Soybeans ans black-eyed peas, chosen as test samples of dry beans, were subjected to soaking and cooking treatments to develop quick cookig methods and study their effects on quality of cooked products. The results of the study are summarized as follow: 1. Of the soaking methods tested, soaking soybeans in 3% sodium bicarbonate (SBC) solution and black-eyed peas in 0.5-1% SBC solution followed by cooking them in water at $95-100^{\circ}C$ required 40 minutes and 10 minutes of cooking time, respectively. When compared to 180 minutes of cooking time for soybeans and 40 minutes of that for black-eyed peas by conventional cooking method (Control), soaking dry beans in optimum SBC solutions reduced cooking time by over 80%. 2. Among cooking methods tested, steam cooking at $121^{\circ}C$ was the most effective one in reducing cooking time of soybeans (15 min.). Black-eyed peas sacked in water required 6 minutes of cooking time in 1% SBC solution at $95-100^{\circ}C$, and 5 minutes of that in steam at $121^{\circ}C$. 3. Quality of cooked beans with optimum texture was evaluated by sensory panel and Gardner Color Difference Meter. Beans cooked in steam at $121^{\circ}C$ had better overall quality than those cooked by other methods. Beans soaked in optimum SBC solution had quality as good as control, whereas beans cooked in SBC solution had worse quality than control. 4. These results indicated that cooking time of soybeans could be drastically reduced by either steam cooking at $121^{\circ}C$ or soaking in 3% SBC solution followed by cooking in water at $95-100^{\circ}C$. Cooking time of black-eyed peas could be significantly shortened by either steam cooking at $121^{\circ}C$ or soaking in 0.5-1% SBC solution followed by cooking in water at $95-100^{\circ}C$.
Journal of the Korean Society of Food Science and Nutrition
/
v.27
no.4
/
pp.668-674
/
1998
Physico-chemical qualities of pyunyuk depending on the cooking time were evaluated to produce high quality and to reduce labor and processing time. Pork headmeat divided into two parts was cooked for 1~4hrs, trimmed and pressed with 110kg/$\textrm{cm}^2$(gauge pressure) for 3.5hrs at 1$0^{\circ}C$. The contents of general nutrients, yield, texture, color, fatty acid composition, gel structure, and sensory evaluation were observed. Deboning time was very dependent on cooking time. Optimum cooking time observed in this study was 2~2.5hrs for efficiency of deboning and yield. Excess cooking time resulted in low yield and working efficiency. Yield variation depending on the cooking time was 14.3~26.0% and it was reduced by increasing the cooking time. The content of moisture was 53.5~54.8% which was not significantly different by cooking time. The content of crude fat was 14.2~26.0% which was decreased by increasing the cooking time. The contents of crude protein(21.1~26.3%) and mineral(1.4~2.7%) were increased by increasing the cooking time. The color of pyunyuk was significantly different by cooking time(p<0.05). In the texture, hardness and chewiness of the pyunyuk cooked for 2hrs were significantly higher than others processed in this study(p<0.05). However cohesiveness and springiness were not different among pyunyuks. With sensory evaluation, hardness was similar among the pyunyuks cooked over 2hrs. The pyunyuk cooked for 1hr showed higher value in juiciness than the pyunyuk cooked for 3~4hrs(p<0.05). The % of saturated fatty acids was decreased by increasing the cooking time, and gel structure of pyunyuk cooked for 2hrs was the most compact among treaments. In conclusion, 2hrs was proper as a cooking time concerned with working efficiency and physico-chemical quality of pyunpyk.
Kim, Sung-Su;Lee, Yee Eun;Kim, Cho Hyun;Min, Joong-Seok;Yim, Dong Gyun;Jo, Cheorun
Food Science of Animal Resources
/
v.42
no.2
/
pp.332-340
/
2022
The objective of this study was to determine the optimal cooking time by considering the cooking loss, shear force, and off-odor reduction of pork large intestines. Commercial pork large intestines were purchased, quartered perpendicularly, and cooked in boiling water for 40, 120, 180, and 240 min. Cooking loss of the samples increased after 240 min of cooking (10.92, p<0.05) while shear force value was lower at 240 min (4.45) compared to that at other cooking times (p<0.001). The amount of major volatile organic compounds showed a decreasing trend with increasing cooking time. In particular, the amount of methyl pentanoate (17,528.71) and methyl isobutyrate (812.51), compounds with a relatively low odor threshold, decreased significantly after 120 min of cooking and no change was observed thereafter (p<0.05). In addition, the amount of 2-pentanol (3,785.65) and 1-propanol (622.26), possibly produced by lipid oxidation, significantly decreased at the same cooking time (p<0.001). In the principal component analysis, only the 40 min cooking time was significantly different from other cooking time by high amounts of 1-propanol, 2-pentanol, and methyl isobutyrate. In conclusion, in the present study, the optimal cooking time for pork large intestines was 120 min in terms of off-odor reduction, cooking loss, and shear force.
