The aim of this experiment was to study the effects of dietary supplementation of mannan oligosaccharides (MOS), extracted from yeast Saccharomyces cerevisiae and acidifier calcium formate (CF) on some performance...The aim of this experiment was to study the effects of dietary supplementation of mannan oligosaccharides (MOS), extracted from yeast Saccharomyces cerevisiae and acidifier calcium formate (CF) on some performance parameters and egg quality characteristics of Japanese quail (Coturnixjaponica). During the experimental period, which lasted 90 days, one hundred eighty three, 42-day-old quail, were distributed into 4 groups of 3 replications each and were placed in separate wire suspended cages. The birds of control group received a commercial feed, while the birds of the other 3 groups received the same feed, to which either 6 g CF kg^-1 or 1 g MOS kg^-1 or both 6 g CF kg^-1 plus 1 g MOS kg^-1 were added. The live weight, feed consumption, feed conversion ratio and mortality of birds were not significantly affected. The addition of MOS in the feed significantly (P 〈 0.05) increased palmitic acid percentage of egg yolk. Also, the addition of CF significantly (P 〈 0.05) decreased egg shape index and palmitic acid percentage of egg yolk. Furthermore, significant (P 〈 0.05) interaction between MOS and CF was observed on palmitic acid percentage, egg shape index and egg shell thickness. No significant effect was observed for egg: weight, specific weight, parts percentage (yolk, albumen, shell), shell deformation, yolk diameter and yolk colour (L*a*b* colour space).展开更多
Three hundred, one-day-old Japanese quail (Coturnixjaponica) divided into four groups, with three subgroups each, were fed a basal diet that served as control, or a basal diet containing 6 g calcium formate (CF)/k...Three hundred, one-day-old Japanese quail (Coturnixjaponica) divided into four groups, with three subgroups each, were fed a basal diet that served as control, or a basal diet containing 6 g calcium formate (CF)/kg or 2 g mannan oligosaccharides (MOS)/kg or both 6 g CF/kg plus 2 g MOS/kg. On 21st and 42nd days the pH of the quail crop, proventriculus, gizzard, duodenum, jejunum, ileum, large intestine and ceca were measured in situ and the total aerobic bacteria, lactic acid bacteria, Enterobacteriaceae and coliforms counts of the cecal content were recorded. Results showed that MOS decreased the cecal pH on the 42nd day and the total aerobic bacteria counts on 21st day. Moreover, CF decreased the cecal pH on the 42nd day and the lactic acid bacteria counts on 21st day. Interaction between MOS and CF was noticed on the cecal pH on the 42nd day, as the combined dietary addition of MOS and CF resulted in lower pH, compared to each separate addition. Also, interaction was noticed on the cecal bacterial counts on the 21st day, as the combined dietary addition of MOS and CF resulted in lower total aerobic bacteria, Enterobacteriacea and coliform counts, compared to each separate addition.展开更多
SO2 in flue gas needs to be eliminated to alleviate air pollution. As the quality of coal decreases and environmental standard requirements become more stringent, the highefficiency desulfurization of flue gas faces m...SO2 in flue gas needs to be eliminated to alleviate air pollution. As the quality of coal decreases and environmental standard requirements become more stringent, the highefficiency desulfurization of flue gas faces more and more challenges. As an economical and environmentally friendly solution, the effect of calcium formate as an additive on desulfurization efficiency in the wet flue gas desulfurization(WFGD) process was studied for the first time. Improvement of the desulfurization efficiency was achieved with limited change in p H after calcium formate was added into the reactor, and it was found to work better than other additives tested. The positive effects were further verified in a power plant, which showed that adding calcium formate could promote the dissolution of calcium carbonate, accelerate the growth of gypsum crystals and improve the efficiency of desulfurization. Thus, calcium formate was proved to be an effective additive and can potentially be used to reduce the amount of limestone slurry required, as well as the energy consumption and operating costs in industrial desulfurization.展开更多
