Objectives:Emotional exhaustion among healthcare professionals,particularly pharmacists,significantly impacts their well-being and efficacy in patient care.Understanding the psychological mechanisms contributing to em...Objectives:Emotional exhaustion among healthcare professionals,particularly pharmacists,significantly impacts their well-being and efficacy in patient care.Understanding the psychological mechanisms contributing to emotional exhaustion is essential for developing effective interventions.The present research sought to investigate the potential mediating roles of rumination and coping strategies(adaptive and maladaptive)in the relationship between perceived stress and emotional exhaustion among pharmacists.Methods:A cross-sectional survey was carried out between September 2023 and January 2024 involving 576 pharmacists working in public hospitals in Punjab who met the inclusion criteria and actively participated in the study.We employed the Perceived Stress Scale,the Ruminative Response Scale,the Brief Coping Orientation to Problems Experienced Inventory(COPE),and the Oldenburg Burnout Inventory(OLBI)to assess the hypothesized study model.Path analysis was employed to test the hypothesized mediation model,incorporating simple and chain mediation processes.Results:The findings provided empirical evidence supporting a positive association between perceived stress and emotional exhaustion.Rumination significantlymediated this relationship.Further,both adaptive andmaladaptive coping strategieswere found tomediate this relationship,withmaladaptive coping demonstrating amore substantial impact.Conclusion:The chainmediation model demonstrated that rumination and coping strategies(both maladaptive and adaptive)significantly mediate the relationship between perceived stress and emotional exhaustion among pharmacists.Specifically,rumination was found to be a key mediator,with maladaptive coping strategies having a more substantial impact.These findings provide a deeper understanding of the psychological mechanisms contributing to emotional exhaustion in the pharmacy profession.展开更多
This study investigated the relationship between AI anxiety and deviant behavior,as well as the roles of emotional exhaustion and leader support in this context.The sample comprised 381 Chinese e-commerce employees(72...This study investigated the relationship between AI anxiety and deviant behavior,as well as the roles of emotional exhaustion and leader support in this context.The sample comprised 381 Chinese e-commerce employees(72.7%female,age range 21–36 years).The results of the Process model analysis indicate that AI anxiety significantly is associated with higher deviant behaviour.Emotional exhaustion partially mediates this relationship between AI anxiety and employee deviant behavior exacerbating deviant behaviour.Leader support moderates the AI anxiety effect on emotional exhaustion such that when leader support is low.AI anxiety is associated with higher emotional exhaustion among employees.By implication,high levels of leader support can alleviate AI anxiety of employees.Employer organizations should provide appropriate guidance when introducing AI technology to prevent AI anxiety and associated emotional exhaustion and deviant behavior.展开更多
This paper presented a novel and environmentally friendly approach for recovering platinum group metals(PGMs)from spent automotive exhaust catalysts.The study employed lead slag and waste graphite electrodes as raw ma...This paper presented a novel and environmentally friendly approach for recovering platinum group metals(PGMs)from spent automotive exhaust catalysts.The study employed lead slag and waste graphite electrodes as raw materials,incorporating CaO as an additive to fine-tune the slag's viscosity and density.By reducing FeO in the lead slag using waste graphite electrodes,pure Fe was obtained,effectively trapping the PGMs from the exhausted catalysts.The study explored the effects of reductant addition,trapping duration,slag basicity,and trapping temperature on the recovery rate of PGMs.The results indicated that a maximum recovery rate of 97.86%was achieved when the reductant was added at 1.5 times the theoretical amount,with a trapping duration of 60 minutes,a slag basicity of 0.7,and a trapping temperature of 1600℃.This research offered a greener pathway for the recovery of PGMs from spent automotive exhaust catalysts.展开更多
Based on 5G and IoT technology,this study addresses the issues of manual control dependency,poor reliability,and high labor costs in traditional ceramic kiln exhaust cover operations.An intelligent control system for ...Based on 5G and IoT technology,this study addresses the issues of manual control dependency,poor reliability,and high labor costs in traditional ceramic kiln exhaust cover operations.An intelligent control system for kiln exhaust covers was designed in this paper.The system employs temperature measurement devices to monitor the internal temperature of the kiln in real time.A controller automatically operates the actuator to open or close the kiln exhaust cover based on temperature measurements.Additionally,the system integrates data transmission units and cloud services,enabling remote monitoring of kiln temperature and historical data storage.Experimental results demonstrate that the system effectively reduces labor costs and significantly enhances the IoT capabilities of kiln operations.展开更多
