Safe Handling of Mineral Acids

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Safe Handling of Mineral Acids

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11:19 min

April 30, 2023

Vue d'ensemble

Source: Robert M. Rioux & Taslima A. Zaman, Pennsylvania State University, University Park, PA

A mineral acid (or inorganic acid) is defined as a water-soluble acid derived from inorganic minerals by chemical reaction as opposed to organic acids (e.g. acetic acid, formic acid). Examples of mineral acids include:

Boric acid (CAS No.10043-35-3)
Chromic acid (CAS No.1333-82-0)
Hydrochloric acid (CAS No.7647-01-0)
Hydrofluoric acid (CAS No. 7664-39-3)
Nitric acid (CAS No. 7697-37-2)
Perchloric acid (CAS No. 7601-90-3)
Phosphoric acid (CAS No.7664-38-2)
Sulfuric acid (CAS No.7664-93-9)

Mineral acids are commonly found in research laboratories and their corrosive nature makes them a significant safety risk. Since they are important reagents in the research laboratory and often do not have substitutes, it is important that they are handled properly and with care. Some acids are even shock sensitive and under certain conditions may cause explosions (i.e., salts of perchloric acid).

Principles

Mineral acids are corrosive and, if acids are inhaled, they can be destructive to mucous membrane tissues and the upper respiratory tract, which would cause burning of the throat and nose, coughing, wheezing, shortness of breath, and pulmonary edema (water retention). Skin contact causes burns and eye contact may even cause blindness. Ingestion may cause permanent damage to the digestive tract, while contact with skin, eyes, respiratory tract, and digestive tract causes burns and irritation.

When diluting acids, add the acid to water slowly and in small amounts to avoid large amounts of heat release during mixing. Never use hot water or add water to acid. Large amounts of heat may be released, causing the solution to boil vigorously and splash acid out of the container. Wear appropriate PPE when mixing or diluting an acid.

This document provides general guidelines for the use and handling of mineral acids by hazard class only, and does not apply to the safe handling of hydrofluoric acid, where special directions approved by the principal investigator must be followed. Extra care must be taken when handling and using hydrofluoric acid because 1) it dissolves most materials including glass and ceramics, so it should be stored using polyethylene and 2) it is highly toxic, causing severe burns, where painful or visible symptoms may be delayed by 8 h or longer.

Nitric acid is a strong oxidizer that reacts with most metals, evolving either hydrogen gas or nitrogen oxides depending on the concentration and the metal. It does not dissolve gold or platinum. Sulfuric acid is water reactive, and concentrated sulfuric acid reacts violently with many organic chemicals leading to gas evolution. Hydrochloric acid reacts with nitric acid to form aqua regia, which causes brown fumes to evolve, which consist of toxic nitrogen oxides.

In some cases, multiple guidelines may apply for the use of a chemical (e.g. precautionary use of benzene as a flammable liquid and a carcinogen would apply). Refer to the safety data sheet (SDS) for the specific mineral acid before using it. If it is not possible to follow the guidelines mentioned in this document, the principal investigator must develop an alternative standard operating procedure that provides an equivalent level of safety. There may be cases when the level of safety will need to be even more rigorous.

Procédure

1. Engineering Controls

  1. Mineral acids should be handled in a chemical fume hood with the sash pulled down between the chest and what is being worked with in the hood. The height of the sash should be that which provides optimal safety while allowing one to execute tasks in an unencumbered manner.
  2. Concentration of 3 M (M = molar) or less may be handled on a bench top, remembering that they are still corrosive.
  3. Use secondary containers when possible.

2. Personal Protective Equipment (PPE)

  1. Chemical splash goggles and/or a face shield must be worn if working outside a fume hood, or if the sash is not pulled down to the properly height due to experimental setup reasons.
  2. When using hydrofluoric acid, use neoprene, or thick butyl rubber gloves. For other acids use double nitrile, neoprene, or PVC (vinyl) gloves. Replace gloves whenever a splash occurs.
  3. Personnel should wear lab coats of similarly appropriate laboratory attire with chemical resistance to the acid(s) being used. Lab coats or aprons composed of rubber, neoprene, or polyvinylchloride (PVC) are appropriate. Cotton- or polyester-based lab coats readily absorbs liquids and are not recommended.
  4. Protective clothing with long sleeves and full-length pants should be worn, along with closed-toed footwear.

