J. C. Arnell scite author profile

J. C. Arnell

5Publications

45Citation Statements Received

2Citation Statements Given

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Charcoal Sorption Studies. II The Sorption of Water by Hydrogen Treated Charcoals

McDermot¹,

Arnell²

1954

J. Phys. Chem.

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Oxygen has been removed from three types of charcoal by treating them with hydrogen at 1000°. It has been shown that this results in a lowered water sorption at humidities of less than 80% for all three charcoals. The amount of oxygen so removed has been measured for one of these charcoals (coconut shell). Surface areas are substantially unchanged by the removal of oxygen. Oxidation of the surface is shown to increase the sorption of water by charcoal. It is suggested that the data are in accord with the cluster theory of Pierce and Smith.8

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Permeability Studies: Ii. Surface Area Measurements of Inorganic Pigment Powders

Arnell¹

1947

Can. J. Res.

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The modified Kozeny equation has been found to be satisfactory for the measurement of the specific surface of inorganic pigments having particle diameters of the order of 0.1 to 0.2 µ to within ±10%. These powders were too fine for visual microscope counting or standard sedimentation methods of specific surface measurement. The results obtained from experimental data were checked against those calculated from electron microscope counting for two of the powders studied and found to be in satisfactory agreement.

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The Adsorption of Nitrogen, Oxygen, and Argon by Graphite

McDermot¹,

Arnell²

1955

Can. J. Chem.

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'I'he a d s o r p t i o~~ of nitrogen, oxygen, and argon b?. three '\cheson graphites ha-; been n~easured a t liquid nitrogen and liquid oxygen temperatures. The isotherru~ were 'Sype I1 in the B.E.T. classilication and displayed two kinds of hysteresis.The first kind was attributed to the presence of pores ill the graphite and the seco~lcl kind to illtercrystalline swelling. This paper describes an i~~vestigation of three artificial graphites m a~~u f a ctured by the Acheson Colloids Corporation. V e r~. little detailed adsorp~iol~ work has been done with graphites of this type with a view to elucidati~~g their structure. Barrer (2) has measured the adsorption of nitrogen, argoll, ar~cl hydrogen by an Acheson graphite over a considerable temperature range ancl has calculated isosteric heats from the isotherms. He found that the graphite was energetically heterogeneous to all three gases and that the heats in the case of nitrogen were unaffected by the addition of chemisorbed oxygen to the surface of the graphite. He concluded therefore that the heterogeneity was a property of the carbon structure. In the opinion of the authors, the tvealiness of this work lies in the fact that very few adsorption points were measured a t each temperature and no desorption points a t all were determined. Bartell and Dodd (4) measured the adsorption of nitrogen a t liquid nitrogen temperatures by a number of carbons which included two Acheson graphites. The purpose of the work was to measure the surface area of the carbons so that only a small number of points were determined and only i l l the case of the diamond powder were desorption points talien. I t is stated that 110 d e s o r p t i o~~ points were measured for the graphite because reversibility for nitrogen adsorption had been established a t liq~lid oxygen telnperatures. Bartell and Dodd do not indicate to what pressures these measurements were carried, but it will be shown in the present paper that reversibilitl. of the nitrogen isotherm a t 90°1<. is by no means a criterion for reversibility unless pressure measurements are extended to well over an atmosphere. Because of the lack of d a t a on these graphites, it was decided to undertake a detailed s t~~d y of three typical artificial graphites. The first step was to measure isotherms a t low temperatures using as adsorbates ~~i t r o g e n , oxygen, ancl argoll. Uliusual hysteresis effects were encou~~tered and therefore a detailed study was made on one graphite usi~ig nitrogen as the adsorbate. For comparative purposes the nitrogen isotherm of a nonporous carbon black I V~S also determined.

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Charcoal Sorption Studies: I. The Pore Distribution in Activated Charcoals

McDermot¹,

Arnell²

1952

Can. J. Chem.

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The pore distributions of three activated charcoals have been calculated from the low temperature nitrogen and water isotherms. The method of Barrett, Joyner, and Halenda has been used with the nitrogen data, while the Kelvin equation has been applied to the water isotherm. The two curves coincide if cos 0 = 0.65 is used in the Kelvin equation, where 8 is the wetting angle. This figure is in general agreement with a published figwe obtained by an independent method.

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Permeability Studies: Iii. Surface Area Measurements of Carbon Blacks

Arnell¹,

Henneberry²

1948

Can. J. Res.

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The modified Kozeny equation has been found to be satisfactory for the measurement of the specific surfaces of carbon blacks having average particle diameters ranging from 0.01 to 0.1 μ to within ±10%. Comparative data were obtained from electron microscope counting and from low temperature nitrogen adsorption isotherms. The three methods examined gave results that were in satisfactory agreement, except when the carbon black was porous, and then the adsorption value was extremely large.

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J. C. Arnell

Charcoal Sorption Studies. II The Sorption of Water by Hydrogen Treated Charcoals

Permeability Studies: Ii. Surface Area Measurements of Inorganic Pigment Powders

The Adsorption of Nitrogen, Oxygen, and Argon by Graphite

Charcoal Sorption Studies: I. The Pore Distribution in Activated Charcoals

Permeability Studies: Iii. Surface Area Measurements of Carbon Blacks

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