Sample records for cellosolves

  1. Review of Various Air Sampling Methods for Solvent Vapors.

    ERIC Educational Resources Information Center

    Maykoski, R. T.

    Vapors of trichloroethylene, toluene, methyl ethyl ketone, and butyl cellosolve in air were collected using Scotchpac and Tedlar bags, glass prescription bottles, and charcoal adsorption tubes. Efficiencies of collection are reported. (Author/RH)

  2. 24 CFR Appendix I to Subpart C of... - Specific Hazardous Substances

    Code of Federal Regulations, 2011 CFR

    2011-04-01

    ... Isopropyl Alcohol Jet Fuel and Kerosene Methyl Alcohol Methyl Amyl Alcohol Methyl Cellosolve Methyl Ethyl... Hazardous Operations Handling Conventional Fuels or Chemicals of an Explosive or Flammable Nature Pt. 51... (Petroleum) Cumene Cyclohexane No. 2 Diesel Fuel Ethyl Acetate Ethyl Acrylate Ethyl Alcohol Ethyl Benzene...

  3. 24 CFR Appendix I to Subpart C of... - Specific Hazardous Substances

    Code of Federal Regulations, 2012 CFR

    2012-04-01

    ... Isopropyl Alcohol Jet Fuel and Kerosene Methyl Alcohol Methyl Amyl Alcohol Methyl Cellosolve Methyl Ethyl... Hazardous Operations Handling Conventional Fuels or Chemicals of an Explosive or Flammable Nature Pt. 51... (Petroleum) Cumene Cyclohexane No. 2 Diesel Fuel Ethyl Acetate Ethyl Acrylate Ethyl Alcohol Ethyl Benzene...

  4. 24 CFR Appendix I to Subpart C of... - Specific Hazardous Substances

    Code of Federal Regulations, 2014 CFR

    2014-04-01

    ... Isopropyl Alcohol Jet Fuel and Kerosene Methyl Alcohol Methyl Amyl Alcohol Methyl Cellosolve Methyl Ethyl... Hazardous Operations Handling Conventional Fuels or Chemicals of an Explosive or Flammable Nature Pt. 51... (Petroleum) Cumene Cyclohexane No. 2 Diesel Fuel Ethyl Acetate Ethyl Acrylate Ethyl Alcohol Ethyl Benzene...

  5. 24 CFR Appendix I to Subpart C of... - Specific Hazardous Substances

    Code of Federal Regulations, 2013 CFR

    2013-04-01

    ... Isopropyl Alcohol Jet Fuel and Kerosene Methyl Alcohol Methyl Amyl Alcohol Methyl Cellosolve Methyl Ethyl... Hazardous Operations Handling Conventional Fuels or Chemicals of an Explosive or Flammable Nature Pt. 51... (Petroleum) Cumene Cyclohexane No. 2 Diesel Fuel Ethyl Acetate Ethyl Acrylate Ethyl Alcohol Ethyl Benzene...

  6. Flotation of traces of silver and copper(II) ions with a methyl cellosolve solution of dithizone.

    PubMed

    Hiraide, M; Mizuike, A

    1975-06-01

    Microgram quantities of silver and copper(II) ions in aqueous solutions are collected on dithizone precipitates, which are then floated with the aid of small nitrogen bubbles. This separation technique has been successfully applied to the atomic-absorption spectrophotometric determination of down to a tenth ppm of silver and copper in high-purity lead and zinc metals.