Purpose: High energy requirement and long cooking time are limiting consumption of pigeon pea (Cajanus cajan), a nutritious food. This study was performed to estimate energy and time demand by different methods of cooking pigeon pea. Methods: Pigeon pea (150 g) was soaked in 2.0 L of water at ambient temperature ($29{\pm} 2^{\circ}C$) to determine hydration behavior. Cooking experiments were conducted using aluminum and pressure-cooking pots. Efficiency of cooking was evaluated using four types of cooking appliances (kerosene, liquefied petroleum gas (LPG), electric, and charcoal stoves). Normal (continuous heating until the food was satisfactorily cooked) and control (controlling the energy input to closely match the actual energy required) cooking were conducted. Energy requirement and duration of cooking were determined using standard procedures. Results: Soaking increased moisture content from 11.99 to 30.01% in 90 min, while water absorption rate decreased with soaking duration. In cooking 150 g of pigeon pea using kerosene stove, presoaked normal pressure-pot cooking method consumed the least energy (10 800 kJ) and time (205 min), while unsoaked normal cooking consumed the highest energy (18 450 kJ) and time (336 min). Using LPG stove, unsoaked normal cooking method required the highest energy (52 470 kJ), while presoaked control pressure-pot required the least energy (14 405 kJ). For electric stove, the lowest energy (15 560 kJ) and shortest duration (105 min) were recorded during control cooking of presoaked sample in the pressure-pot. Conclusions: Control cooking was not practicable using charcoal stove. Generally, kerosene stove consumed the least energy, while electric stove was found to have the shortest duration of cooking.
This article try to show the results from three cooking methods of a steak in 150 g by way of roasting cooking, braising cooking, microwave cooking. I observed the cooking time, standing time and post processing temperature rice of three steaks coming to 70 $^{\circ}C$ by means of roasing, braising and microwave, respectively, The results are shown in the followings: It is shown that Microwave cooking takes the shortest cooking time and the longest standing time in each cooking intervals and also shows the high level of losses and that of drip losses as well. It is concluded that there are not much differences among the ingredients of steaks cooked in three methods but the steak cooked in microwave cooking method is shown to be low in fat containment of it.
Dong-Min Shin;Jong Hyeok Yune;Dong-Hyun Kim;Sung Gu Han
Animal Bioscience
/
v.36
no.10
/
pp.1596-1603
/
2023
Objective: Sous-vide cooking offers several advantages for poultry meat, including enhanced tenderness, reduced cooking loss, and improved product yield. However, in duck meat, there are challenges associated with using the sous-vide method. The prolonged cooking time at low temperatures can lead to unstable microbial and oxidative stabilities. Thus, we aimed to assess how varying sous-vide cooking temperatures and durations affect the physicochemical and microbial characteristics of duck breast meat, with the goal of identifying an optimal cooking condition. Methods: Duck breast meat (Anas platyrhynchos) aged 42 days and with an average weight of 1,400±50 g, underwent cooking under various conditions (ranging from 50℃ to 80℃) for either 60 or 180 min. Then, physicochemical, microbial, and microstructural properties of the cooked duck breast meat were assessed. Results: Different cooking conditions affected the quality attributes of the meat. The cooking loss, lightness, yellowness, Hue angle, whiteness, and thiobarbituric acid reactive substance (TBARS) values of the duck breast meat increased with the increase in cooking temperature and time. In contrast, the redness and chroma values decreased with the increase in cooking temperature and time. Cooking of samples higher than 60℃ increased the volatile basic nitrogen contents and TBARS. Microbial analysis revealed the presence of Escherichia coli and Coliform only in the samples cooked at 50℃ and raw meat. Cooking at lower temperature and shorter time increased the tenderness of the meat. Microstructure analysis showed that the contraction of myofibrils and meat density increased upon increasing the cooking temperature and time. Conclusion: Our data indicate that the optimal sous-vide method for duck breast meat was cooking at 60℃ for 60 min. This temperature and time conditions showed good texture properties and microbial stability, and low level of TBARS of the duck breast meat.
