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Other topics. Crime on campus https://local.nixle.com/alert/5038586/? sub_id=611536 JH 183, IEE/WERC (cameras on their way) May 2013 Safety Audit All 133 issues identified have now been resolved

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  1. Other topics • Crime on campus • https://local.nixle.com/alert/5038586/?sub_id=611536 • JH 183, IEE/WERC (cameras on their way) • May 2013 Safety Audit • All 133 issues identified have now been resolved • Meng Zhou responsible for correcting the majority of the issues - Level II Safety Sentinel award • Celebration of 1 year without lost work • Truly a CH E team accomplishment • Let’s plan to do it again next year when we reach 2x365=730 days!

  2. Hierarchy of Hazard Control NMSU Chemical Engineering July 2013 Safety Meeting

  3. Hierarchy of Hazard Control

  4. Where are controls used?

  5. Elimination • Elimination is the most effective means of hazard control. • It involves the physical removal of the hazard, for example, if employees are required to work high above the ground, the hazard can be eliminated by moving the piece they are working on to "ground level" to eliminate the need to work at heights.

  6. Substitution • Substitution is the second most effective way to control hazards • Involves removing something that produces a hazard (similar to elimination), and replacing with something that does not produce a hazard. • e.g., replacing lead based paint with acrylic paint. • To be an effective control, the new product must not produce another hazard. • e.g., because airborne dust can be hazardous, if a product can be purchased with a larger particle size, the smaller product may effectively be substituted with the larger product.

  7. Engineering controls • Engineering Control is the third most effective means of controlling hazards. • Engineering controls do not eliminate hazards, but rather keep people isolated from hazards. • Capital costs of engineering controls tend to be higher than those the less effective controls within the hierarchy, however they may reduce future costs • e.g., building a work platform rather than purchasing, replace, and maintaining fall arrest equipment. • "Enclosure & isolation" creates a physical barrier between a person and hazard, (e.g., remotely controlled equipment). • Fume hoods can be used to remove airborne contaminants as a means of engineering control

  8. Engineering Control examples • Process control • Enclosure or isolation of emission source • Ventilation

  9. Examples of Process Control • Use of wet methods rather than dry when drilling or grinding means that water is sprayed over a dusty surface to keep dust levels down or material is mixed with water to prevent dust from being created. • Use of a vacuum instead of dry sweeping (e.g. broom) to control dust and reduce inhalation hazard. • A household vacuum cleaner should not be employed to clean toxic material. Use a vacuum specifically designed for industrial workplaces and be sure to use appropriate (HEPA) filters, etc.

  10. Examples of Process Control • Use steam cleaning instead of solvent degreasing (but be sure to evaluate the potential high temperature hazard being introduced such as heat stress). • Use electric motors rather than diesel ones to eliminate diesel exhaust emissions. • Float "balls" on open-surface tanks that contain solvents (e.g. degreasing operations) to reduce solvent surface area and to lower solvent loss.

  11. Examples of Process Control • Instead of conventional spray painting, try to dip, paint with a brush, or use "airless"spray paint methods. These methods will reduce the amount of paint that is released into the air. • Decrease temperature of a process so that less vapor is released. • Use automation - the less workers have to handle or use the materials, the less potential there is for exposure. • Use mechanical transportation rather than manual methods.

  12. Enclosure & Isolation • An enclosure keeps a selected hazard "physically" away from the worker. Enclosed equipment, for example, is tightly sealed and it is typically only opened for cleaning or maintenance. • Other examples include "glove boxes" (where a chemical is in a ventilated and enclosed space and the employee works with the material by using gloves that are built in), abrasive blasting cabinets, or remote control devices.

  13. Enclosure & Isolation • Care must be taken when the enclosure is opened for maintenance as exposure could occur if adequate precautions are not taken. The enclosure itself must be well maintained to prevent leaks.

  14. Enclosure & Isolation • Isolation places the hazardous process "geographically" away from the majority of the workers. Common isolation techniques are to create a contaminant-free booth either around the equipment or around the employee workstations.

