To elucidate the adsorption characteristics and retention mechanisms of fracturing fluids in diverse clay minerals,we conducted on-line nuclear magnetic resonance(NMR)and atomic force microscopy(AFM)experiments.The de...To elucidate the adsorption characteristics and retention mechanisms of fracturing fluids in diverse clay minerals,we conducted on-line nuclear magnetic resonance(NMR)and atomic force microscopy(AFM)experiments.The depth and extent of solid phase damage are determined by the ratio between the size of fine fractions in fracturing fluid residue and the pore-throat size in experiments.Poor physical properties(K<0.5 mD)result in a more preferential flow pathway effect during flowback,and the stepwise incremental pressure differential proves to be more effective for the discharge of fracturing fluid in submicron pore throats.The permeability is significantly influenced by the differential distri-bution of retained fracturing fluid,as supported by direct experimental evidence.The presence of good physical properties(K>0.5 mD)combined with a scattered distribution of retained fracturing fluid is associated with high gas phase recovery permeability,whereas a continuous sheet-like distribution results in low recovery permeability.The expansive surface area and presence of filamentous illite minerals facilitate the multiple winding and adsorption of fracturing fluids,demonstrating strong hydrogen-bonding,multi-layering and multiple adsorption properties.The geological characteristics of the main gas formations exhibit significant variation,and the severity of damage caused by fracturing fluids occurs in diverse sequences.To address this issue,a differentiated strategy for optimizing frac-turing fluids has been proposed.展开更多
Cough variant is a common disease of the respiratory system and can lead to a unique type of asthma.The disease has no obvious symptoms such as wheezing nor shortness of breath.Coughing is the main clinical symptom,as...Cough variant is a common disease of the respiratory system and can lead to a unique type of asthma.The disease has no obvious symptoms such as wheezing nor shortness of breath.Coughing is the main clinical symptom,as it causes airway hyper-responsiveness.Traditional Chinese medicine(TCM)has a unique understanding of this disease,and the effect is obvious after treatment,as it's based on symptom differentiation.This article takes the concept of“mild fluid retention”from“The Synopsis of the Golden Chamber”as an entry point,briefly describes the relationship between cough variant and mild fluid retention,as well as the diagnosis and treatment of Chinese medicine.展开更多
Objective:To observe the heart function、MEE and serum FFA of Shenqiyixin prescription for heart qi(yang)deficiency with blood stasis and fluid retention type of chronic heart failure patients,to evaluate the clinical...Objective:To observe the heart function、MEE and serum FFA of Shenqiyixin prescription for heart qi(yang)deficiency with blood stasis and fluid retention type of chronic heart failure patients,to evaluate the clinical efficacy and safety.Methods:64 cases with chronic heart failure of heart qi(yang)deficiency with blood stasis and fluid retention were randomly divided into two groups,3 cases were excluded,31 cases in the control group and 30 cases in the treatment group.The control group was treated with western medicine,and the treatment group was treated with Shenqiyixin prescription additionally.The course of treatment was 3 weeks.Observe the changes of TCM syndrome score,6MWD,LVEF,cESS,MEE,serum NTproBNP,serum FFA and safety indexes of each group before and after treatment.Results:after treatment,the TCM Syndromes of each group were improved.The total effective rate of the treatment group was 93.33%,and the control group was 83.87%.The treatment group was more effective(P<0.05).After treatment,the TCM syndrome score,cESS,MEE,NTproBNP and FFA of each group were decreased,6MWD and LVEF were increased(P<0.05),and the treatment group was superior to the control group(P<0.05).Conclusion:Shenqiyixin prescription can improve the TCM syndrome and heart function in patients with chronic heart failure of heart qi(yang)deficiency with blood stasis and fluid retention,at the same time,it can reduce the level of MEE and serum FFA in patients with heart failure.展开更多
Invert traps are used to trap sewer solids flowing into a sewer drainage system, The performance of the invert trap in an open rectangular channel was experimentally and numerically analysed using field sewer solids c...Invert traps are used to trap sewer solids flowing into a sewer drainage system, The performance of the invert trap in an open rectangular channel was experimentally and numerically analysed using field sewer solids collected from a sewer drain. Experiments showed that the free water surface rises over the central opening (slot) of the invert trap, which reduces the velocity near the slot and allows more sediment to be trapped in comparison with the case for the fixed-lid model (assuming closed conduit flow with a shear-free top wall) used by earlier investigators. This phenomenon cannot be modelled using a closed conduit model as no extra space is provided for the fluctuation of the water surface, whereas this space is provided in the volume of fluid (VOF) model in the form of air space in ANSYS Fluent 14.0 