To investigate the formation mechanism of calcium hexaluminate(CaAl_(12)O_(19), CA_6), the analytically pure alumina and calcia used as raw materials were mixed in CaO/Al_2O_3 ratio of 12.57:137.43 by mass. The...To investigate the formation mechanism of calcium hexaluminate(CaAl_(12)O_(19), CA_6), the analytically pure alumina and calcia used as raw materials were mixed in CaO/Al_2O_3 ratio of 12.57:137.43 by mass. The raw materials were ball-milled and shaped into green specimens, and fired at 1300-1600°C. Then, the phase composition and microstructure evolution of the fired specimen were studied, and a first principle calculation was performed. The results show that in the reaction system of CaO and Al_2O_3, a small amount of CA_6 forms at 1300°C, and greater amounts are formed at 1400°C and higher temperatures. The reaction is as follows: CaO ·2Al_2O_3(CA_2) + 4Al_2O_3 → CA_6. The diffusions of Ca^(2+) in CA_2 towards Al_2O_3 and Al^(3+) in Al_2O_3 towards CA_2 change the structures in different degrees of difficulty. Compared with the difficulty of structural change and the corresponding lattice energy change, it is deduced that the main formation mechanism is the diffusion of Ca^(2+) in CA_2 towards Al_2O_3.展开更多
To improve the osteogenic property of bone repairing materials and to accelerate bone healing are major tasks in bone biomaterials research. The objective of this study was to investigate if the mechanical force could...To improve the osteogenic property of bone repairing materials and to accelerate bone healing are major tasks in bone biomaterials research. The objective of this study was to investigate if the mechanical force could be used to accelerate bone formation in a bony defect in vivo. The calcium sulfate cement was implanted into the left distal femoral epiphyses surgically in 16 rats. The half of rats were subjected to external mechanical force via treadmill exercise, the exercise started at day 7 postoperatively for 30 consecutive days and at a constant speed 8 m·min-1 for 45 min·day-1, while the rest served as a control. The rats were scanned four times longitudinally after surgery using microcomputed tomography and newly formed bone was evaluated. After sacrificing, the femurs had biomechanical test of three-point bending and histological analysis. The results showed that bone healing under mechanical force were better than the control with residual defect areas of 0.64±0.19 mm2 and 1.78±0.39 mm2(P〈0.001), and the ultimate loads to failure under mechanical force were 69.56±4.74 N, stronger than the control with ultimate loads to failure of 59.17±7.48 N(P=0.039). This suggests that the mechanical force might be used to improve new bone formation and potentially offer a clinical strategy to accelerate bone healing.展开更多
文摘The aim of this experiment was to study the effects of dietary supplementation of mannan oligosaccharides (MOS), extracted from yeast Saccharomyces cerevisiae and acidifier calcium formate (CF) on some performance parameters and egg quality characteristics of Japanese quail (Coturnixjaponica). During the experimental period, which lasted 90 days, one hundred eighty three, 42-day-old quail, were distributed into 4 groups of 3 replications each and were placed in separate wire suspended cages. The birds of control group received a commercial feed, while the birds of the other 3 groups received the same feed, to which either 6 g CF kg^-1 or 1 g MOS kg^-1 or both 6 g CF kg^-1 plus 1 g MOS kg^-1 were added. The live weight, feed consumption, feed conversion ratio and mortality of birds were not significantly affected. The addition of MOS in the feed significantly (P 〈 0.05) increased palmitic acid percentage of egg yolk. Also, the addition of CF significantly (P 〈 0.05) decreased egg shape index and palmitic acid percentage of egg yolk. Furthermore, significant (P 〈 0.05) interaction between MOS and CF was observed on palmitic acid percentage, egg shape index and egg shell thickness. No significant effect was observed for egg: weight, specific weight, parts percentage (yolk, albumen, shell), shell deformation, yolk diameter and yolk colour (L*a*b* colour space).
