A study of the factors affecting quality and rate of spoilage of certain fresh vegetables held under ice refrigeration.

Fair, Donald Francis

01 January 1952

No description available.

Vegetables Preservation.

Thermal softening kinetics and textural quality of thermally processed vegetables

Taherian, Ali Reza

January 1995

Dry Romano beans (Phaseolus vulgaris) were soaked and cooked at temperatures ranging from 70 to 100$ sp circ$C for different time intervals. The rate of texture softening associated with each temperature was found to be consistent with two simultaneous pseudo first-order kinetic mechanisms 1 and 2. Approximately 40% of the firmness of Romano beans was lost by the rapid softening mechanism 1. The remaining firmness loss was characterized by mechanism 2 which was found to be much slower ($ sim$1/50th of the former). The temperature dependence indicator (z value) of reaction rate constants were 30 and 24 C$ sp circ$, respectively for mechanisms 1 and 2 with associated activation energies of 82 kJ/mole and 103 kJ/mole, respectively. / Turnip (Brassica napobbrassica) and beet roots (B. Vulgaris L.) were cooked at temperatures ranging from 70 to 100$ sp circ$C for different time intervals. Three textural properties (firmness, springiness, and stiffness) were found to follow the same trend of apparent first order kinetic theory with two substrates. Temperature dependence of softening (z value) was found to be within 27 and 35 C$ sp circ ,$ with activation energies in the range of 93 and 60 kJ/mole. / Cylindrical turnip, beet root pieces and Romano beans were packed in thin profile plastic containers and cylindrical metal cans and thermally processed in the static and rotational modes. Through heat penetration testing, process times were adjusted to give an equivalent lethality of 10 min for each product. Thin profile packed vegetables, in all cases, were found to have a firmer and stiffer texture. On the other hand, for rotational processing, the result showed no significant improvement in textural properties (firmness, springiness and stiffness) over the still counterparts. It was found that previously determined kinetic data could be used to estimate texture retention.

Vegetables -- Preservation.

Food -- Effect of heat on.

Thermal softening kinetics and textural quality of thermally processed vegetables

Taherian, Ali Reza

January 1995

No description available.

Vegetables -- Preservation.

Food -- Effect of heat on.

Thermal Softening Kinetics and Textural Quality of Thermally Processed Vegetables

Taherian, Ali Reza

January 1995

Note:

Vegetables -- Preservation.

Food -- Effect of heat on.

Freezing Fruits and Vegetables for Better Meals

Gibbs, June C.

07 1900

This item was digitized as part of the Million Books Project led by Carnegie Mellon University and supported by grants from the National Science Foundation (NSF). Cornell University coordinated the participation of land-grant and agricultural libraries in providing historical agricultural information for the digitization project; the University of Arizona Libraries, the College of Agriculture and Life Sciences, and the Office of Arid Lands Studies collaborated in the selection and provision of material for the digitization project.

Frozen foods.

Fruit -- Preservation.

Vegetables -- Preservation.

Home Preservation of Food: Preservation of Vegetables, Fruits and Meats

Brown, Frances L., Picard, Olive G.

04 1900

This item was digitized as part of the Million Books Project led by Carnegie Mellon University and supported by grants from the National Science Foundation (NSF). Cornell University coordinated the participation of land-grant and agricultural libraries in providing historical agricultural information for the digitization project; the University of Arizona Libraries, the College of Agriculture and Life Sciences, and the Office of Arid Lands Studies collaborated in the selection and provision of material for the digitization project.

Fruit -- Preservation.

Vegetables -- Preservation.

Meat -- Preservation.

Improved moisture permeability determinations for packaging films and food coatings

Tello-Lopez, Edgar Eduardo

18 February 1994

Equipment and procedures for the rapid measurement of the water vapor permeability of polymer films and food coatings has been evaluated. The method uses an electronic sensor to measure the concentration increase in water vapor diffusing through a film into a chamber of known volume. Air of known humidity is passed over each side of the film to establish a desired equilibrium relative humidity differential prior to each test. Experimental results showed that moisture vapor transmission rates of polymer packaging films and edible coatings could be determined in a range from 0.25 to 12 hours instead of the usual 24 hour period required by existing tests. Permeance values for Teflon, high density polyethylene (HDPE), polyethylene terephtalate (PET) and three coating materials were measured at relative humidity differentials between 0 - 100% and temperatures between 5 and 30°C. Results were found to be similar to values reported in the literature using standard measurement methods. This method allows the measurement of film and coating permeance values at temperature and relative humidity values close to actual food storage conditions. / Graduation date: 1994

Plastic films -- Permeability -- Testing

Fruit -- Preservation

Vegetables -- Preservation

The effect of processing techniques on the microbiological and nutritional qualities of the leafy vegetables Vigna unguiculata and Moringa oleifera grown in South Africa

