Sulfur release during the pyrolysis of kraft black liquor

Harper, Frank D.

01 January 1989

No description available.

Kraft liquors

Kraft pulping

Sulphate waste liquor

Black liquors

Papermaking

Sulphate pulping process

Color removal from softwood, kraft, caustic extract effluent by polyamines

Kisla, T. C. (Thomas Carl)

01 January 1976

No description available.

Effluent treatment

Kraft pulping

Decoloration

Polyamines

Water purification

Color removal

Sulphate pulping process

The high temperature alkaline degradation of phenyl β-D-glucopyranoside

Molinarolo, William E.

01 January 1989

No description available.

Glucopyranosides

Glycosides

Chemical bonds

Sulphate pulping process

Alkaline processes

Kraft pulping

A Model of the kraft recovery furnace

Jones, Andrew K.

01 January 1989

No description available.

Recovery boilers

Recovery furnaces

Sulphate pulping process

Mathematical models

Kraft pulping

The Role of carbon dioxide in the combustion of kraft black liquor char

Lee, Stacy Ray

01 January 1993

No description available.

Sulphate waste liquor

Sulphate pulping process

Char

Combustion

Kraft liquors

Kraft pulping

Correlation of certain morphological and hydrodynamic aspects of loblolly pine bleached kraft pulp

Binotto, Anthony P.

01 January 1977

No description available.

Pinus taeda

Kraft pulps

Kraft pulping

Filtration

Fibers

Wood-pulp

Bleaching

Sulphate pulping process

Loblolly pine

An operations research approach to the economic optimization of a kraft pulping process

Carroll, Charles W.

01 January 1959

No description available.

Kraft pulping process

Operations research

Kinetics

Economic balance

Optimization

Statistics

Response surface technique

Mathematical models

A study of the initial phase of the aqueous chlorination of kraft pulp meals

Russell, Norman A.

01 January 1966

No description available.

Wood-pulp

Bleaching

Sulphate pulping process

Pulps

Kraft pulping

Kraft pulps

Factors Affecting the Resistivity of Recovery Boiler Precipitator Ash

Sretenovic, Ivan

16 August 2012

Electrostatic precipitators (ESPs) are commonly used to control particulate emissions from recovery boilers in the kraft pulping process. The electrical resistivity of entrained particulates is known to affect the performance of ESPs. There are many factors which influence resistivity of particulate matter, such as field strength, time of exposure, particle size, particle composition, temperature, and flue gas composition. The objective of this study was to identify the ideal operating conditions and dust particle characteristics which lead to an optimum dust resistivity and maximized ESP efficiency. The effect of these factors was examined through a variety of experimental and analytical techniques on kraft recovery boiler ash samples and synthetically prepared samples. It was concluded that particle composition, gas composition, and ambient temperature had the most pronounced effects, while the other factors, such as field strength and exposure time, had a smaller impact on particle resistivity.

Electrostatic Precipitator

Resistivity

Recovery Boiler

Kraft Pulping Process

Precipitator Dust

0542

Factors Affecting the Resistivity of Recovery Boiler Precipitator Ash

Sretenovic, Ivan

16 August 2012

Electrostatic precipitators (ESPs) are commonly used to control particulate emissions from recovery boilers in the kraft pulping process. The electrical resistivity of entrained particulates is known to affect the performance of ESPs. There are many factors which influence resistivity of particulate matter, such as field strength, time of exposure, particle size, particle composition, temperature, and flue gas composition. The objective of this study was to identify the ideal operating conditions and dust particle characteristics which lead to an optimum dust resistivity and maximized ESP efficiency. The effect of these factors was examined through a variety of experimental and analytical techniques on kraft recovery boiler ash samples and synthetically prepared samples. It was concluded that particle composition, gas composition, and ambient temperature had the most pronounced effects, while the other factors, such as field strength and exposure time, had a smaller impact on particle resistivity.

Electrostatic Precipitator

Resistivity

Recovery Boiler

Kraft Pulping Process

Precipitator Dust

0542