An investigation of the role of sodium sulfide in cellulosic chain cleavage during kraft pulping.

Blythe, David A.

01 January 1984

No description available.

Sodium sulfide

Kraft pulping

Cellulose degradation

The theoretical basis for the action of sulfide in the kraft pulping process

Hanson, Fred Sumner

01 January 1939

No description available.

Kraft pulps

Kraft papers

Lignins

Sodium sulfide

Delignification

The hydrolysis of sodium sulfide in mixtures with sodium hydroxide

Martin, George E. (George Edward)

01 January 1948

No description available.

Kraft liquors

Sodium sulfide

Sodium hydroxide

Kraft pulping

Hydrolysis

Concentration

Direct causticizing of sodium carbonate with manganese oxide

Eames, Douglas J.

07 1900

No description available.

Sulphate pulping process

Oxides

Manganese

Causticizing

Chemical recovery

Sodium carbonate

Sodium sulfide

Hydrolysis

Reaction kinetics

Smelt

Kinetics and Mechanisms of Carbonation Conversion of Aqueous Sodium Sulfide to Hydrogen Sulfide

Ng, Steven Hoi-Chiu

09 1900

<p> The objectives of the present study were to investigate the reaction mechanisms and the effects of certain physical variables on the overall reaction rate of the conversion of aqueous Na2S to gaseous H2S by bubbling with CO2 gas, which is a simultaneous absorption-desorption reaction.</p> <p> The dependence of reaction rate on the physical variables investigated were the volumetric flow rate and the CO2 partial pressure of inlet gas and reaction temperature. Potential advantages of a pressurized reaction system were also studied. It was found that the effect of reaction temperature on the overall reaction rate was relatively small as compared to that of inlet gas flow rate and CO2 partial pressure.</p> <p> Gas-liquid interfacial area was estimated and the overall reaction rate constant determined. It was found that the carbonation conversion of Na2S is first order with respect to both the HS- ion concentration of the liquid phase and the CO2 partial pressure of the inlet gas.</p> <p> The rate limiting step of the overall conversion reaction, under the present laboratory conditions, appeared to be the desorption of hydrogen sulfide.</p> / Thesis / Master of Science (MSc)