A pot experiment has been conducted in Faculty of Agricultural and Forestry, Lath House of Horticultural Department, School of Plant Production, Duhok University during the growing season 2010-2011. The study consiste...A pot experiment has been conducted in Faculty of Agricultural and Forestry, Lath House of Horticultural Department, School of Plant Production, Duhok University during the growing season 2010-2011. The study consisted of testing the effects of four different growth media (Clay, Loam, Clay + sheep manure (1:1) and Loam + sheep manure (1:1) as volumetric rates on vegetative and flowering growth characters of five different cultivars of Hyacinths plant (Blue Giant, City of Haarlem, Jon Bos, Delf Blue and Fondante). The experiment was laid out in randomized complete block design (RCBD) of two factors in three replicates. Media mostly affected the parameters studied during the experiment. Early emergence (22.53 days) and flowering (73.13 days) was recorded in medium consisting of loam and sheep manure, while maximum plant height (19.75 cm), leaves number (6.13), leaf area (31.47 cm2) were recorded in clay medium. Maximum number of florets plant-l (31.93) and spike length (7.95 cm) were recorded in medium consist of clay and sheep manure. Maximum length of spike stem (9.61 cm) and total chlorophyll percentage (53.45%) were recorded for loam medium. Among the cultivars, some parameters showed significant variation. Early emergence (20.42 days), maximum plant height (20.35 cm), leaf area per plant (33.01 cm2) and length of spike stem (15.10 cm) were given by cv. Fondante. Maximum number of florets plantl (35.58) and spike lengths (8.63 cm) were recorded by cv. Blue Giant. High percentage of total chlorophyll (58.15%) was recorded in cv. Jon Bos..展开更多
Boundary layer separation and reattachment is often an unavoidable feature of low pressure (LP) turbine,one of the main causes of this phenomenon is the high altitude low Reynolds number experienced by the modern LP t...Boundary layer separation and reattachment is often an unavoidable feature of low pressure (LP) turbine,one of the main causes of this phenomenon is the high altitude low Reynolds number experienced by the modern LP turbine stage in aero-engine.Although an excellent turbine airfoil design can avoid flow separation on certain extent,but within flight envelope,LP turbine's characteristic Reynolds number may varied greatly,so it will be still under the risk of the presence of separation bubble.In this two parts paper a new concept of slotted-blade was raised to testify the gain of the blade slotting.A high aerodynamic loading LP turbine blade IET-LPTA was under investigated with different Reynolds number.Computational results reveal that the blade slotting could be a way of choice to suppress separation bubble and reduce profile loss under the condition of low Reynolds number,although its position and geometry need to be further investigated.展开更多
The concept of using blade slotting to suppress the large boundary layer separation of high aerodynamic loading low pressure turbine profile has been developed in Part 1.Calculated results highlight the inability perf...The concept of using blade slotting to suppress the large boundary layer separation of high aerodynamic loading low pressure turbine profile has been developed in Part 1.Calculated results highlight the inability performance accompanied with un-proper blade slotting at high Reynolds number,blade slotting optimization seems like compulsory.Meanwhile,to further dignify the rational for use of blade slotting,slotting position and its geometry needed to be optimized.Comparison of different slotting scheme calculation results promised that blade slotting parameter like outlet angle and outlet position are the most important parameters which must be investigated to satisfy the design purpose.展开更多
文摘A pot experiment has been conducted in Faculty of Agricultural and Forestry, Lath House of Horticultural Department, School of Plant Production, Duhok University during the growing season 2010-2011. The study consisted of testing the effects of four different growth media (Clay, Loam, Clay + sheep manure (1:1) and Loam + sheep manure (1:1) as volumetric rates on vegetative and flowering growth characters of five different cultivars of Hyacinths plant (Blue Giant, City of Haarlem, Jon Bos, Delf Blue and Fondante). The experiment was laid out in randomized complete block design (RCBD) of two factors in three replicates. Media mostly affected the parameters studied during the experiment. Early emergence (22.53 days) and flowering (73.13 days) was recorded in medium consisting of loam and sheep manure, while maximum plant height (19.75 cm), leaves number (6.13), leaf area (31.47 cm2) were recorded in clay medium. Maximum number of florets plant-l (31.93) and spike length (7.95 cm) were recorded in medium consist of clay and sheep manure. Maximum length of spike stem (9.61 cm) and total chlorophyll percentage (53.45%) were recorded for loam medium. Among the cultivars, some parameters showed significant variation. Early emergence (20.42 days), maximum plant height (20.35 cm), leaf area per plant (33.01 cm2) and length of spike stem (15.10 cm) were given by cv. Fondante. Maximum number of florets plantl (35.58) and spike lengths (8.63 cm) were recorded by cv. Blue Giant. High percentage of total chlorophyll (58.15%) was recorded in cv. Jon Bos..
基金provided by the Supercomputing Center of Chinese Academy of Sciences and the National Natural Science Foundation of China’s sponsorship
文摘Boundary layer separation and reattachment is often an unavoidable feature of low pressure (LP) turbine,one of the main causes of this phenomenon is the high altitude low Reynolds number experienced by the modern LP turbine stage in aero-engine.Although an excellent turbine airfoil design can avoid flow separation on certain extent,but within flight envelope,LP turbine's characteristic Reynolds number may varied greatly,so it will be still under the risk of the presence of separation bubble.In this two parts paper a new concept of slotted-blade was raised to testify the gain of the blade slotting.A high aerodynamic loading LP turbine blade IET-LPTA was under investigated with different Reynolds number.Computational results reveal that the blade slotting could be a way of choice to suppress separation bubble and reduce profile loss under the condition of low Reynolds number,although its position and geometry need to be further investigated.
基金provided by the Supercomputing Center of Chinese Academy of Sciences and the sponsorship of National Natural Science Foundation of China
文摘The concept of using blade slotting to suppress the large boundary layer separation of high aerodynamic loading low pressure turbine profile has been developed in Part 1.Calculated results highlight the inability performance accompanied with un-proper blade slotting at high Reynolds number,blade slotting optimization seems like compulsory.Meanwhile,to further dignify the rational for use of blade slotting,slotting position and its geometry needed to be optimized.Comparison of different slotting scheme calculation results promised that blade slotting parameter like outlet angle and outlet position are the most important parameters which must be investigated to satisfy the design purpose.