The high melting point element W and the rare earth element Ce were added to 18Cr-Mo(444-type)ferritic stainless steel to improve its high-temperature oxidation resistance in exhaust gas.A simulated exhaust gas was fi...The high melting point element W and the rare earth element Ce were added to 18Cr-Mo(444-type)ferritic stainless steel to improve its high-temperature oxidation resistance in exhaust gas.A simulated exhaust gas was filled in the simultaneous thermal analyzer to simulate the service environment,and the oxidation behavior in high-temperature exhaust gas environment of 444-type ferritic stainless steel alloyed with W and Ce was investigated.The oxide structure and composition formed in this process were analyzed and characterized by scanning electron microscopy/energy-dispersive spectroscopy and electron probe analysis,and the mechanism of W and Ce in the oxidation process was revealed.The results show that 18Cr-Mo ferritic stainless steel containing W and Ce has better oxidation resistance in high-temperature exhaust gas.The element W can promote the precipitation of Laves phase at the matrix/interface,inhibit the interface diffusion of oxidizing elements and prevent the inward growth of the oxide film.The element Ce can suppress the volume of SiO_(2)at the oxide film/interface,reducing the breakaway oxidation caused by cracking of the oxide film.The CeO_(2)provides nucleation sites for oxide particles,promoting the healing of cracks and voids within the oxide film.展开更多
CD8^(+)T cell exhaustion,a critical challenge in the immune response to cancer,is characterized by a profound decline in the functionality of effector CD8^(+)T cells.This state of exhaustion is accompanied by the upre...CD8^(+)T cell exhaustion,a critical challenge in the immune response to cancer,is characterized by a profound decline in the functionality of effector CD8^(+)T cells.This state of exhaustion is accompanied by the upregulation of various inhibitory receptors and significant shifts in both transcriptional and epigenetic profiles,thus ultimately leading to inadequate tumor control.Therapeutic strategies aimed at reversing CD8^(+)T cell exhaustion have the potential to rejuvenate immune responses and enhance treatment efficacy.This review compiles current knowledge regarding the molecular mechanisms underlying CD8^(+)T cell exhaustion,including the roles of immune checkpoint molecules,the tumor microenvironment,metabolic reprogramming,transcription factors,and epigenetic modifications.Emerging therapeutic approaches designed to combat CD8^(+)T cell exhaustion are evaluated,with emphasis on the modulation of immune checkpoints;targeting of metabolic and transcriptional changes;and exploration of other innovative strategies,such as epigenetic editing and engineered CAR-T cells.Importantly,we expand the exhaustion concept to immune cells beyond CD8^(+)T cells,such as CD4^(+)T cells,natural killer cells,and myeloid populations,thereby highlighting the broader implications of systemic immunosuppression in the cancer context.Finally,we propose avenues for future research aimed at further elucidating the factors and molecular mechanisms associated with CD8^(+)T cell exhaustion,thereby underscoring the critical need for strategies aimed at reversing this state to improve outcomes in cancer immunotherapy.展开更多
Exhausted T cell(Tex)is a specific state of T cell dysfunction,in which these T cells gradually lose their effector function and change their phenotype during chronic antigen stimulation.The enrichment of exhausted CD...Exhausted T cell(Tex)is a specific state of T cell dysfunction,in which these T cells gradually lose their effector function and change their phenotype during chronic antigen stimulation.The enrichment of exhausted CD8^(+)T cell(CD8^(+)Tex)in the tumor microenvironment is one of the important reasons leading to the poor efficacy of immunotherapy.Recent studies have reported many reasons leading to the CD8^(+)T cell exhaustion.In addition to cancer cells,myeloid cells can also contribute to T cell exhaustion via many ways.In this review,we discuss the history of the concept of exhaustion,CD8^(+)T cell dysfunction states,the heterogeneity,origin,and characteristics of CD8^(+)Tex.We then focus on the effects of myeloid cells on CD8^(+)Tex,including tumor-associated macrophages(TAMs),dendritic cells(DCs)and neutrophils.Finally,we systematically summarize current strategies and recent advancements in therapies reversing and CD8^(+)T cell exhaustion.展开更多
