Joel Amilcar Ramirez scite author profile

Joel Amilcar Ramirez

3Publications

30Citation Statements Received

72Citation Statements Given

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Affiliations

University of Iowa

Publications

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The effect of simulated air conditions on N95 filtering facepiece respirators performance

Ramirez

O’Shaughnessy

2016

Journal of Occupational and Environmental Hygiene

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The objective of this study was to determine the effect of several simulated air environmental conditions on the particle penetration and the breathing resistance of two N95 filtering facepiece respirator (FFR) models. The particle penetration and breathing resistance of the respirators were evaluated in a test system developed to mimic inhalation and exhalation breathing while relative humidity and temperature were modified. Breathing resistance was measured over 120 min using a calibrated pressure transducer under four different temperature and relative humidity conditions without aerosol loading. Particle penetration was evaluated before and after the breathing resistance test at room conditions using a sodium chloride aerosol measured with a scanning mobility particle sizer. Results demonstrated that increasing relative humidity and lowering external temperature caused significant increases in breathing resistance (p < 0.001). However, these same conditions did not influence the penetration or most penetrating particle size of the tested FFRs. The increase in breathing resistance varied by FFR model suggesting that some FFR media are less influenced by high relative humidity.

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Filter penetration and breathing resistance evaluation of respirators and dust masks

Ramirez

O’Shaughnessy

2016

Journal of Occupational and Environmental Hygiene

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The primary objective of this study was to compare the filter performance of a representative selection of uncertified dust masks relative to the filter performance of a set of NIOSH-approved N95 filtering face-piece respirators (FFRs). Five different models of commercially available dust masks were selected for this study. Filter penetration of new dust masks was evaluated against a sodium chloride aerosol. Breathing resistance (BR) of new dust masks and FFRs was then measured for 120 min while challenging the dust masks and FFRs with Arizona road dust (ARD) at 25°C and 30% relative humidity. Results demonstrated that a wide range of maximum filter penetration was observed among the dust masks tested in this study (3-75% at the most penetrating particle size (p < 0.001). The breathing resistances of the unused FFRs and dust masks did not vary greatly (8-13 mm HO) but were significantly different (p < 0.001). After dust loading there was a significant difference between the BR caused by the ARD dust layer on each FFR and dust mask. Microscopic analysis of the external layer of each dust mask and FFR suggests that different collection media in the external layer influences the development of the dust layer and therefore affects the increase in BR differently between the tested models. Two of the dust masks had penetration values < 5% and quality factors (0.26 and 0.33) comparable to those obtained for the two FFRs (0.23 and 0.31). However, the remaining three dust masks, those with penetration > 15%, had quality factors ranging between 0.04-0.15 primarily because their initial BR remained relatively high. These results indicate that some dust masks analysed during this research did not have an expected very low BR to compensate for their high penetration.

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Evaluation of particle penetration and breathing resistance of N95 filtering face-piece respirators and uncertified dust masks

Ramirez¹

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The objective of this study was to determine the breathing resistance (BR) of filtering face-piece respirators (FFRs) while performing power washing in a swine building. Two models of commercially available N95 FFRs, referred to as FFR 1 and FFR 2, were selected for this study. BR of new FFRs were measured for 120 min while a member of the research team wore the FFR while performing power washing during winter in multiple swine rooms. Temperature and relative humidity were recorded during the power washing tasks. Results demonstrated that BR of the tested FFRs did not increase during power washing in a Control Room (FFR 1, p = 0.40; FFR 2, p = 0.86). Workers wearing a new FFR while performing power washing in swine rooms should not detect any difference in BR, at least for 120 min of power washing. Based on this study, FFR wearer should expect no increase in BR over 8 hr of power washing, decrease health risk by wearing the FFR and no need to replace the FFR during the power washing task.

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