Speaker: John Jackson - Application Technology Manager - Unimin Energy
Topic: OSHA New Silica Regulation and How to Mitigate It with No Footprint
Date: Wednesday, March 21st 2018
Location: Brookhaven College Geological Institute, (Map)
Cost: $20 if SPE member paying electronically in advance, all others $25
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In June 2016, the Occupational Safety and Health Administration, OSHA, reduced the Permissible Exposure Limit (PEL) and created an Action Level (AL) for respirable crystalline silica (RCS) by half and will require engineering controls to help mitigate employee exposure. In June 2018, the new RCS PEL of 0.05 mg/m3 averaged over an 8-hour period will apply to hydraulic fracturing and most other industries, and engineering control obligations will commence in June 2021 for hydraulic fracturing operations.
With an average of over one million pounds of silica sand used in horizontal well completions, crystalline silica is a major component of hydraulic fracturing. Multiple proppant transfer points can generate high concentrations of airborne dust, from offloading trucks to being pumped down hole. Engineering controls can be used to mitigate exposure.
A study was conducted at multiple hydraulic fracturing sites to determine if RCS concentrations could be reduced below OSHA’s new PEL using engineering controls that do not have an onsite footprint, namely chemically pre-treated sand. During the study, 10 mm nylon Dorr-Oliver (DO) cyclones were used to measure the amount of RCS produced with and without the chemical engineering control in place. The results showed significant reductions in RCS in both personal and area sampling.
Results presented in this paper will show that effective engineering controls, with no footprint on site, exist and can significantly reduce air-borne RCS concentrations. Overall helping mitigate occupational exposures below the revised PEL and often below the Action Level.
John Jackson is the Application Technology Manager for Unimin Energy in The Woodlands, Texas. He holds a Bachelor of Science degree in Chemistry from Sam Houston State University. John has spent the last 7 years in proppant research and development for the hydraulic fracturing industry. He is currently developing engineering methods to control respirable crystalline silica within the Oil & Gas and glass markets.
John serves as the Co-Chair of the American Petroleum Institute 19 C group, which oversees the practice for measurement of proppants used in hydraulic fracturing. He previously served 5 years on the Board of Directors for the Society of Petroleum Engineers Gulf Coast Section, where he won awards for section services and committee of the year.