  15. Ventilation • Ventilation is a method of control that strategically "adds” and "removes" air in the work environment, and can remove or dilute an air contaminant if designed properly. • Local exhaust ventilation is adaptable to almost all chemicals and operations. It removes the contaminant at the source so it cannot disperse into the work space and it generally uses lower exhaust rates than general ventilation (whereas general ventilation usually exchanges air in the entire room).

  16. Ventilation A local exhaust ventilation system consists of these basic parts: • A hood that captures the contaminated air at the source; • Ductwork that carries the contaminated air away from the source; • A fan which draws the air from the hoodinto the ducts and removes the air from the workspace. • Air cleaning devices may also be present that can remove contaminants such as dust (particulates), gases and vapours from the air before it is discharged or exhaustedinto the environment (outside air), depending on the material(s) being used in the hood.

  17. Administrative controls • Administrative controls are changes to the way people work. e.g., • procedure changes • employee training • installation of signs and warning labels • Administrative controls do not remove hazards, rather limit or prevent people's exposure to the hazards, such as completing road construction at night when fewer people will be driving.

  18. examples of administrative controls • Scheduling maintenance and other high exposure operations for times when few workers are present (such as evenings, weekends). • Using job-rotation schedules that limit the amount of time an individual worker is exposed to a substance. • Using a work-rest schedule that limits the length of time a worker is exposure to a hazard.

  19. Work Practices Even where there are well designed and maintained engineering controls, safe work practices are very important. Some elements of safe work practices include: • Developing and implementing standard operating procedures. • Training and education of employees about the operating procedures as well as other necessary workplace training • Establishing and maintaining good. • Keeping equipment well maintained. • Preparing and training for emergency response for incidents such as spills, fire or employee injury.

  20. Education and Training • Employee education/training on conducting their work safely helps minimize the risk of exposure and is a critical element of any complete workplace health & safety program. • Training must cover not only how to do the job safely but it must also ensure that workers understand the hazards of their job. It must also provide them with information on how to protect themselves and co-workers.

  21. Good Housekeeping • Good housekeeping is essential to prevent the accumulation of hazardous or toxic materials (e.g., build-up of dust or contaminant on ledges, or beams), or hazardous conditions (e.g., poor stockpiling).

  22. Emergency Preparedness • Being prepare for emergencies means making sure that the necessary equipment and supplies are readily available and that employees know what to do when something unplanned happens such as a release, spill, fire or injury. These procedures should be written and employees should have the opportunity to practice their emergency response skills regularly.

  23. Personal protective equipment • PPE is the least effective way to control hazards. • PPE can include gloves, respirators, hard hats, safety glasses, high-visibility clothing, and safety footwear. • PPE is the least effective means of controlling hazards because of the high potential for the PPE to become ineffective due to damage. • Some PPE, such as respirators, increases physiological effort to complete a task and, therefore, requires medical examinations to ensure the worker can use the PPE without risk to his or her own health.

  24. PPE as a hazard control method • It is the final item on the list for a very good reason. Personal protective equipment should never be the only method used to reduce exposure except under very specific circumstances because PPE may fail without warning. • For example: "breakthrough" can occur with gloves, clothing, and respirator cartridges.

  25. monitor and review hazard control program and methods • It is important to monitor both the hazard and the control method to make sure that the control is working effectively and that exposure to the hazard is reduced or eliminated. • Some tools include physical inspection, testing, exposure assessment, observations, injury and illness tracking, employee feedback/input, occupational health assessment and other methods.

  26. Questions to ask… • Have the controls solved the problem? • Is the risk posed by the original hazard contained? • Have any new hazards been created? • Are new hazards appropriately controlled? • Are monitoring processes adequate? • Have workers been adequately informed about the situation? • Have orientation and training programs been modified to deal with the new situation? • Are any other measures required? • Has the effectiveness of hazard controls been documented in your committee minutes? • What else can be done?

  27. Application to ESP procedures

  28. e.g., Noise Overexposure • Engineering Controls • Shielding of noise source • Safe work practices • Change work process to lower hazard • Administrative Controls • Rotate workers to keep under PEL • Personal Protective Equipment • Hearing protection

  29. e.g., Respiratory Hazard • Engineering Controls • Ventilation • Safe work practices • Change work process to lower hazard • Administrative Procedures • Rotate workers to keep under PEL • Personal protective equipment • respirators

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