3. Additional Precautions

  1. Reactions with metals generate hydrogen gas, which may be flammable and potentially explosive.
  2. Do not mix nitric acid with organics, which may cause an explosion or fire.
  3. Skin contact with hydrofluoric acid leads to chemical burns, severe tissue damage, and can even lead to bone dissolution if not treated immediately. In the case of hydrofluoric acid coming into contact with skin or tissue, flush contact area with tepid water for 5 min, apply calcium gluconate to counter the effects, and then seek medical attention. The onset of effect(s) from hydrofluoric acid can be delayed by as much as 8 h. It is especially important to seek medical attention for any HF burn because of these delayed effects. HF essentially dissolves your bone structure, therefore it should be handled with great care.

4. Storage

  1. Mineral acid containers should be stored in an approved corrosive (acid) cabinet. This cabinet should be clearly labeled as containing acids. Acid amounts of less than 1 L should be stored at any one time.
  2. Mineral acids are chemically incompatible with bases, oxidizing agents, organic materials, and combustibles, and should be stored separately. Proper storage practices are for separating acids from other acids stored within the same cabinet using secondary containment. The secondary container should be constructed of polyethylene, PYREX, or Nalgene.
  3. Strong mineral acids should not be stored in the same cabinet.
  4. Avoid storing acids on metal shelves, or use secondary containers made of plastic or in case of hydrofluoric acid, polyethylene.
  5. If mineral acids must be transferred to smaller working containers, make sure the container is compatible with the acid and labeled with all of the required information that is on the permanent or manufacturers' container labels. The permanent or manufacturers' container label must meet OSHA's Hazard Communication standard [29 CFR 1910.1200(f)(1)] by providing the following information:
    • Chemical identity and appropriate hazard warnings.
    • Hazard warnings must provide immediate recognition of the primary health and/or physical hazard(s) using pictograms, signal words, and precautionary statements. The hazard label must also be permanent, legible, and written in English.
    • The name, address, and telephone number of the chemical manufacturer, importer, or other responsible party.
  6. Acid inventories should only be as large as what can safely be stored in the laboratory.
  7. Always handle mineral acids in a properly functioning chemical fume hood. Ensure that the sash is working properly, exhaust management is appropriate, and recently verified. Additionally, practice good housekeeping in the hood prior to utilizing the mineral acid. Remove incompatible materials and ensure clutter in the hood is reduced or eliminated to a level that enables safe handling and manipulation.
  8. Containers should be kept upright and closed at all times, and stored in a dry, well-ventilated location, ideally in a corrosive (acid) cabinet. When opened, containers must be resealed to prevent spills.
  9. Store and handle away from ignition sources and avoid heat and shock or friction.

5. Emergency Procedures

  1. Exposures/Unintended Contact
    1. In case of skin contact, immediately remove contaminated clothing and rinse the affected body part thoroughly with water for at least 15 min.
    2. In case of acid exposure to the eyes, immediately rinse eyes with a significant quantity of water for a minimum of 15 min, and then promptly seek medical attention.
    3. In the case of large amounts of vapor inhalation, move the affected person to fresh air, then contact the appropriate medical personnel.
    4. In the case of ingestion, immediately seek medical attention.
  2. Spills
    1. In the case of a chemical spill, the sooner it is controlled, the less damage it can cause. As the spill is controlled, the spill should also be contained in an as small as possible area and prevented from spreading further.
    2. The spill must be cleaned immediately. Laboratories requiring the handling of mineral acids should have spill kits readily available.
    3. Decontamination or neutralization may be required, for which solid sodium bicarbonate or calcium carbonate is recommended. The spill may be covered with the acid neutralizer and then swept up with absorbent pads or a broom. If this is to be handled by a laboratory investigator, consultation as to the appropriate level of PPE is recommended. A standard operating procedure (SOP) should be developed to handle these kind of safety issues in the laboratory prior to any experimental work requiring mineral acid usage.
    4. In case of a large spill, evacuate the area immediately alerting others, and call 911. Make sure someone is near the scene to provide information to the responders. Have the product information and the safety data sheet (SDS) available.
    5. All spills, minor or large, must be reported to the proper regulatory agencies. Environmental Health and Safety (EHS) performs all regulatory notifications and verifies that the spill clean-up meets regulatory requirements and standards.