Otun, Oluwatobi Sarah

02 1900

Cowpea (Vigna unguiculata) and moringa (Moringa oleifera) are nutritious and medicinal vegetables, but could also harbor harmful microbial contaminants. The main aim of the project was to determine the effect of each processing techniques on the microbiology, proximate nutrients and shelf life of these vegetables to produce nutritious, tasty, safe and long lasting vegetable products. The processing techniques used were: washing, blanching, and drying. Leaf samples were collected at each stage of processing and were analysed for total viable count, coliform count, yeast and mould count and nutritional content. Microbial plate analysis showed the presence, particularly on cowpea leaves, of yeasts and bacteria such as Pseudomonas, Klebsiella, Staphylococci, Streptococci, and enterobacter including enteropathogens such as Salmonella spp., Shigella dysenteriae and E coli. The presence of E.coli on the leaves was also confirmed using polymerase chain reaction-amplified ribosomal DNA analysis. The most effective processing technique which reduced microbial load to below SABS standards while retaining nutritional quality was the washing of the leaves twice with tap water followed by steam tunnel blanching at 94oC for 12 minutes. Oven drying the leaves at 60oC gave satisfactory and extended shelf life results. Proximate analysis comparison of the two leaf types showed that on average moringa leaves contained more ash (2.37 vs 1.1 g), protein (6,9 vs 3,6 g), fat (0,41 vs 0.2 g) and energy (305,1 vs 70KJ) but less dietary fibre (0,9 vs 7,5 g) than cowpea leaves. No significant differences were noted in these values following washing and steam blanching. These results indicate that washing of these leaves is effective as to reducing microbial load and maintaining proximate values in the short term (up to 4 days) but that oven drying is effective for longer-term storage. / Life and Consumer Sciences / M. Sc. (Life Sciences)

Cowpea

Moringa

Vegetables

Nutritional content

Microbiological analysis

Processing techniques

Pathogen

Coliform

Yeast

Shelf life

664.8050968

Cowpea -- South Africa

Moringa oleifera -- South Africa

Vegetables -- Processing -- South Africa

Botanical chemistry -- South Africa

Vegetables -- Physiology -- South Africa

Vegetables -- South Africa -- Analysis

Microbial contamination -- South Africa

The effect of processing techniques on the microbiological and nutritional qualities of the leafy vegetables Vigna unguiculata and Moringa oleifera grown in South Africa

Otun, Oluwatobi Sarah

02 1900

Cowpea (Vigna unguiculata) and moringa (Moringa oleifera) are nutritious and medicinal vegetables, but could also harbor harmful microbial contaminants. The main aim of the project was to determine the effect of each processing techniques on the microbiology, proximate nutrients and shelf life of these vegetables to produce nutritious, tasty, safe and long lasting vegetable products. The processing techniques used were: washing, blanching, and drying. Leaf samples were collected at each stage of processing and were analysed for total viable count, coliform count, yeast and mould count and nutritional content. Microbial plate analysis showed the presence, particularly on cowpea leaves, of yeasts and bacteria such as Pseudomonas, Klebsiella, Staphylococci, Streptococci, and enterobacter including enteropathogens such as Salmonella spp., Shigella dysenteriae and E coli. The presence of E.coli on the leaves was also confirmed using polymerase chain reaction-amplified ribosomal DNA analysis. The most effective processing technique which reduced microbial load to below SABS standards while retaining nutritional quality was the washing of the leaves twice with tap water followed by steam tunnel blanching at 94oC for 12 minutes. Oven drying the leaves at 60oC gave satisfactory and extended shelf life results. Proximate analysis comparison of the two leaf types showed that on average moringa leaves contained more ash (2.37 vs 1.1 g), protein (6,9 vs 3,6 g), fat (0,41 vs 0.2 g) and energy (305,1 vs 70KJ) but less dietary fibre (0,9 vs 7,5 g) than cowpea leaves. No significant differences were noted in these values following washing and steam blanching. These results indicate that washing of these leaves is effective as to reducing microbial load and maintaining proximate values in the short term (up to 4 days) but that oven drying is effective for longer-term storage. / Life and Consumer Sciences / M. Sc. (Life Sciences)

Cowpea

Moringa

Vegetables

Nutritional content

Microbiological analysis

Processing techniques

Pathogen

Coliform

Yeast

Shelf life

664.8050968

Cowpea -- South Africa

Moringa oleifera -- South Africa

Vegetables -- Processing -- South Africa

Botanical chemistry -- South Africa

Vegetables -- Physiology -- South Africa

Vegetables -- South Africa -- Analysis

Microbial contamination -- South Africa