Some factors affecting the quality of a yellow angel food cake

Lisk, Eva Elizabeth

January 2011

Typescript, etc. / Digitized by Kansas State University Libraries

Cake

Unbleached flour high-ratio white cakes as affected by cream of tartar and variation in sugar/water level

Nuwer, Marcia Mary

02 June 1976

Unbleached-flour, high-ratio white cakes were prepared with -15, -10, -5, 0, +5 percent variations in sugar/water level from American Association of Cereal Chemists Method 10-90. Formulas with and without added cream of tartar were used. Specific gravity, batter and crumb pH, volume, crumb and crust color and compressibility were objectively measured. Seven trained judges participated in sensory evaluation for cell uniformity, cell compactness, layering, grain, tenderness, moistness, softness, crumb color, flavor, half-cake shape and surface characteristics, evenness and degree of browning. Analysis of variance showed a significant difference at the 0.05 level between bleached flour control and unbleached flour cakes for specific gravity, crumb pH, volume, crust hue characteristics, compressibility, cell compactness, layering, grain, softness, tenderness, moisture, crumb color, flavor, half-cake shape and surface, degree and evenness of crust browning. Cream of tartar in unbleached flour cakes caused a significant difference in crumb pH. Sugar/water level variation caused significant difference in crumb color and evenness of browning. / Graduation date: 1977

Cake

A study of some factors which affect the color and quality of chocolate cakes

Gramse, Lucille Alma

January 1932

No description available.

Cake

Some factors affecting the quality of angel food cake

Reed, Sara Jane

January 1931

Typescript, etc.

Cake

Analysis of compressible cake behaviour in submerged membrane filtration for water treatment

Santiwong, Suvinai Rensis, Civil & Environmental Engineering, Faculty of Engineering, UNSW

January 2008

In this study, Smiles?? sorptivity-diffusivity numerical analysis is demonstrated to offer a comprehensive description of dead-end constant-pressure compressible cake filtration for water treatment. In addition to providing an insight on filtration performance and cake behaviour in terms of cake hydraulic permeability and compressibility in good agreement with the results derived using Ruth??s conventional cake filtration theory, the sorptivity-diffusivity model can be used to gain further information on depth-dependent local cake properties and extend our knowledge on the effect of feed suspension conditions (including solution composition, coagulant dosage and mixing) on the characteristics of the particulate assemblages (including size, structure and strength). Feed suspension conditions and primary particle properties exert significant effect on the characteristics of particles in suspensions and the resultant particulate assemblages. In the non-coagulated latex systems, an increase in ionic strength resulted in a suppression of the electric double layer of latex particles as indicated by a significant drop in the zeta potential of the feed suspension which lead to a dramatic reduction in cake hydraulic permeability. In the non-coagulated montmorillonite systems, feed suspensions with high ionic strength (1 M Na+, 50 mM Ca2+ and 50 mM Fe2+) were associated with larger suspended solids which appeared to form assemblages with nematic structures that are denser yet more permeable when compared to those with low ionic strength (0.1 M Na+, 1 mM Ca2+ and 2 mM Fe2+) which appeared to form highly ??cross-linked?? voluminous honeycomb type gel of very low permeability. Pre-coagulation of latex and montmorillonite suspensions with Al-based coagulants (alum and ACH) both resulted in formation of very large flocs which subsequently formed highly permeable solid assemblages. In the latex systems, the ratio of optimal alum to ACH dose was approximately 5:1 on a total coagulant mass basis and 1.3:1 as Al while the ratio of optimal alum to ACH dose was as high as 22:1 on a total coagulant mass basis and 6:1 as Al in the montmorillonite systems. Although both alum and ACH resulted in comparable filtration performances, the distinction in Al concentration and results of local cake properties analysis indicated the presence of different cake structures presumably due to the formation of different Al species.

Cake structure

Compressible cake

Membrane filtration

Analysis of compressible cake behaviour in submerged membrane filtration for water treatment

Santiwong, Suvinai Rensis, Civil & Environmental Engineering, Faculty of Engineering, UNSW

January 2008

In this study, Smiles?? sorptivity-diffusivity numerical analysis is demonstrated to offer a comprehensive description of dead-end constant-pressure compressible cake filtration for water treatment. In addition to providing an insight on filtration performance and cake behaviour in terms of cake hydraulic permeability and compressibility in good agreement with the results derived using Ruth??s conventional cake filtration theory, the sorptivity-diffusivity model can be used to gain further information on depth-dependent local cake properties and extend our knowledge on the effect of feed suspension conditions (including solution composition, coagulant dosage and mixing) on the characteristics of the particulate assemblages (including size, structure and strength). Feed suspension conditions and primary particle properties exert significant effect on the characteristics of particles in suspensions and the resultant particulate assemblages. In the non-coagulated latex systems, an increase in ionic strength resulted in a suppression of the electric double layer of latex particles as indicated by a significant drop in the zeta potential of the feed suspension which lead to a dramatic reduction in cake hydraulic permeability. In the non-coagulated montmorillonite systems, feed suspensions with high ionic strength (1 M Na+, 50 mM Ca2+ and 50 mM Fe2+) were associated with larger suspended solids which appeared to form assemblages with nematic structures that are denser yet more permeable when compared to those with low ionic strength (0.1 M Na+, 1 mM Ca2+ and 2 mM Fe2+) which appeared to form highly ??cross-linked?? voluminous honeycomb type gel of very low permeability. Pre-coagulation of latex and montmorillonite suspensions with Al-based coagulants (alum and ACH) both resulted in formation of very large flocs which subsequently formed highly permeable solid assemblages. In the latex systems, the ratio of optimal alum to ACH dose was approximately 5:1 on a total coagulant mass basis and 1.3:1 as Al while the ratio of optimal alum to ACH dose was as high as 22:1 on a total coagulant mass basis and 6:1 as Al in the montmorillonite systems. Although both alum and ACH resulted in comparable filtration performances, the distinction in Al concentration and results of local cake properties analysis indicated the presence of different cake structures presumably due to the formation of different Al species.

Cake structure

Compressible cake

Membrane filtration

Functionality of nonfat dry milk and milk replacers in sponge cakes

McCluskey, Patrick Joseph

January 2011

Typescript (photocopy). / Digitized by Kansas Correctional Industries

Cake

Baking

Dairy products

The use of neem (Azadirachta indica) products to control root knot nematodes (Meloidogyne javanica) and their possible use in an integrated control programme

Javed, Nazir

January 2000

No description available.

631.8

Neem cake

Effect of corn syrups in cake production

Koepsel, Kirsten Marta

January 2011

Typescript. / Digitized by Kansas Correctional Industries

Corn syrup

Cake--Composition

High fructose corn syrup : replacement for sucrose in angel cake

Coleman, Philip Edward

January 2011

Vita. / Digitized by Kansas Correctional Industries

Cake

Corn syrup

Baking