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Cooking Process (cooking + process)
Selected AbstractsExtrusion Cooking Process for Amaranth (Amaranthus caudatus L.)JOURNAL OF FOOD SCIENCE, Issue 6 2000R.N. Chávez-Jáuregui ABSTRACT: Amaranth (Amaranthus caudatus L.) extrusion was optimized by response surface methodology (RSM). Response (dependent) variables were: expansion ratio, shearing strength, and sensory texture acceptability. Independent variables were processing temperature and feed moisture. All other process variables (screw speed, screw compression ratio, feed speed, and die diameter) were kept constant (200 rpm, 70 g.min,1, and 3 mm, respectively). The most expanded products also had the best texture and were obtained at 150 °C and 15% moisture. These conditions resulted in greater expansion, greater shearing force of extrudates, greater extrudate surface area per unit weight, and reduced shearing stress at maximum shearing force. This study showed that under conditions that induced the maximum expansion ratio, extrusion produced a highly acceptable snack product based on amaranth flour. [source] Cooking DNA: the effect of ,domestic' cooking methods on detection of GM potatoINTERNATIONAL JOURNAL OF FOOD SCIENCE & TECHNOLOGY, Issue 12 2008Loraine Van Der Colff Summary The ability to detect GM material in otherwise unprocessed foods cooked using domestic methods is important should ,ready-to-eat' foods require labelling. This study addresses the issue of DNA degradation in foods as a result of cooking. A number of ,domestic' cooking methods were shown to affect the length of DNA sequences able to be PCR amplified from potato samples and the degree of degradation was treatment-specific. However, a. real-time PCR assay was developed and. GM material was positively identified in all cooked GM potato samples. This confirms that GM material should be able to be detected in otherwise unprocessed food samples cooked using domestic methods, even if the cooking process has partially degraded the DNA. Results indicate, however, that there may be implications of the cooking process on the ability to accurately quantify GM content in some cooked samples. [source] Flavour retention during high temperature short time extrusion cooking process: a reviewINTERNATIONAL JOURNAL OF FOOD SCIENCE & TECHNOLOGY, Issue 5 2001Bhesh Bhandari Research on the stability of flavours during high temperature extrusion cooking is reviewed. The important factors that affect flavour and aroma retention during the process of extrusion are illustrated. A substantial number of flavour volatiles which are incorporated prior to extrusion are normally lost during expansion, this is because of steam distillation. Therefore, a general practice has been to introduce a flavour mix after the extrusion process. This extra operation requires a binding agent (normally oil), and may also result in a non-uniform distribution of the flavour and low oxidative stability of the flavours exposed on the surface. Therefore, the importance of encapsulated flavours, particularly the ,-cyclodextrin-flavour complex, is highlighted in this paper. [source] Taurine concentrations in animal feed ingredients; cooking influences taurine contentJOURNAL OF ANIMAL PHYSIOLOGY AND NUTRITION, Issue 7-8 2003A. R. Spitze Summary The aim of this study was to determine the taurine content in a variety of animal feeds. There is very little information on the taurine content of ingredients used in home-prepared diets for dogs and cats, and foods fed to wild animals in captivity. This study reports the taurine content of both common and alternative feed ingredients, and compares taurine loss as a result of different methods of food preparation. Foods were selected based on their use in commercial and home-prepared diets. Animal muscle tissue, particularly marine, contained high taurine concentrations. Plant products contained either low or undetectable amounts of taurine. The amount of taurine that remained in a feed ingredient after cooking depended upon the method of food preparation. When an ingredient was constantly surrounded by water during the cooking process, such as in boiling or basting, more taurine was lost. Food preparation methods that minimized water loss, such as baking or frying, had higher rates of taurine retention. [source] CORRELATING SHRINKAGE WITH YIELD, WATER CONTENT AND TEXTURE OF PORK HAM BY COMPUTER VISIONJOURNAL OF FOOD PROCESS ENGINEERING, Issue 3 2005CHENG-JIN DU ABSTRACT An automatic method for shrinkage evaluation of pork ham was developed using computer vision. First, a sequence of image-processing algorithms was developed to estimate the average diameter, short axis, long axis, perimeter, volume and surface area before and after cooking and cooling. This sequence consisted of three steps, i.e., shape extraction, protrusion deletion and measurement. Based on the estimated shape characteristics, three kinds of shrinkage were evaluated as the percentage change before and after a process, i.e., shrinkages caused by the cooking process, cooling process and total shrinkage during the entire cooking and cooling processes. Then the cooking shrinkage was related to cooking loss; the cooling shrinkage to cooling loss and the total shrinkage to yield, water content and texture. It was found that among the three shrinkages, the cooking shrinkage in volume was the highest with up to 9.36%, and was significantly correlated with cooking loss (r = 0.91). The total shrinkage was highly negatively correlated with water content, and had positive correlations with the texture attributes. However, no significant relationships were found between cooling shrinkage and cooling loss, and between total shrinkage and yield. [source] IDENTIFICATION OF CRITICAL CONTROL POINTS IN THE TWO SELECTED HACCP-CERTIFIED PRAWN PROCESSING UNITSJOURNAL OF FOOD QUALITY, Issue 2 2009PADMAJA R. JONNALAGADDA ABSTRACT A study on identification of critical control points in two export processing units indicated the contamination (cfu/g) of raw prawns