  7. Industrial Hygiene Air Sampling and Bulk Sampling Instructions

    DTIC Science & Technology

    1990-12-01

    registered trademark of Johns - Manville Products Corp., Denver, CO. "Cellosolve is a registered trademark of Union Carbide Corp., 270 Park Ave, New...registered trademark of Johns - Manville Products Corp., Denver, CO. 0 &Florisil is a registered trademark of Floridin Company, ITT System, Pittsburgh, PA. C...Thermosorb is a registered trademark of Johns - Manville Products Corp., Denver, CO. ®XAD-2 is a registered trademark of Rohm and Haas, Philadelphia, PA. C

  8. NIOSH Manual of Analytical Methods (third edition). Fourth supplement

    DOE Office of Scientific and Technical Information (OSTI.GOV)

    Not Available

    1990-08-15

    The NIOSH Manual of Analytical Methods, 3rd edition, was updated for the following chemicals: allyl-glycidyl-ether, 2-aminopyridine, aspartame, bromine, chlorine, n-butylamine, n-butyl-glycidyl-ether, carbon-dioxide, carbon-monoxide, chlorinated-camphene, chloroacetaldehyde, p-chlorophenol, crotonaldehyde, 1,1-dimethylhydrazine, dinitro-o-cresol, ethyl-acetate, ethyl-formate, ethylenimine, sodium-fluoride, hydrogen-fluoride, cryolite, sodium-hexafluoroaluminate, formic-acid, hexachlorobutadiene, hydrogen-cyanide, hydrogen-sulfide, isopropyl-acetate, isopropyl-ether, isopropyl-glycidyl-ether, lead, lead-oxide, maleic-anhydride, methyl-acetate, methyl-acrylate, methyl-tert-butyl ether, methyl-cellosolve-acetate, methylcyclohexanol, 4,4'-methylenedianiline, monomethylaniline, monomethylhydrazine, nitric-oxide, p-nitroaniline, phenyl-ether, phenyl-ether-biphenyl mixture, phenyl-glycidyl-ether, phenylhydrazine, phosphine, ronnel, sulfuryl-fluoride, talc, tributyl-phosphate, 1,1,2-trichloro-1,2,2-trifluoroethane, trimellitic-anhydride, triorthocresyl-phosphate, triphenyl-phosphate, and vinyl-acetate.

  9. Use of an automated fluorescent microsphere method to measure regional blood flow in the fetal lamb.

    PubMed

    Tan, W; Riggs, K W; Thies, R L; Rurak, D W

    1997-08-01

    We have developed a method for measuring regional blood flow by means of fluorescent microspheres in all organs and tissues of the fetal lamb, including brain, heart, lung, liver, gut, spleen, kidney, adrenal, brown fat, skin, muscle, bone, and placenta. Five different fluorescent-labeled microspheres were used: blue (B), yellow-green (Y), orange (O), red (R), and crimson (C). An automated, 96-well microplate fluorescent reader (bottom reading) was chosen for the assay because of the rapidity and high throughput that it offers. Tissue samples were digested by 4 M ethanolic KOH. The sedimentation method and dye extraction with Cellosolve acetate, as previously reported by others, were used for the sample processing. The bones were crushed and allowed to directly soak in Cellosolve acetate to extract the dye. The relationship between microsphere number and fluorescent intensity was linear over a broad range of microsphere numbers (80-20,000/mL). The coefficients of variation of within-run and between-run precision were 3.39 +/- 1.10% and 4.54 +/- 1.10%, respectively. Recovery of microspheres from tissues and blood averaged 94.3 +/- 2.5% and was not dependent on microsphere number. The spillover of the fluorescent signals into adjacent colors was 4.0 +/- 0.1% for O to Y, 8.1 +/- 0.4% for O to R, and 9.1 +/- 0.5% for R to C, and these values were constant over a wide range in concentrations of the microsphere pairs. No evidence was obtained for quenching of the emission of one fluorophore via photon absorption by another fluorophore. The measurements of regional blood flow obtained with fluorescent microspheres in three chronically instrumented fetal lambs at approximately 140 days gestation were similar to the flow estimates obtained using radioactive microspheres in four other fetal lambs at the same gestational age. The fluorescent method is thus a viable alternative to the radioactive technique for the measurement of regional blood flow to all fetal organs and tissues, particularly when an automated fluorescent microplate reader is employed to reduce analysis time.

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