已知因素对喷涂式卡车床衬里过程中亚甲基双苯基异氰酸酯(MDI)浓度的影响。
Effects of Known Determinants on Methylene Bisphenyl Isocyanate (MDI) Concentration During Spray-On Truck Bed-Lining Processes.
机构信息
Uniformed Services University of the Health Sciences, Preventive Medicine and Biostatistics Department, Occupational and Environmental Health Sciences Division, 4301 Jones Bridge Road, Bethesda, MD 20814, USA.
Colorado State University, Department of Environmental and Radiological Health Sciences, Occupational and Environmental Health Section, Fort Collins, CO 80523, USA.
出版信息
Ann Work Expo Health. 2017 Aug 1;61(7):872-882. doi: 10.1093/annweh/wxx052.
BACKGROUND
Occupational exposure to methylene bisphenyl isocyanate (MDI) presents serious worker health concerns as it may lead to short- and long-term health effects such as asthma, airway irritation, hypersensitivity pneumonitis, and irritation of skin and mucous membranes. While studies of worker isocyanate exposures during vehicle painting activities are widespread, few studies have investigated the spray-on truck bed-liner (STBL) industry. The purpose of this study was to determine the effectiveness of several ventilation system variables and process characteristics in controlling MDI concentrations in the STBL industry.
METHODS
A total of 47 personal air samples were collected for MDI during 18 site visits at nine STBL companies in Colorado and Wyoming. Ventilation system and process characteristics that were assessed included: ventilation system face velocity, airflow, air changes per minute (AC/M), capture velocity, percent of MDI in bed-liner product, application temperature, application pressure, paint booth temperature, paint booth relative humidity, paint booth volume, and quantity of bed-liner product applied.
RESULTS
Pearson correlation revealed percentage of MDI in bed-liner product (r = 0.557, n = 14, P < 0.05) and process temperature (r = 0.677, n = 14, P < 0.05) had high positive correlation with MDI concentration. Ventilation system face velocity (r = -0.578, n = 14, P < 0.05) and AC/M (r = -0.657, n = 14, P < 0.05) had high negative correlation with MDI concentration while airflow (r = -0.475, n = 14, P < 0.05) and capture velocity (r = -0.415, n = 14, P = 0.07) had moderate negative correlation with MDI concentration. Multiple linear regression revealed process temperature and capture velocity made a statistically significant and unique contribution in estimating MDI concentration (F (2, 11) = 10.99, P < 0.05) with an adjusted R2 of 0.61, explaining 61% of the variability in MDI concentration.
CONCLUSIONS
This investigation contributed to an understudied STBL industry by targeting determinants germane to MDI exposures during STBL application processes. Increasing ventilation performance for AC/M, airflow, face velocity, and capture velocity while also decreasing bed-liner application temperature and bed-liner product MDI content may have the greatest effect on reducing worker MDI exposures during STBL activities.
背景
职业性接触亚甲基二苯基异氰酸酯(MDI)会对工人健康造成严重影响,因为它可能导致短期和长期的健康影响,如哮喘、气道刺激、过敏性肺炎以及皮肤和粘膜刺激。虽然有关汽车涂装作业中工人异氰酸酯暴露的研究很多,但很少有研究调查喷涂卡车床衬(STBL)行业。本研究的目的是确定几种通风系统变量和工艺特性在控制 STBL 行业中 MDI 浓度方面的有效性。
方法
在科罗拉多州和怀俄明州的九家 STBL 公司进行了 18 次现场访问,共采集了 47 份个人空气样本,用于 MDI。评估的通风系统和工艺特性包括:通风系统迎面风速、气流、每分钟空气交换次数(AC/M)、捕集速度、床衬产品中 MDI 的百分比、应用温度、应用压力、喷漆室温度、喷漆室相对湿度、喷漆室体积和应用的床衬产品数量。
结果
Pearson 相关性分析显示,床衬产品中 MDI 的百分比(r = 0.557,n = 14,P < 0.05)和工艺温度(r = 0.677,n = 14,P < 0.05)与 MDI 浓度呈高度正相关。通风系统迎面风速(r = -0.578,n = 14,P < 0.05)和 AC/M(r = -0.657,n = 14,P < 0.05)与 MDI 浓度呈高度负相关,而气流(r = -0.475,n = 14,P < 0.05)和捕集速度(r = -0.415,n = 14,P = 0.07)与 MDI 浓度呈中度负相关。多元线性回归显示,工艺温度和捕集速度对估计 MDI 浓度具有统计学意义和独特贡献(F(2,11)= 10.99,P < 0.05),调整后的 R2 为 0.61,解释了 MDI 浓度变化的 61%。
结论
本研究针对 STBL 应用过程中与 MDI 暴露有关的决定因素,针对研究较少的 STBL 行业进行了研究。在降低 STBL 活动中工人 MDI 暴露的风险方面,提高 AC/M、气流、迎面风速和捕集速度的通风性能,同时降低床衬应用温度和床衬产品中 MDI 的含量,可能会产生最大的效果。
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