6. Waste Disposal

  1. Acid wastes should be kept separate from other waste materials and used with secondary containers.
  2. Check waste solutions periodically for gas evolution and avoid over-pressurized containers, which may violently erupt.
  3. Dispose of waste through your organization's chemical waste management system.
  4. If the waste solution does not contain any hazardous metals, elementary neutralization may be considered. The acid waste may be poured into a large quantity of ice (500 g of ice per 100 mL of acid) and neutralized with an aqueous basic solution, such as 1 M or 10% sodium hydroxide (NaOH) or saturated sodium bicarbonate (NaHCO3) in water until the pH is neutral. The neutralized solution may then be poured down the drain.
  5. If the waste solution contains any hazardous metals such as gold, platinum, lead, or chromium, the solution should be labeled and disposed of through the chemical waste management system.

Mineral acids derived from inorganic materials are widely used in research laboratories as well as in chemical industry. Due to their hazardous properties it is important to learn how to safely handle these chemicals.

Most mineral acids range from very strong acids such as hydrochloric-, sulfuric-, chromic- and nitric acid to strong acids such as phosphoric-, hydrofluoric-, and boric acids. These acids are very corrosive.

Additionally, mineral acids such as nitric acid and sulfuric acid are strong oxidizing agents and can react violently causing explosions.

This video will illustrate the hazardous nature of mineral acids, how to safely handle, dispose, and store these chemicals; and what to do in case of an emergency, like skin contact or spill.

In order to understand why safe handling of mineral acids is important and which safety precautions to follow, let us first take a closer look at the hazardous nature of mineral acids.

As mentioned earlier, mineral acids are corrosive and will cause irritation and damage to human tissue. If inhaled the acid will react with the mucus membrane of the respiratory tract resulting in coughing, burning of the throat, and possibly pulmonary edema. Ingestion can cause severe damage of the digestive tract, while skin contact can lead to burns and eye contact to blindness.

If we want to ensure safe handling of mineral acids we need to understand their reactivity and properties. Oxidizing acids such as nitric acid, or aqua regia, will react with metals and can release toxic or explosive gases, for example nitrogen dioxide or hydrogen.

In addition to being a strong oxidizer, sulfuric acid has also dehydrating properties and will react violently with organic compounds such as household sugar. The reaction is highly exothermic and yields in carbon, water, sulfur dioxide and carbon dioxide gas. The heat released during the reaction brings the water to boil, which could lead to burns.

Now that we know about the hazardous properties of mineral acids, let’s learn how to safely handle them so that we don’t cause any accidents.

While working with mineral acids, always wear proper personal protective equipment, or PPE, which includes safety goggles or a face shield. Furthermore, long sleeves and full-length pants should be worn along with closed-toed shoes.

Additionally wear a reusable or disposable apron or lab coat made of rubber, neoprene or PVC. Traditional cotton-polyester lab coats can readily absorb the mineral acids in case of a spill and are not recommended.

Always use double nitrile, neoprene, or PVC gloves when working with mineral acids. Remember to replace gloves whenever a splash occurs.

Mineral acids should be handled in a properly functioning chemical fume hood, which are cleared of clutter and incompatible materials. The fume hood sash should provide optimal safety while allowing execution of the task in an unencumbered manner.

Mineral acids with concentrations of 3 molar or less may be handled on a bench top. Remember, these acids are still corrosive.

When transferring acids from a big bottle to a beaker use secondary containers to hold the smaller container.

At this point you have learned how to protect yourself when working with mineral acids. Now let’s learn how to safely use, dispose and store these chemicals.

Many acids will react exothermically upon dilution with water. Never add water to the acid; always add small amounts of acid to the water. Otherwise the released heat could bring the solution to boil and splash acid out of the container.