The effect of freezing on cooking times, tastes and microstructures of beans were examined. Freezing was effective in shortening of cooking time and improving of the taste: while the cooking time was reduced to one-half by freezing, textures, flavors and overall acceptabilities of black bean and soybean were improved by freezing. A high correlation was found between sensory texture and Instron puncture force, and sensory texture was predictable from puncture force using equation. The microstructure of cotyledonary cells of soybean was characterized with thick cell wall and no difference was observed between frozen and non-frozen soybean. But the spherosome enclosing the protein body was destructed by freezing.
Journal of the Korean Society of Food Science and Nutrition
/
v.19
no.3
/
pp.195-200
/
1990
Effects of cooking time(5-30 min in a pressure cooker) and HTST air dehydratiion time(0-9min at 15$0^{\circ}C$) on physical properties of dried green peas(3% oisture content wet basis) were investigated by determining rehydration ratio rehydration curve browning reaction and puncture force, The rehydration ratio and curve of dried green peas were increased with increa-sing cooking time and HTST air dehydration time. Preheating of the green peas for 30 min in a pressure cooker or for 9 min of HTST air dehydration time prior to 6$0^{\circ}C$ air dehydration recovered a 87.3% of original moisture content of raw green peas in a boiling water for 5 min. The brownin greaction was gradually decreased up to 15 min of cooking time. Puncture pressure of rehydrated green peas treated in a boiling water for 5 min was decreased as the cooking time and HTST air dehydration time were increased and was highly correlated with rehydration (r=-0.956) The effects of cooking time and HTST air dehydration time on rehydration ratio browning reaction and puncture pressure were significantly different at the a=0.01 level except effect of HTST air dehydration time on browning reaction.
The temperature changes of dumpling(mandu) during cooking process were examined and the effects of time-temperature and/or time-size interactions on internal temperature were studied. Mandu was purchased from local markets and classified by its weight(small, medium, and large). Boiling, steaming, pan frying, and deep fat frying were adopted. Internal temperature was measured with a food thermometer in every one minute. The internal temperature of mandu increased over time in every cooking process(p<0.05). After three minutes the internal temperature of mandu in boiling, pan frying, and deep fat frying reached over at $74^{\circ}C$, which is high enough temperature to kill the harmful bacteria, but not in steaming. The internal temperature of mandu was significantly affected by cooking time, size, and both in boiling, steaming, and deep fat frying(p<0.05). There were significant differences between the internal and surface temperatures of mandu in the cooking processes except pan frying in three minutes(p<0.05). The results of this study indicate three minutes' cooking of the mandu by boiling, pan frying, and deep fat frying is safe enough to eat. However, longer steaming time is needed in order to reach safe temperature. This study also indicates the cooking time and size of mandu appear to be major factors in determining the internal temperature achieved at $74^{\circ}C$. More research is needed to check time to reach a safe temperature in the cooking process of mandu by steaming.
This study examined the optimal cooking condition for surimi-like material (SLM) derived from porcine semimembranosus (SM) muscle and the effects of the various cooking temperatures and the cooking time on the gel properties. The most noticeable change that occurred during the preparation of the SLM from the SM was the reduction in the fat content (about 1%) during the washing procedures. The hardness and gel strength value were increased significantly as the cooking temperature was increased by $75^{\circ}C$ for 20 min (p<0.05). The SLMG cooked above $75^{\circ}C$ had a significantly higher WHC than the SLMG cooked below $75^{\circ}C$ (p<0.05). The gelling property of SLMG was effected for different conditions of cooking time and temperatures by the result of SDS-PAGE. After 20 min cooking, some enzyme bands including phosphorylase disappeared. The loss of these bands (about 46 kDa and 60 kDa) was observed after 20 min of cooking time. The photographs of microscopy showed that the filaments of myofibrils did not disappear after a cooking time of 15 min, and that the gaps between the fibers or filament were close. A significant change in the fibers and filaments occurred from 30 min to 35 min of cooking time, and the gradual coagulation of the structure of the SLM was observed with cooking time increased. These results suggest that a desirable surimi gel could be obtained from pork by cooking at $75^{\circ}C$ for 25 min.
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