectious agents or radioactive isotopes waste without the approval of the EHS Department.
Store incompatible chemical waste containers inside separate storage cabinets. Otherwise, place incompatible containers which are stored together into plastic pails for secondary containment (large enough to hold entire contents of container).
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Segregation
Note: Halogenated solvents cost 2.5 times more to dispose of than non-
halogenated solvents because halogens form acidic gases when incinerated. Researchers are asked to keep halogenated solvents segregated from other solvents in the laboratory.
Some chemicals can be combined. See the next slide for
guidelines regarding combining chemical wastes. Flammables and oxidizers cannot be stored together. Oxidizers must be stored in secondary containment when stored
with other lab chemicals.
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The following guidelines need to be followed when collecting chemical wastes in a waste container in the laboratory:
1. Clean flammable solvents (alcohols, acetone, acetonitrile, xylene, etc.) may be collected together inside the same waste container.
2. Acids must be collected separately.3. Bases or caustics must be collected separately.4. Halogenated solvents (chloroform, methylene chloride, carbon
tetrachloride) must be collected separately.5. Heavy metals (arsenic, barium, cadmium, chromium, lead, mercury,
selenium, silver) must be collected separately. Do not mix heavy metal wastes with organic solvents.
6. Toxic liquids (phenol, acrylamide, formaldehyde) must be collected separately.
7. Solid chemical wastes are collected separately from liquid chemical wastes.
8. Solid debris that is contaminated with highly toxic or carcinogenic chemicals must be collected separately.
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Space Rules
To facilitate spill cleanup, always maintain at least 3 feet (91 centimeters) of aisle space to reach the chemical waste containers in your laboratory.
Do not store laboratory supplies, carts, or equipment in front of your chemical waste containers.
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Security Rules
You are responsible for the waste you generate, even if someone else handles it.
Chemical waste containers must always be under your control. The waste container must be under visual observation at all times. If no one is present, waste must be under lock and key. This ensures that incompatible wastes are not commingled into your waste container by untrained or new employees.
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Labeling Chemical Waste Containers
Each chemical waste container must be labeled with a chemical waste disposal label as soon as the first drop of waste has been added to the container.
When labeling an empty chemical reagent container for waste storage, ensure the following:
Eliminate existing information on the reagent container. Attach the waste label securely (over existing reagent label). Estimate chemical concentrations based on volume; Write the percentage of water in the waste; No abbreviations - spell chemical name completely. Complete all sections of the label carefully except leave the date blank
until the container is full and ready for pick-up by EHS
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Collection of Hazardous Waste
• Be sure to collect in compatible container with lid – use secondary containment
• Affix proper label • Biology and Chemistry check with your lab
manager regarding accumulation• Others can request waste pick-up when a
container is full or you are no longer going to be adding to it – use the form on the EHS website
• Campus pick-up occurs 2x per year
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Disposal Guidelines
When you approach the quantity limits of chemical waste or you are finished generating waste, it is time to prepare it for disposal.
• Fill out the UCCS Hazardous Waste Removal Request.
Waste Management
Tip: You may access this form on the EHS website
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Sink Disposal Prohibited
Generally, the disposal of chemical waste down a drain is prohibited. However, there are some exceptions. Please contact EHS before drain
disposing any chemicals.
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Common Concerns
During routine waste management audits, frequently observed compliance concerns are:
Lack of on-the-job and refresher training. Waste container missing chemical waste label. Open chemical waste container (lid missing). Open waste container with funnel sitting inside it. Use of improper lid (cork, Parafilm, rubber stopper) to seal chemical
waste container. Waste containers not inspected weekly for leaks (SAA form not
completed).
Waste Management
Note: Researchers are not allowed to treat or destroy hazardous chemical wastes in the laboratory without permission from Environmental Health and Safety.
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Hazards
Up to this point we have discussed hazardous materials management and waste management. Besides hazardous materials/waste there are a number of other types of hazards present in the laboratories. We will now take a few minutes to quickly review the management practices associated with some of these other hazards.
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Module 4: Other Hazards
Types of Hazards• Mechanical• High Energy• Lasers• Magnetic Field
Generators
Physical Hazards
• Compressed Gases
• Power Tools• Noise
You need to review the lab operations with your Principal Investigator (PI) to determine which of these hazards may be present in your lab. Once you identify the hazards – you then need to review appropriate safety precautions for each hazard.