Remember to never mix nitric acid with organic materials. Nitric acid is a strong oxidizer and can react violently with organic materials leading to explosions or fire.

Furthermore, always inform yourself about the safety hazards when working with mineral acids. The safety guidelines can be found in the safety data sheets provided by chemical vendors.

Every time you work with acids you need to ensure proper disposal of any waste. Any mineral acid waste should be kept separate from organic waste and disposed through the organization’s chemical waste management system. The waste container has to be labeled according to EH&S regulation including contact information, content, hazards as well as start- and end date.

Furthermore the waste container should be ideally equipped with a pressure regulating safety funnel or checked periodically for gas evolution. Avoid over-pressurized containers, which may violently erupt. Always store the waste container in a secondary container such as a plastic bin.

Alternatively, the acid waste could be disposed in the drain, but you have to make sure that the waste solution does not contain any metals. The acid waste has to be neutralized starting with the dilution using ice water.

Followed by the addition of an aqueous basic solution, such as 1 M sodium hydroxide or saturated sodium bicarbonate until the pH is neutral. The neutralized solution may then be poured down the drain.

Mineral acid containers should be stored together in an acid cabinet. This cabinet should be labeled as Inorganic Acids. Due to their corrosive nature mineral acids should preferably not be stored in a metal cabinet or shelf.

If possible, a secondary container made of plastic should be used, especially for nitric acids.

Furthermore mineral acids should not be stored together with bases, oxidizing agents, organic materials, and combustibles. All containers have to be stored upright in a dry and well-ventilated place away from heat or ignition sources.

Additionally, nitric acid, which is a strong oxidizer, should be stored separately in a chemically resistant secondary container made of polyethylene, PYREX, or Nalgene.

If a mineral acid has to be transferred into a smaller container, make sure the container is acid compatible and clearly displays a label matching the information of the manufacturer’s label.

By now you have learned how to safely work with mineral acids. However, it is important that you also familiarize yourself with crucial procedures in case of an emergency.

In case of skin contact, immediately remove contaminated clothing and rinse thoroughly with water for at least 15 min.

In case of eye exposure, immediately rinse eyes with copious amount of water for at least 15 min and then promptly seek medical attention.

In case of large amount of vapor inhalation, move person to fresh air and then seek medical attention. If mineral acid is ingested, immediately seek medical attention.

In case of a small chemical spill, clear the surrounding area immediately and try to control the spill from spreading further. Use a spill kit to clean up the spill, which is an absorbent material that can be swept up with a broom. Further decontamination and neutralization may be required using solid sodium bicarbonate or calcium carbonate.

In case of a large spill, evacuate the area immediately alerting others and call 911. Make sure someone is near the scene to provide information about the chemical spilled and the accident. Have the product information and the safety data sheet (SDS) available. All spills must be reported to the Environmental Health and Safety (EH&S) agency regulating requirements and standards.

Now you have learned how to handle most mineral acids and respond in case of an emergency, however, you have to be extra careful when handling hydrofluoric acid.

Hydrofluoric acid is not like most other mineral acids. It is not only highly corrosive, but also reacts with most materials, even glass and ceramics.

Furthermore hydrofluoric acid is very toxic and can penetrate skin. Once absorbed it reacts with calcium and magnesium ions in the body causing sever tissue damage and chemical burns. Therefore, in addition to normal PPE, special gloves made of neoprene, or thick butyl rubber, have to be worn.

In case of skin contact the area is flushed with water for at least 15 minutes, and then treated with calcium gluconate to bind fluoride ions. Seek immediate medical attention.

You’ve just watched JoVE’s video on safe handling of mineral acids. You should now understand the hazards of mineral acids, the appropriate safety precautions while using, disposing, and storing of these chemicals. In addition, you should also know what to do in case of an emergency like a skin contact or a spill. As always, thanks for watching.

Applications and Summary

The use of mineral acids in laboratories entails considerable health and safety risks, but with proper handling, the potential hazards may be mitigated. While a basic guideline is provided here, this document does not apply to the safe handling of hydrofluoric acid and special directions approved by the principal investigator must be followed. Hazards may vary by experiments or laboratories, which should be assessed carefully to reduce chances of laboratory accidents.