software. Additionally, the zero atmospheric pressure at the free water surface cannot be modelled in a fixed-lid model. In the present study, experimental trap efflciencies of the invert trap using field sewer solids were fairly validated using a three-dimensional computational fluid dynamics model (VOF model) coupled with a stochastic discrete phase model. The flow field (i.e., velocities) predicted by the VOF model were compared with experimental velocities obtained employing particle image velocimetry. The water surface profile above the invert trap predicted by the VOF model was found to be in good agreement with the experimentally measured profile. The present study thus showed that the VOF model can be used with the stochastic discrete phase model to well predict the performance of invert traps.展开更多
Background The consumption of carbohydrate-electrolyte beverages (CEs) has been known to be more effective than plain water for recovery from dehydration. This phenomenon suggests that the ingestion of CEs after deh...Background The consumption of carbohydrate-electrolyte beverages (CEs) has been known to be more effective than plain water for recovery from dehydration. This phenomenon suggests that the ingestion of CEs after dehydration is better than water for maintaining body fluid and plasma volume, and for the recovery from hemoconcentration and high blood viscosity as well. High blood viscosity causes infarction and other cardiovascular events. In this study, CE was compared with water and tea for the ability to reduce increased blood viscosity after dehydration. Methods A crossover random control study was conducted to assess the effectiveness of three beverages for rehydration and decreasing of blood viscosity. Following exercise-induced dehydration of 2.2% of body weight in a permanent warm environment, 10 male subjects rested in a thermoneutral environment for 3 hours (rehydration period, REP). The subjects ingested test beverages equal to their body weight loss during the first 20 minutes in REP. Blood and urine samples were obtained throughout the experiments to assess the rehydration effect. Results The change in blood viscosity at a shear rate of 5/s was significantly lower in CE ((-1.66±0.21) mPa.s) in comparison to water ((-0.95±0.26) mPa.s) or tea ((-0.92±0.14) mPa.s) at 60th minute during the REP. The fluid retention rate was significantly greater for CE ((77.0±3.9)%) than water ((61.2±3.4)%) and tea ((60.5±3.7)%) for 3 hours of rest in REP. Conclusions The recovery from high blood viscosity induced by dehydration was higher with CE consumption than with water or tea. These results suggest that CE is useful for normalizing increased blood viscosity due to exercise-induced dehydration.展开更多
基金supported by the Sichuan Youth Science and Technology Innovation Research Team Project(No.2021JDTDO017)the open Fund(PLN2022-11)of State Key Laboratory of Oil and Gas Reservoir Geology and Exploitation(Southwest Petroleum University)+1 种基金Southwest Petroleum University Graduate Innovation Fund(No.2022KYCX021)Jian Tian would like to acknowledge the funding from the National Natural Science Foundation of China(52404023).
文摘To elucidate the adsorption characteristics and retention mechanisms of fracturing fluids in diverse clay minerals,we conducted on-line nuclear magnetic resonance(NMR)and atomic force microscopy(AFM)experiments.The depth and extent of solid phase damage are determined by the ratio between the size of fine fractions in fracturing fluid residue and the pore-throat size in experiments.Poor physical properties(K<0.5 mD)result in a more preferential flow pathway effect during flowback,and the stepwise incremental pressure differential proves to be more effective for the discharge of fracturing fluid in submicron pore throats.The permeability is significantly influenced by the differential distri-bution of retained fracturing fluid,as supported by direct experimental evidence.The presence of good physical properties(K>0.5 mD)combined with a scattered distribution of retained fracturing fluid is associated with high gas phase recovery permeability,whereas a continuous sheet-like distribution results in low recovery permeability.The expansive surface area and presence of filamentous illite minerals facilitate the multiple winding and adsorption of fracturing fluids,demonstrating strong hydrogen-bonding,multi-layering and multiple adsorption properties.The geological characteristics of the main gas formations exhibit significant variation,and the severity of damage caused by fracturing fluids occurs in diverse sequences.To address this issue,a differentiated strategy for optimizing frac-turing fluids has been proposed.
文摘Cough variant is a common disease of the respiratory system and can lead to a unique type of asthma.The disease has no obvious symptoms such as wheezing nor shortness of breath.Coughing is the main clinical symptom,as it causes airway hyper-responsiveness.Traditional Chinese medicine(TCM)has a unique understanding of this disease,and the effect is obvious after treatment,as it's based on symptom differentiation.This article takes the concept of“mild fluid retention”from“The Synopsis of the Golden Chamber”as an entry point,briefly describes the relationship between cough variant and mild fluid retention,as well as the diagnosis and treatment of Chinese medicine.