文摘Three hundred, one-day-old Japanese quail (Coturnixjaponica) divided into four groups, with three subgroups each, were fed a basal diet that served as control, or a basal diet containing 6 g calcium formate (CF)/kg or 2 g mannan oligosaccharides (MOS)/kg or both 6 g CF/kg plus 2 g MOS/kg. On 21st and 42nd days the pH of the quail crop, proventriculus, gizzard, duodenum, jejunum, ileum, large intestine and ceca were measured in situ and the total aerobic bacteria, lactic acid bacteria, Enterobacteriaceae and coliforms counts of the cecal content were recorded. Results showed that MOS decreased the cecal pH on the 42nd day and the total aerobic bacteria counts on 21st day. Moreover, CF decreased the cecal pH on the 42nd day and the lactic acid bacteria counts on 21st day. Interaction between MOS and CF was noticed on the cecal pH on the 42nd day, as the combined dietary addition of MOS and CF resulted in lower pH, compared to each separate addition. Also, interaction was noticed on the cecal bacterial counts on the 21st day, as the combined dietary addition of MOS and CF resulted in lower total aerobic bacteria, Enterobacteriacea and coliform counts, compared to each separate addition.
基金supported by the Hi-Tech Research and Development Program (863) of China (No. 2012AA06A113)
文摘SO2 in flue gas needs to be eliminated to alleviate air pollution. As the quality of coal decreases and environmental standard requirements become more stringent, the highefficiency desulfurization of flue gas faces more and more challenges. As an economical and environmentally friendly solution, the effect of calcium formate as an additive on desulfurization efficiency in the wet flue gas desulfurization(WFGD) process was studied for the first time. Improvement of the desulfurization efficiency was achieved with limited change in p H after calcium formate was added into the reactor, and it was found to work better than other additives tested. The positive effects were further verified in a power plant, which showed that adding calcium formate could promote the dissolution of calcium carbonate, accelerate the growth of gypsum crystals and improve the efficiency of desulfurization. Thus, calcium formate was proved to be an effective additive and can potentially be used to reduce the amount of limestone slurry required, as well as the energy consumption and operating costs in industrial desulfurization.
基金financially supported by the National Nature Science Foundation of China(No.51172120)
文摘To investigate the formation mechanism of calcium hexaluminate(CaAl_(12)O_(19), CA_6), the analytically pure alumina and calcia used as raw materials were mixed in CaO/Al_2O_3 ratio of 12.57:137.43 by mass. The raw materials were ball-milled and shaped into green specimens, and fired at 1300-1600°C. Then, the phase composition and microstructure evolution of the fired specimen were studied, and a first principle calculation was performed. The results show that in the reaction system of CaO and Al_2O_3, a small amount of CA_6 forms at 1300°C, and greater amounts are formed at 1400°C and higher temperatures. The reaction is as follows: CaO ·2Al_2O_3(CA_2) + 4Al_2O_3 → CA_6. The diffusions of Ca^(2+) in CA_2 towards Al_2O_3 and Al^(3+) in Al_2O_3 towards CA_2 change the structures in different degrees of difficulty. Compared with the difficulty of structural change and the corresponding lattice energy change, it is deduced that the main formation mechanism is the diffusion of Ca^(2+) in CA_2 towards Al_2O_3.
基金supported in part by the Natural Science Foundation of China under the grants of 11072165,31270995 and 81320108018
文摘To improve the osteogenic property of bone repairing materials and to accelerate bone healing are major tasks in bone biomaterials research. The objective of this study was to investigate if the mechanical force could be used to accelerate bone formation in a bony defect in vivo. The calcium sulfate cement was implanted into the left distal femoral epiphyses surgically in 16 rats. The half of rats were subjected to external mechanical force via treadmill exercise, the exercise started at day 7 postoperatively for 30 consecutive days and at a constant speed 8 m·min-1 for 45 min·day-1, while the rest served as a control. The rats were scanned four times longitudinally after surgery using microcomputed tomography and newly formed bone was evaluated. After sacrificing, the femurs had biomechanical test of three-point bending and histological analysis. The results showed that bone healing under mechanical force were better than the control with residual defect areas of 0.64±0.19 mm2 and 1.78±0.39 mm2(P〈0.001), and the ultimate loads to failure under mechanical force were 69.56±4.74 N, stronger than the control with ultimate loads to failure of 59.17±7.48 N(P=0.039). This suggests that the mechanical force might be used to improve new bone formation and potentially offer a clinical strategy to accelerate bone healing.