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Biological Hazards
Biological hazards are substances or agents (e.g., viruses, bacteria, spores, fungi, bloodborne pathogens, prions, or toxins from a biological source) that pose a threat to the health of living organisms. Biological hazards can include human bodily fluids and tissues.
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Biological SafetyInfectious Hazards
Approval from Institutional Biosafety Committee (IBC)
Use of Lysol/Bleach to disinfect
Use of biological cabinet
Use of autoclave to sterilize
Use of PPE
Dissections
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Bloodborne Pathogens
• Take on-line training at the EHS website
• BBP Exposure Control Plan• Wear proper PPE when
exposure to bodily fluids is likely
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Bloodborne Pathogens
• Proper handling and disposal of sharps
• Hepatitis vaccine
• Disinfection and clean up
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Biological Safety
Varying degrees of risk are associated with exposure or infection. For infectious agents, these risks are categorized by "risk groups" (RG) based on the potential effect on a healthy adult human, taking many factors into account, such as pathogenicity, mode of transportation, and the availability of effective treatments or preventive measures.
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Biological Safety
Risk Group Description Example Organism
Risk Group 1
Agents that are not associated with disease in healthy adult humans.
B. subtilis, S. cerevisiae (Baker's yeast)
Risk Group 2
Agents that are associated with human disease which is rarely serious and for which preventive or therapeutic interventions are often available.
S. aureus, G. lamblia, Adenovirus
Risk Group 3
Agents that are associated with serious or lethal human disease for which preventive or therapeutic interventions may be available (high individual risk but low community risk).
B. pseudomallei, Hantaviruses
Risk Group 4
Agents that are likely to cause serious or lethal human disease for which preventive or therapeutic interventions are not usually available (high individual risk and high community risk).
Herpes B Virus, Ebola, Marburg
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• Obtain training from Health/Physics in Boulder: http://www.colorado.edu/EHandS/hpl/ssinfo.html
• ALARA: As Low As Reasonably Achievable
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Cryogenic HazardsCryogenic liquids are extremely cold, with a normal boiling point below -130° C (-90° F). Substances commonly stored and transported at cryogenic temperatures include argon, helium, hydrogen, nitrogen and oxygen.
Cryogenic liquids present several hazards, including:
Laboratory Hazards
Extreme Cold HazardAsphyxiation HazardToxic HazardsOxygen-Enriched AirExplosion due to rapid expansion
Due to the high risk of asphyxiation, you should never attempt to clean up a large cryogenic liquid spill, particularly in a closed indoor area. If there is a spill of cryogenic liquids in your lab, evacuate and close off the area, and call 911 or x3111 for assistance.
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Compressed Gas CylindersAll compressed gases are considered hazardous because of the high pressure of the container; a rapid pressure change can create a hazard. For example, if a gas cylinder falls and the valve is damaged, the immediate release of pressure can force the cylinder to move, sometimes with enough force to go through walls.
Laboratory Hazards
Gases can be: asphyxiants by displacing oxygen, corrosive, highly toxic, flammable, oxidizing or highly reactive.
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Energy
Many forms of energy exist in lab settings and can present a hazard, even seemingly innocuous forms of
energy such as light. Always be on the lookout for stored energy such as spring loaded systems
(including syringes), hydraulic devices, capacitors, and battery operated systems.
Laboratory Hazards
• Primary responsibility for safety in the lab lies with every individual
• PI’s and lab instructors are responsible for enforcing guidelines in the labs
• Safety should become an integral part of our daily activities
Conclusion
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114
Live Green
During this training you should have learned:• General Safety Procedures• What are the hazards – how do I protect
myself• What do I do if an accident occurs• How do I dispose of the wastes I generate
Summary
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Live Green
The information presented here is intended to help you to protect your health.
We want you to be safe & healthy.
If you have questions, contactEnvironmental Health & Safety
255-3201 or 255-3212
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Live Green
You are now ready to take the quiz.You must successfully pass the quiz with a score
of 80% or higher.
It is recommended that you go through the review questions found on the website before
taking the quiz.
Be sure to review any areas that you do not fully understand or remember.
Summary
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