The effect of the surfactant additive on the upward intermittent flows in a pipeline-riser system is studied experimentally, in a 3 m long horizontal pipe connected to a Perspex pipe of 2.0 m long and 25 mm in diamete...The effect of the surfactant additive on the upward intermittent flows in a pipeline-riser system is studied experimentally, in a 3 m long horizontal pipe connected to a Perspex pipe of 2.0 m long and 25 mm in diameter, inclined to the horizontal plane by 7?, followed by the vertical PVC riser of 3.5 m high and 25 mm in diameter, operating at the atmospheric end pressure. Based on the analysis of the pressure signal and the visual observation of the riser, it is shown that the additive of surfactant to the carrying liquid makes bubbles smaller in size but much larger in number in the upward intermittent flows. In addition, the additive of surfactant to a two-phase flow does not have a significant impact on the in-situ gas fraction, the pressure drop and the frequency of the liquid slug, but it reduces significantly the velocity of the liquid slug. When the superficial liquid velocity is set, an exponential relationship between the dimensionless velocity of the liquid slug and the Webber number can be obtained. These results might be used for estimating the characteristic parameters of the upward intermittent flow based upon the input operating conditions.展开更多
Intermittent shear flow including start-up flow and small oscillatory amplitude time sweep or stress relaxation aftercessation of shear flow was used to study the rheological behavior and internal structure of thermot...Intermittent shear flow including start-up flow and small oscillatory amplitude time sweep or stress relaxation aftercessation of shear flow was used to study the rheological behavior and internal structure of thermotropic liquid crystallinepolymer(TLCP).There are two kinds of intermittent shear flow:all start-up flows are in the same direction(intermittent flowforward:IFF)and start-up flows change their directions alternately(intermittent flow reversal:IFR).The results show thatthe stress of start-up flow of IFF and IFR in the test process is not superposed,indicating different changes of internalstructure of thermotropic LCP(TLCP).Two main factors affect structure changes in the experimental time scale.One relatesto long-term texture relaxation process,the other is an interchain reaction that becomes important after 30 min.The twofactors raise the stress of IFF,but express complex effects for the stress of IFR.The latter factor becomes very important atlong time annealing process.The relaxation behavior was also studied by the application of wide range relaxation spectrumcalculated from the combined dynamic modulus,which gave three characteristic relaxation times(0.3,10 and 600 s)ascribable to the relaxations of less-phase orientation,domain orientation,and domain deformation,respectively.The resultalso shows that the domain coalescence(texture relaxation),a long relaxation time,is a much slow process and lasts beyond2400 s of the test time.展开更多
The theoretical analysis discussed in this work is a suitable mathematical tool by which the performance of the proposed collector can be predicted. The obtained experimental results coincide with the obtained theoret...The theoretical analysis discussed in this work is a suitable mathematical tool by which the performance of the proposed collector can be predicted. The obtained experimental results coincide with the obtained theoretical data obtained from the devised computer program. Controlled output temperature can be obtained from the proposed system. The performance of the tested collector under the proposed intermittent flow conditions overcomes that of the conventional thermosyphone flow collector.展开更多
Experimental and numerical investigations have suggested the existence of a strong correlation between the passage of coherent structures and events of bursting and intermittency. However, a detailed cause-and-effect ...Experimental and numerical investigations have suggested the existence of a strong correlation between the passage of coherent structures and events of bursting and intermittency. However, a detailed cause-and-effect study on the subject is rarely found in the literature due to the complexity and the nonlinear multiscale nature of turbulent flows. The primary goal of this research is to explore the motion and evolution of coherent structures during late transition, whose structure is much more ordered than that of fully developed turbulence, and their relationship with events of bursting and intermittency based on a verified high-order direct numerical simulation(DNS). The computation was carried out on a flat plate at Reynolds number 1000(based on the inflow displacement thickness) with an inflow Mach number 0.5. It is concluded that bursting and intermittency detected by stationary sensors in a transitional boundary layer actually result from the passage and development of vortical structures, and it would be more rational to design transitional turbulence models based on modelling the moving vortical structures rather than the statistical features and experimental experiences.展开更多
