1 / 20

Hydrofluoric Acid

Hydrofluoric Acid. Brown University Environmental Health & Safety. Outline. Introduction to Hydrofluoric Acid (HF) Uses Properties Health Hazards Good Work Practices HF Storage and Compatibility Equipment Personal Protective Equipment (PPE) Spills/First Aid. Introduction.

waite
Télécharger la présentation

Hydrofluoric Acid

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Hydrofluoric Acid Brown University Environmental Health & Safety

  2. Outline • Introduction to Hydrofluoric Acid (HF) • Uses • Properties • Health Hazards • Good Work Practices • HF Storage and Compatibility • Equipment • Personal Protective Equipment (PPE) • Spills/First Aid

  3. Introduction • Hydrofluoric acid is a strong, inorganic acid with special chemical properties that make it particularly hazardous to laboratory researchers. • Highly corrosive • Very reactive • Incompatible with many materials • Exposure to HF can result in burns and even death

  4. Introduction • Synthesis of HF CaF2 + H2SO4 2HF + CaSO4 (Fluorospar) (Gypsum) • HF is then isolated by distillation. 250 °C

  5. Fluorocarbon Production Aluminum Production Refinery Alkylation Glass Etching Purification of Quartz Purification of Uranium Rare Metal Processing Drug & Dye Production Semiconductor Etching Laboratory Experimentation Mineral Identification Fertilizer Production Tanning Leather Metal Cleaning Metal Pickling Insecticide Production Propellants & Solvents Fabric Rust Stain Removal Uses of HF

  6. Properties of HF • Clear, colorless, noncombustible, highly corrosive liquid • Highly reactive with the following • Glass • Ceramics • Concrete • Rubber • Metals • Although noncombustible, in reacting with metals can produce H2 which is extremely flammable

  7. Properties of HF

  8. Health Hazards There are two main concerns when it comes to exposure to hydrofluoric acid- • HF is extremely toxic when it enters the body. • HF is extremely corrosive to body tissues.

  9. Health HazardsCont. • Corrosivity • Greater than 50% HF • Immediate, severe, deep-seated, slow-healing burns • Deep tissue layer destruction • 20-50% HF • Onset of pain may take up to eight hours • 0-20% HF • Onset of pain may take up to 24 hours Hydrofluoric acid burns to finger tips Severe thigh burn after exposure to HF

  10. Health Hazards Cont. • Toxicity • The fluoride ions readily penetrate tissues and can rapidly reach toxic levels. • Fluoride ions bind calcium in body tissue. This can result in several conditions: • abnormal mineral storage/utilization • enzyme inhibition • blood clotting defects • metabolic pathway interruption • abnormal function • hypocalcemia

  11. Health Hazards Cont. • The extent of the exposure is a factor of the concentration, the duration and the surface area affected. • 10 mL of 70% HF is enough to bind all of the calcium ions in the bloodstream! • Any inhalation or ingestion is of a concern. So, how can you prevent an HF exposure?

  12. Good Work Practices • HF Storage and Compatibility • HF should always be stored in polyethylene or Teflon containers (this includes secondary containers and waste as well). • HF should be separated from alkalis, metals, oxidizers, cyanides, reducing materials and sulfides.

  13. Good Work Practices • Equipment Requirements • Always work with HF in a fume hood. • Know the location of the nearest eyewash and emergency shower.

  14. Good Work Practices • Equipment Requirements Cont. • Have calcium gluconate gel available in the event of an exposure (be sure to check the expiration date before use). • Be sure to wear the appropriate personal protective equipment (PPE).

  15. Good Work Practices • Appropriate PPE for HF Handling • Splash goggles • Heavy duty nitrile over disposable nitrile • Lab coat • Face shield (if pouring) • MSDS should be in work area.

  16. Spills • In the event of a spill, notify those in the area and leave immediately, closing the door behind you. • Call Public Safety at 863-4111 to notify them of a hydrofluoric acid spill. • Ensure the Public Safety understands that it is a hydrofluoric and not a hydrochloric acid spill. • Do not attempt to clean up the spill yourself, regardless of the amount.

  17. First Aid • In the event that you are exposed to HF, flush the affected area with water for five minutes. • Using a gloved hand, apply calcium gluconate gel to the exposed area. • Notify your supervisor and seek medical attention immediately. • Provide Emergency Medical Services and/or the doctor with the MSDS.

  18. First Aid • Within 48 hours after seeking medical attention, fill out the Laboratory Accident Report form and the Injury Report form. • Return or fax the Laboratory Accident Report form to EHS (863-7676). • Return or fax the Injury Report form to Insurance and Risk (863-1566). Both forms can be found at http://www.brown.edu/Administration/EHS/lab/index.htm

  19. Summary • Know the hazards of working with HF. • Take the proper precautions when working with HF. • Treat any exposure to HF very seriously. • Contact the Chemical Hygiene Officer (863-1737) or the Laboratory Safety Specialist (863-7697) with any additional questions.

More Related