References

  1. University of Illinois at Urbana-Champaign Division of Research Safety: Mineral Acids at https://www.drs.illinois.edu/SafetyLibrary/MineralAcids#
  2. Central Washington University Laboratory Standard Operating Procedure for: Mineral Acids at https://www.cwu.edu/facility/sites/cts.cwu.edu.facility/files/documents/Mineral%20Acid%20SOP.pdf
  3. Eastern Washington University Standard Operating Procedure for Mineral Acids at https://access.ewu.edu/Documents/HRRR/ehs/Procedures/Mineral%20Acids.pdf
  4. Resource Conservation and Recovery Act (RCRA) Regulations at https://www.epa.gov/rcra/resource-conservation-and-recovery-act-rcra-regulations#haz
  5. Penn State EHS Chemical and Oil Spill/Release Clean-Up and Reporting Requirements at http://legacy.ehs.psu.edu/envprot/SpillReporting.pdf
  6. Occupational Health and Safety (OSHA) Hazard Communication (Standard-29 CFR 1910.1200(f)(1)] at https://www.osha.gov/Publications/laboratory/OSHAquickfacts-lab-safety-labeling-chemical-transfer.pdf
  7. The University of Iowa EHS Chemical Storage: Nine Compatible Storage Group System at https://ehs.research.uiowa.edu/chemical-storage-nine-compatible-storage-group-system
  8. The University of Maine Storage of Chemicals in Laboratories at http://chemistry.umeche.maine.edu/Safety/Storage.html

Transcription

Mineral acids derived from inorganic materials are widely used in research laboratories as well as in chemical industry. Due to their hazardous properties it is important to learn how to safely handle these chemicals.

Most mineral acids range from very strong acids such as hydrochloric-, sulfuric-, chromic- and nitric acid to strong acids such as phosphoric-, hydrofluoric-, and boric acids. These acids are very corrosive.

Additionally, mineral acids such as nitric acid and sulfuric acid are strong oxidizing agents and can react violently causing explosions.

This video will illustrate the hazardous nature of mineral acids, how to safely handle, dispose, and store these chemicals; and what to do in case of an emergency, like skin contact or spill.

In order to understand why safe handling of mineral acids is important and which safety precautions to follow, let us first take a closer look at the hazardous nature of mineral acids.

As mentioned earlier, mineral acids are corrosive and will cause irritation and damage to human tissue. If inhaled the acid will react with the mucus membrane of the respiratory tract resulting in coughing, burning of the throat, and possibly pulmonary edema. Ingestion can cause severe damage of the digestive tract, while skin contact can lead to burns and eye contact to blindness.

If we want to ensure safe handling of mineral acids we need to understand their reactivity and properties. Oxidizing acids such as nitric acid, or aqua regia, will react with metals and can release toxic or explosive gases, for example nitrogen dioxide or hydrogen.

In addition to being a strong oxidizer, sulfuric acid has also dehydrating properties and will react violently with organic compounds such as household sugar. The reaction is highly exothermic and yields in carbon, water, sulfur dioxide and carbon dioxide gas. The heat released during the reaction brings the water to boil, which could lead to burns.

Now that we know about the hazardous properties of mineral acids, let’s learn how to safely handle them so that we don’t cause any accidents.

While working with mineral acids, always wear proper personal protective equipment, or PPE, which includes safety goggles or a face shield. Furthermore, long sleeves and full-length pants should be worn along with closed-toed shoes.

Additionally wear a reusable or disposable apron or lab coat made of rubber, neoprene or PVC. Traditional cotton-polyester lab coats can readily absorb the mineral acids in case of a spill and are not recommended.

Always use double nitrile, neoprene, or PVC gloves when working with mineral acids. Remember to replace gloves whenever a splash occurs.

Mineral acids should be handled in a properly functioning chemical fume hood, which are cleared of clutter and incompatible materials. The fume hood sash should provide optimal safety while allowing execution of the task in an unencumbered manner.

Mineral acids with concentrations of 3 molar or less may be handled on a bench top. Remember, these acids are still corrosive.

When transferring acids from a big bottle to a beaker use secondary containers to hold the smaller container.

