Editors note: Part 1 discusses industrial air quality in the aerospace industry. Part 2 in the July 2017 issue will discuss solutions to air quality challenges.
While nearly all manufacturing industries have air quality concerns, the materials and processes used in aerospace present special challenges. From engine rework to extrusion of aluminum support components, each aerospace manufacturing process has its own set of indoor air quality (IAQ) challenges. If particulates generated by welding, blasting, grinding, or machining are not controlled, they will quickly cause problems for worker health and safety, product quality, and in some cases, regulatory compliance.
Aerospace manufacturing companies must comply with Occupational Safety and Health Administration (OSHA) regulations (or applicable regional/local regulations if outside the U.S.) for indoor air quality. Regulations set maximum permissible exposure limits (PELs) for certain compounds and elements released into the air during manufacturing. Exceeding PELs can subject companies to large fines.
However, the costs of poor air quality go beyond regulations. Failure to control fumes and particulates negatively impacts companies in a variety of ways. including:
Worker productivity Poor IAQ has been estimated to cause six additional lost workdays per year for every 10 employees. OSHA estimates that worker absences and reduced efficiency from poor air quality cost companies $15 billion annually.
Retention and recruiting In a recent survey commissioned by Advanced Technology Services (ATS), 39% of aerospace companies reported that skilled labor shortages are having an extreme impact on their businesses. For manufacturing as a whole, The Manufacturing Institute and Deloitte anticipate a shortage of 2 million skilled workers by 2025. For younger workers, the work environment matters, and that includes air quality. Aerospace companies competing to recruit welders and other skilled tradespeople will find that a clean, pleasant environment will pay dividends through lower turnover and more successful recruiting efforts for in-demand workers.
Product quality Uncontrolled particulates can product quality problems if they permeate sensitive areas such as paint lines or infiltrate electronic components.
Combustion risks Many of the dust types produced by the aerospace industry are highly combustible, including aluminum, titanium, and magnesium. These dusts have Kst ratings (a measure of combustibility) 10x larger than wood dust, making them extremely dangerous if allowed to accumulate in the air.
Of course, the most serious problem faced by companies with uncontrolled fumes and dust are the risks to worker health and safety.
Different processes produce different kinds and levels of particulates, giving each process its own exposure risk profile.
Welding Manual and robotic welding are used in the manufacture of aerospace parts, and the characteristics of fumes generated by the welding process can vary widely. The toxicity and the total volume of fumes generated depend on three variables:
Weld fumes can contain toxic elements and compounds, such as nickel, copper, vanadium, molybdenum, zinc, and beryllium. These fumes are made up of tiny particles that are inhaled deeply into the lungs, where they have both immediate and long-term impacts on worker health. Acute effects of exposure to weld fumes can include shortness of breath and respiratory irritation; eye, nose or throat irritation; or nausea. Long-term exposure to hexavalent chromium (hex chrome), manganese, and other elements can lead to chronic or deadly exposure effects.
Machining Metal processing often requires lubricants, which create fine oil mists that can be invisible. As the mists settle on surfaces, they can create slip and fall hazards for personnel, and have health impacts when inhaled. Depending on the size of the particulates and the chemistry of the lubricant, extended exposure may lead to asthma, chronic bronchitis, chronically impaired lung function, fibrosis of the lung, and cancer.
Cutting and grinding Larger particulates from cutting and grinding dont make their way as deeply into the lungs as the fumed particulates from welding, but the large volume of dust produced by these applications presents special health hazards. Fiberglass, metal, glass, plastics, and epoxy resins can all cause respiratory irritation. Some materials are also carcinogenic when inhaled. Newer materials used in the aerospace industry, including carbon fiber and composites, are associated with skin and respiratory irritation, contact dermatitis, and chronic interstitial lung disease. High-tech nanofiber materials present special risks when cutting and grinding due to the small size of the nanoparticles that have the potential to make their way deep into the lungs and cross into the bloodstream. The health impacts of inhaling nanoparticles are not yet fully understood.
Blasting One air quality hazard unique to the aerospace industry comes from the blasting processes used to clean and refurbish engine parts to meet Federal Aviation Administration (FAA) regulations. The blasting process used to clean accumulated debris off engine components commonly uses hazardous materials such as aluminum oxide. In addition to being a combustion hazard, aluminum oxide exposure is linked to eye, nose, throat, and lung irritation and central nervous system effects. Materials may contain silica, which is implicated in lung cancer, chronic bronchitis, and kidney damage. OSHA recently cut PELs for respirable crystalline silica in half, and companies using silica-based abrasives must comply with the new regulations by June 2018.
Fortunately, there are steps that you can take to ensure that a facility not only meets minimum regulatory requirements but is prepared for any changes that may come in the future. Meeting current OSHA PELs is a necessary start, and many aerospace companies are moving toward stricter internal standards for IAQ to meet productivity and sustainability goals. The American Conference of Governmental Industrial Hygienists (ACGIH) has developed voluntary exposure guidelines based on rigorous science, which are rapidly becoming internationally recognized best practice for the manufacturing industry.
A well-designed air quality system can protect companies from legal liability and government fines while improving worker health, satisfaction, and productivity. A qualified air quality system designer can help aerospace companies find solutions that balance costs, regulations, and goals. Well take a closer look at the mitigation options in our next IAQ article.
RoboVent
About the author: Gordon Diener is an application specialist for RoboVent, a provider of ventilation and filtration systems for manufacturing facilities. Diener can be reached at 402.616.3574 or gordon.diener@robovent.com.
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Aerospace industry's clean air problem - Aerospace Manufacturing and Design (press release)
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