基金Project supported by the National Natural Science Foundation of China(Grant No.51779243)the Strategic Priority Research Program of the Chinese Academy of Science(Grant No.XDB22030101)
文摘The effect of the surfactant additive on the upward intermittent flows in a pipeline-riser system is studied experimentally, in a 3 m long horizontal pipe connected to a Perspex pipe of 2.0 m long and 25 mm in diameter, inclined to the horizontal plane by 7?, followed by the vertical PVC riser of 3.5 m high and 25 mm in diameter, operating at the atmospheric end pressure. Based on the analysis of the pressure signal and the visual observation of the riser, it is shown that the additive of surfactant to the carrying liquid makes bubbles smaller in size but much larger in number in the upward intermittent flows. In addition, the additive of surfactant to a two-phase flow does not have a significant impact on the in-situ gas fraction, the pressure drop and the frequency of the liquid slug, but it reduces significantly the velocity of the liquid slug. When the superficial liquid velocity is set, an exponential relationship between the dimensionless velocity of the liquid slug and the Webber number can be obtained. These results might be used for estimating the characteristic parameters of the upward intermittent flow based upon the input operating conditions.
基金This work was supported by the National Natural Science Foundation of China(Nos.201740242020400750290090).
文摘Intermittent shear flow including start-up flow and small oscillatory amplitude time sweep or stress relaxation aftercessation of shear flow was used to study the rheological behavior and internal structure of thermotropic liquid crystallinepolymer(TLCP).There are two kinds of intermittent shear flow:all start-up flows are in the same direction(intermittent flowforward:IFF)and start-up flows change their directions alternately(intermittent flow reversal:IFR).The results show thatthe stress of start-up flow of IFF and IFR in the test process is not superposed,indicating different changes of internalstructure of thermotropic LCP(TLCP).Two main factors affect structure changes in the experimental time scale.One relatesto long-term texture relaxation process,the other is an interchain reaction that becomes important after 30 min.The twofactors raise the stress of IFF,but express complex effects for the stress of IFR.The latter factor becomes very important atlong time annealing process.The relaxation behavior was also studied by the application of wide range relaxation spectrumcalculated from the combined dynamic modulus,which gave three characteristic relaxation times(0.3,10 and 600 s)ascribable to the relaxations of less-phase orientation,domain orientation,and domain deformation,respectively.The resultalso shows that the domain coalescence(texture relaxation),a long relaxation time,is a much slow process and lasts beyond2400 s of the test time.
文摘The theoretical analysis discussed in this work is a suitable mathematical tool by which the performance of the proposed collector can be predicted. The obtained experimental results coincide with the obtained theoretical data obtained from the devised computer program. Controlled output temperature can be obtained from the proposed system. The performance of the tested collector under the proposed intermittent flow conditions overcomes that of the conventional thermosyphone flow collector.
基金supported by the Department of Mathematics at University of Texas at Arlington
文摘Experimental and numerical investigations have suggested the existence of a strong correlation between the passage of coherent structures and events of bursting and intermittency. However, a detailed cause-and-effect study on the subject is rarely found in the literature due to the complexity and the nonlinear multiscale nature of turbulent flows. The primary goal of this research is to explore the motion and evolution of coherent structures during late transition, whose structure is much more ordered than that of fully developed turbulence, and their relationship with events of bursting and intermittency based on a verified high-order direct numerical simulation(DNS). The computation was carried out on a flat plate at Reynolds number 1000(based on the inflow displacement thickness) with an inflow Mach number 0.5. It is concluded that bursting and intermittency detected by stationary sensors in a transitional boundary layer actually result from the passage and development of vortical structures, and it would be more rational to design transitional turbulence models based on modelling the moving vortical structures rather than the statistical features and experimental experiences.