At this point you have learned how to protect yourself when working with mineral acids. Now let’s learn how to safely use, dispose and store these chemicals.

Many acids will react exothermically upon dilution with water. Never add water to the acid; always add small amounts of acid to the water. Otherwise the released heat could bring the solution to boil and splash acid out of the container.

Remember to never mix nitric acid with organic materials. Nitric acid is a strong oxidizer and can react violently with organic materials leading to explosions or fire.

Furthermore, always inform yourself about the safety hazards when working with mineral acids. The safety guidelines can be found in the safety data sheets provided by chemical vendors.

Every time you work with acids you need to ensure proper disposal of any waste. Any mineral acid waste should be kept separate from organic waste and disposed through the organization’s chemical waste management system. The waste container has to be labeled according to EH&S regulation including contact information, content, hazards as well as start- and end date.

Furthermore the waste container should be ideally equipped with a pressure regulating safety funnel or checked periodically for gas evolution. Avoid over-pressurized containers, which may violently erupt. Always store the waste container in a secondary container such as a plastic bin.

Alternatively, the acid waste could be disposed in the drain, but you have to make sure that the waste solution does not contain any metals. The acid waste has to be neutralized starting with the dilution using ice water.

Followed by the addition of an aqueous basic solution, such as 1 M sodium hydroxide or saturated sodium bicarbonate until the pH is neutral. The neutralized solution may then be poured down the drain.

Mineral acid containers should be stored together in an acid cabinet. This cabinet should be labeled as Inorganic Acids. Due to their corrosive nature mineral acids should preferably not be stored in a metal cabinet or shelf.

If possible, a secondary container made of plastic should be used, especially for nitric acids.

Furthermore mineral acids should not be stored together with bases, oxidizing agents, organic materials, and combustibles. All containers have to be stored upright in a dry and well-ventilated place away from heat or ignition sources.

Additionally, nitric acid, which is a strong oxidizer, should be stored separately in a chemically resistant secondary container made of polyethylene, PYREX, or Nalgene.

If a mineral acid has to be transferred into a smaller container, make sure the container is acid compatible and clearly displays a label matching the information of the manufacturer’s label.

By now you have learned how to safely work with mineral acids. However, it is important that you also familiarize yourself with crucial procedures in case of an emergency.

In case of skin contact, immediately remove contaminated clothing and rinse thoroughly with water for at least 15 min.

In case of eye exposure, immediately rinse eyes with copious amount of water for at least 15 min and then promptly seek medical attention.

In case of large amount of vapor inhalation, move person to fresh air and then seek medical attention. If mineral acid is ingested, immediately seek medical attention.

In case of a small chemical spill, clear the surrounding area immediately and try to control the spill from spreading further. Use a spill kit to clean up the spill, which is an absorbent material that can be swept up with a broom. Further decontamination and neutralization may be required using solid sodium bicarbonate or calcium carbonate.

In case of a large spill, evacuate the area immediately alerting others and call 911. Make sure someone is near the scene to provide information about the chemical spilled and the accident. Have the product information and the safety data sheet (SDS) available. All spills must be reported to the Environmental Health and Safety (EH&S) agency regulating requirements and standards.

Now you have learned how to handle most mineral acids and respond in case of an emergency, however, you have to be extra careful when handling hydrofluoric acid.

Hydrofluoric acid is not like most other mineral acids. It is not only highly corrosive, but also reacts with most materials, even glass and ceramics.

Furthermore hydrofluoric acid is very toxic and can penetrate skin. Once absorbed it reacts with calcium and magnesium ions in the body causing sever tissue damage and chemical burns. Therefore, in addition to normal PPE, special gloves made of neoprene, or thick butyl rubber, have to be worn.

In case of skin contact the area is flushed with water for at least 15 minutes, and then treated with calcium gluconate to bind fluoride ions. Seek immediate medical attention.

You’ve just watched JoVE’s video on safe handling of mineral acids. You should now understand the hazards of mineral acids, the appropriate safety precautions while using, disposing, and storing of these chemicals. In addition, you should also know what to do in case of an emergency like a skin contact or a spill. As always, thanks for watching.