基金Natural Science Foundation of Heilongjiang Province(No.LH2019H104).
文摘Objective:To observe the heart function、MEE and serum FFA of Shenqiyixin prescription for heart qi(yang)deficiency with blood stasis and fluid retention type of chronic heart failure patients,to evaluate the clinical efficacy and safety.Methods:64 cases with chronic heart failure of heart qi(yang)deficiency with blood stasis and fluid retention were randomly divided into two groups,3 cases were excluded,31 cases in the control group and 30 cases in the treatment group.The control group was treated with western medicine,and the treatment group was treated with Shenqiyixin prescription additionally.The course of treatment was 3 weeks.Observe the changes of TCM syndrome score,6MWD,LVEF,cESS,MEE,serum NTproBNP,serum FFA and safety indexes of each group before and after treatment.Results:after treatment,the TCM Syndromes of each group were improved.The total effective rate of the treatment group was 93.33%,and the control group was 83.87%.The treatment group was more effective(P<0.05).After treatment,the TCM syndrome score,cESS,MEE,NTproBNP and FFA of each group were decreased,6MWD and LVEF were increased(P<0.05),and the treatment group was superior to the control group(P<0.05).Conclusion:Shenqiyixin prescription can improve the TCM syndrome and heart function in patients with chronic heart failure of heart qi(yang)deficiency with blood stasis and fluid retention,at the same time,it can reduce the level of MEE and serum FFA in patients with heart failure.
文摘Invert traps are used to trap sewer solids flowing into a sewer drainage system, The performance of the invert trap in an open rectangular channel was experimentally and numerically analysed using field sewer solids collected from a sewer drain. Experiments showed that the free water surface rises over the central opening (slot) of the invert trap, which reduces the velocity near the slot and allows more sediment to be trapped in comparison with the case for the fixed-lid model (assuming closed conduit flow with a shear-free top wall) used by earlier investigators. This phenomenon cannot be modelled using a closed conduit model as no extra space is provided for the fluctuation of the water surface, whereas this space is provided in the volume of fluid (VOF) model in the form of air space in ANSYS Fluent 14.0 software. Additionally, the zero atmospheric pressure at the free water surface cannot be modelled in a fixed-lid model. In the present study, experimental trap efflciencies of the invert trap using field sewer solids were fairly validated using a three-dimensional computational fluid dynamics model (VOF model) coupled with a stochastic discrete phase model. The flow field (i.e., velocities) predicted by the VOF model were compared with experimental velocities obtained employing particle image velocimetry. The water surface profile above the invert trap predicted by the VOF model was found to be in good agreement with the experimentally measured profile. The present study thus showed that the VOF model can be used with the stochastic discrete phase model to well predict the performance of invert traps.
文摘Background The consumption of carbohydrate-electrolyte beverages (CEs) has been known to be more effective than plain water for recovery from dehydration. This phenomenon suggests that the ingestion of CEs after dehydration is better than water for maintaining body fluid and plasma volume, and for the recovery from hemoconcentration and high blood viscosity as well. High blood viscosity causes infarction and other cardiovascular events. In this study, CE was compared with water and tea for the ability to reduce increased blood viscosity after dehydration. Methods A crossover random control study was conducted to assess the effectiveness of three beverages for rehydration and decreasing of blood viscosity. Following exercise-induced dehydration of 2.2% of body weight in a permanent warm environment, 10 male subjects rested in a thermoneutral environment for 3 hours (rehydration period, REP). The subjects ingested test beverages equal to their body weight loss during the first 20 minutes in REP. Blood and urine samples were obtained throughout the experiments to assess the rehydration effect. Results The change in blood viscosity at a shear rate of 5/s was significantly lower in CE ((-1.66±0.21) mPa.s) in comparison to water ((-0.95±0.26) mPa.s) or tea ((-0.92±0.14) mPa.s) at 60th minute during the REP. The fluid retention rate was significantly greater for CE ((77.0±3.9)%) than water ((61.2±3.4)%) and tea ((60.5±3.7)%) for 3 hours of rest in REP. Conclusions The recovery from high blood viscosity induced by dehydration was higher with CE consumption than with water or tea. These results suggest that CE is useful for normalizing increased blood viscosity due to exercise-induced dehydration.
