Abstract
Various types of carbon were shown to absorb gaseous SO/sub 2/ (about 75% at equilibrium in one case), which was rapidly converted to sulfuric acid (30% of that adsorbed in one case). However, carbon did not act synergistically with SO/sub 2/ in reducing rabbit trachea ciliary beat; carbon had no effect by itself and had no additional effect when administered with SO/sub 2/. 74 to 134 ppM SO/sub 2/ reduced ciliary beat from 1265 to 1091 beats/min after 45 min, and 175 to 239 ppM SO/sub 2/ reduced it from 1200 to 891 beats/min after 45 min.
Citation Formats
Dalhamn, T, and Strandberg, L.
Synergism between sulfur dioxide and carbon particles. Studies on adsorption and on ciliary movements in the rabbit trachea in vivo.
United Kingdom: N. p.,
1963.
Web.
Dalhamn, T, & Strandberg, L.
Synergism between sulfur dioxide and carbon particles. Studies on adsorption and on ciliary movements in the rabbit trachea in vivo.
United Kingdom.
Dalhamn, T, and Strandberg, L.
1963.
"Synergism between sulfur dioxide and carbon particles. Studies on adsorption and on ciliary movements in the rabbit trachea in vivo."
United Kingdom.
@misc{etde_6252183,
title = {Synergism between sulfur dioxide and carbon particles. Studies on adsorption and on ciliary movements in the rabbit trachea in vivo}
author = {Dalhamn, T, and Strandberg, L}
abstractNote = {Various types of carbon were shown to absorb gaseous SO/sub 2/ (about 75% at equilibrium in one case), which was rapidly converted to sulfuric acid (30% of that adsorbed in one case). However, carbon did not act synergistically with SO/sub 2/ in reducing rabbit trachea ciliary beat; carbon had no effect by itself and had no additional effect when administered with SO/sub 2/. 74 to 134 ppM SO/sub 2/ reduced ciliary beat from 1265 to 1091 beats/min after 45 min, and 175 to 239 ppM SO/sub 2/ reduced it from 1200 to 891 beats/min after 45 min.}
journal = []
volume = {7}
journal type = {AC}
place = {United Kingdom}
year = {1963}
month = {Jan}
}
title = {Synergism between sulfur dioxide and carbon particles. Studies on adsorption and on ciliary movements in the rabbit trachea in vivo}
author = {Dalhamn, T, and Strandberg, L}
abstractNote = {Various types of carbon were shown to absorb gaseous SO/sub 2/ (about 75% at equilibrium in one case), which was rapidly converted to sulfuric acid (30% of that adsorbed in one case). However, carbon did not act synergistically with SO/sub 2/ in reducing rabbit trachea ciliary beat; carbon had no effect by itself and had no additional effect when administered with SO/sub 2/. 74 to 134 ppM SO/sub 2/ reduced ciliary beat from 1265 to 1091 beats/min after 45 min, and 175 to 239 ppM SO/sub 2/ reduced it from 1200 to 891 beats/min after 45 min.}
journal = []
volume = {7}
journal type = {AC}
place = {United Kingdom}
year = {1963}
month = {Jan}
}