with pathogenic fecal coliforms was <10,8 × 102 in Unit A, 1 × 101,1.3 × 102 in Unit B and 1 × 103,4 × 104 in pond to plate. The other microbial contaminants in Unit A and from Pond to Plate at different stages were Salmonella spp., 3 × 102,5.7 × 103 and 2 × 102,6 × 102; Staphylococcus aureus, 1.7 × 103,5.7 × 103 and 1 × 103 to 9 × 104; and Vibrio parahaemolyticus, 3 × 102,2 × 104 and 3 × 104,5 × 104, respectively. However, microbial contamination was significantly reduced to <10 after subjecting to household cooking process. PRACTICAL APPLICATIONS Implementation of hazard analysis critical control points (HACCPs) in the food industry is the most important approach to maintaining food safety. Identification of the critical control points in the HACCPs process will help the aquaculture industry to improve its production processes by applying good aquaculture and good hygienic practices at the production level. The study further provides clear insights into identifying critical control points both at the farm level and at the processing units that are important from farm to fork. [source] A NEW APPROACH TO CORRELATE TEXTURAL AND COOKING PARAMETERS WITH OPERATING CONDITIONS DURING DOUBLE-SIDED COOKING OF MEAT PATTIESJOURNAL OF TEXTURE STUDIES, Issue 5 2000SUSANA E. ZORRILLA Cooking and textural parameters during double-sided cooking of hamburger patties were correlated with volume-averaged temperature at the end of the cooking process and gap thickness between plates. Frozen patties were cooked in a clamshell grill set at different plate surface temperatures (177C; 191C; 204C; 218C), for different gap thicknesses (9.65 mm; 10.55 mm; 10.55 mm; 11.05 mm) for 120 s. A decrease in the gap thickness and an increase in the plate surface temperature resulted in an increase in the cooking loss values (24,36%) and in a decrease of press juice values (8,25%). The values of peak load (183,215 N), modulus (16,19 N/mm), work needed in shearing (2300,2800 Nmm), hardness (25,32 N), cohesiveness (0.76,0.83), and chewiness (107,152 Nmm) of the patties increased when the gap thickness decreased and the plate surface temperature increased. There was no effect of the variables studied on springiness. The correlation equations involving the operating variables and quality parameters obtained are simple and useful in developing optimal process conditions. [source] Impact of sorghum processing on phytate, phenolic compounds and in vitro solubility of iron and zinc in thick porridgesJOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE, Issue 5 2007AP Polycarpe Kayodé Abstract This study focussed on the impact of process variables on levels of phytate and phenolic compounds, and in vitro solubility of iron (Fe) and zinc (Zn) in sorghum porridges, a major staple in semi-arid tropics. The aim was to identify practices that enhance the mineral availability in this type of staple food. We studied the example of the West African porridge ,dibou' for which the processing methods involve grain cleaning, milling, sieving and cooking. Regional variations occur in the process, particularly in the cleaning which may be done wet or dry; sieving may be omitted in certain locations. Cleaning reduced the phytate content of the grain by 24,39%, while milling, sieving and cooking had no significant effect on phytate. Phenolic compounds measured as levels of reactive hydroxyl groups, remained constant after cleaning, milling and sieving, but significantly decreased by 38,65% after cooking. The Fe solubility tended to increase after cleaning but was drastically reduced due to cooking, and so was the soluble Zn. Levels of total phenolic compounds highly correlated with the Fe and Zn solubility (r2 = 0.73 and 0.82, respectively). Phenolic reaction products formed during the cooking process are presumably related with the extensive browning phenomenon observed in the dibou porridge, and with the reduction observed in Fe and Zn solubility. Copyright © 2007 Society of Chemical Industry [source] Performance analysis of a solar cooker in TurkeyINTERNATIONAL JOURNAL OF ENERGY RESEARCH, Issue 2 2002Galip Oturanç Abstract A box-type solar cooker is designed and its thermal performance is analysed experimentally. The cooker tracks the sun in two axes, altitude and sun azimuth, by hand control for hourly periods. The experimental results show that the tested cooker may be assumed suitable in some cooking processes for specific country conditions. Copyright © 2002 John Wiley & Sons, Ltd. [source] Stress corrosion cracking susceptibility of stainless steels in pulp cooking processes,online capillary electrophoresis, potentiostatic and chromatographic studiesMATERIALS AND CORROSION/WERKSTOFFE UND KORROSION, Issue 8 2008H. Leinonen Abstract An online high temperature capillary electrophoresis instrument (HotUCE), a potentiometer and an ion chromatograph were used in studies on corrosive ions and changes in potential at normal pulping process temperatures in experimental liquors modelling pulp cooking processes at mills. The aim was to evaluate the stress corrosion cracking (SCC) susceptibility of stainless steels. The HotUCE instrument and the potentiometer were online coupled with an autoclave, where welded duplex stainless steel samples were immersed for 500 h in simulated high ionic strength hot black liquor (HBL), hot white liquor (HWL) or green liquor (GL) at 130, 150 or 170,°C, respectively. The results showed that only minor amounts of oxidized sulphur compounds were formed. The concentrations of corrosive sulphur anions were calculated against sulphur standards. Amounts of sulphur species in the liquor correlated with the changes in the potential of the duplex stainless steel specimens during the cooking experiments. The formation of sulphite during cooking was greater in HWL than in HBL. Changes in the potential showed that reduction processes occurred during the SCC tests. The results indicate that the SCC risk is enhanced at higher temperatures, probably, due to the increased formation of thiosulphate. [source] | ||||||||||