Objective] The effect of nutrition synergist was evaluated. [Method] The experiment was conducted to study the effect of nutrient synergist on the yield and quality of sweet corn as tested material. [Result] The resul...Objective] The effect of nutrition synergist was evaluated. [Method] The experiment was conducted to study the effect of nutrient synergist on the yield and quality of sweet corn as tested material. [Result] The result showed that during jointing stage, CropbiolifeTM nutrient synergist could increase the content of chloro-phyl and total nitrogen in the leaves of sweet corn by 8.45% and 4.22%, respec-tively; Compared with control, at harvest time the contents of VC soluble protein, crude protein in sweet corn fruits were raised by 15.68%, 8.45%, and 4.22%, re-spectively, and yield of sweet corn also increased by 12.89%. [Conclusion] The nu-trient synergist can improve the corn yield and quality.展开更多
This paper describes the improvement of leading edge film cooling effectiveness for a turbine inlet guide vane by using fan-shaped film cooling holes. The modification details are presented in comparison with the base...This paper describes the improvement of leading edge film cooling effectiveness for a turbine inlet guide vane by using fan-shaped film cooling holes. The modification details are presented in comparison with the base-line configuration of cylindrical holes. Numerical simulations were carried out for the base-line and modified configurations by using CFX, in which the k-ε turbulence model and scalable wall function were chosen. Contours of adiabatic film cooling effectiveness on the blade surfaces and span-wise distributions of film cooling effectiveness downstream the rows of cooling holes interested for the different cooling configurations were compared and discussed. It is showed that with the use of fan-shaped cooling holes around the leading edge, the adiabatic film cooling effectiveness can be enhanced considerably. In comparison with the cylindrical film cooling holes, up to 40% coolant mass flow can be saved by using fan-shaped cooling holes to obtain the comparable film cooling effectiveness for the studied inlet guide vane.展开更多
文摘Objective] The effect of nutrition synergist was evaluated. [Method] The experiment was conducted to study the effect of nutrient synergist on the yield and quality of sweet corn as tested material. [Result] The result showed that during jointing stage, CropbiolifeTM nutrient synergist could increase the content of chloro-phyl and total nitrogen in the leaves of sweet corn by 8.45% and 4.22%, respec-tively; Compared with control, at harvest time the contents of VC soluble protein, crude protein in sweet corn fruits were raised by 15.68%, 8.45%, and 4.22%, re-spectively, and yield of sweet corn also increased by 12.89%. [Conclusion] The nu-trient synergist can improve the corn yield and quality.
基金supported by the National 973 Program of China through grant number 2007CB210108
文摘This paper describes the improvement of leading edge film cooling effectiveness for a turbine inlet guide vane by using fan-shaped film cooling holes. The modification details are presented in comparison with the base-line configuration of cylindrical holes. Numerical simulations were carried out for the base-line and modified configurations by using CFX, in which the k-ε turbulence model and scalable wall function were chosen. Contours of adiabatic film cooling effectiveness on the blade surfaces and span-wise distributions of film cooling effectiveness downstream the rows of cooling holes interested for the different cooling configurations were compared and discussed. It is showed that with the use of fan-shaped cooling holes around the leading edge, the adiabatic film cooling effectiveness can be enhanced considerably. In comparison with the cylindrical film cooling holes, up to 40% coolant mass flow can be saved by using fan-shaped cooling holes to obtain the comparable film cooling effectiveness for the studied inlet guide vane.