In exploring persistent infections and malignancies, a distinctive subgroup of CD8^(+) T cells, progenitor exhausted CD8^(+) T(Tpex) cells, has been identified. These Tpex cells are notable for their remarkable self-r...In exploring persistent infections and malignancies, a distinctive subgroup of CD8^(+) T cells, progenitor exhausted CD8^(+) T(Tpex) cells, has been identified. These Tpex cells are notable for their remarkable self-renewal and rapid proliferation abilities. Recent strides in immunotherapy have demonstrated that Tpex cells expand and differentiate into responsive exhausted CD8^(+) T cells, thus underscoring their critical role in the immunotherapeutic retort. Clinical examinations have further clarified a robust positive correlation between the proportional abundance of Tpex cells and enhanced clinical prognosis. Tpex cells have found noteworthy applications in the formulation of inventive immunotherapeutic approaches against tumors. This review describes the functions of Tpex cells in the tumor milieu, particularly their potential utility in tumor immunotherapy. Precisely directing Tpex cells may be essential to achieving successful outcomes in immunotherapy against tumors.展开更多
Experiments were conducted in this study to examine the thermal performance of a thermosyphon,made from Inconel alloy 625,could recover waste heat from automobile exhaust using a limited amount of fluid.The thermosyph...Experiments were conducted in this study to examine the thermal performance of a thermosyphon,made from Inconel alloy 625,could recover waste heat from automobile exhaust using a limited amount of fluid.The thermosyphon has an outer diameter of 27 mm,a thickness of 2.6 mm,and an overall length of 483 mm.The study involved directing exhaust gas onto the evaporator.This length includes a 180-mm evaporator,a 70-mm adiabatic section,a 223-mm condenser,and a 97-mm finned exchanger.The study examined the thermal performance of the thermosyphon under exhaust flow rates ranging from 0–10 g/sec and temperatures varying from 300℃–900℃.The influence of three parameters—inclination angle(5°–45°),water mass(2–5.3 g),and the quantity of non-condensable gas Argon(0–0.6 g)—was investigated to assess their impacts on the thermosyphon’s thermal efficiency.The experimental findings revealed that with 3 g of water and 0.0564 g of argon in the thermosyphon,the condenser reached its highest temperature at around 200℃.The ideal fuel loading rate for the thermosyphon falls between 0.2 and 0.7 g/s.Moreover,as inclination angles rise,outer wall temperatures of the thermosyphon increase.This is attributed to the explicit expansion of the effective heating area within the evaporation section,coupled with an amplified gravitational component of the water flux.Additionally,an upsurge in the quantity of non-condensable gas(NCG)can mitigate temperature gradients on the outer wall,resulting in a decline in the thermosyphon’s performance.The insulation applied to the adiabatic section demonstrated efficacy in augmenting temperature gradients on the outer wall,thereby improving the overall performance of the thermosyphon.As the water charge within the thermosyphon increases,there is a corresponding rise in heat transfer rates both from the exhaust to the thermosyphon and from the thermosyphon to the fuel.展开更多
Objective To explore the effect of moxibustion at "Shénquè"(神阙 CV 8) on the immune system of rats taking long-term exhaustive exercise.Method Thirty male SD rats were randomly divided into blank group,...Objective To explore the effect of moxibustion at "Shénquè"(神阙 CV 8) on the immune system of rats taking long-term exhaustive exercise.Method Thirty male SD rats were randomly divided into blank group,model group and moxibustion group with 10 rats in each group.Except the rats in blank group,all the rats were established into long-term exhaustive models through swimming again and again.Mild moxibustion at CV 8 for 15 min was carried out in the rats in moxibustion group after modeling.The treatment was conducted once every other day,and treatment for 10 times was needed.The exhaustive duration for each time was recorded,the levels of serum Ig A,Ig G,Ig M and ACP were detected 24 h after the 10 th exhaustive exercise,and the histomorphological changes of spleen were observed.Immunoturbidimetry was adopted for detecting the Ig A level,and ELISA method was used for detecting the levels of Ig G,Ig M and ACP.Results The common exhaustive duration in moxibustion group was longer than that in model group,however,the time difference was statistically significant after the 5th exhaustive exercise(P0.01).The levels of serum IgG and IgM in model group were lower than that in blank group(all P0.01),and the serum ACP level in model group was higher than that in blank group(P0.01),indicating that the splenic histomorphology was damaged.The levels of serum Ig G and Ig M in moxibustion group were higher than that in model group(all P0.01),and the serum ACP level in moxibustion group was lower than that in model group,showing that the splenic histomorphology was repaired.Conclusion Moxibustion at CV 8 can improve the levels of immunoglobulin(Ig G,Ig A,Ig M) of tired body for a long time,decrease the ACP level,and repair the damaged spleen tissues.展开更多
Test results of reducing two stroke motorcycle emissions with new type carburettors and electronic fuel injection systems are presented. Analyses and comparison between different systems are discussed. The adoption o...Test results of reducing two stroke motorcycle emissions with new type carburettors and electronic fuel injection systems are presented. Analyses and comparison between different systems are discussed. The adoption of electronically controlled injection and corresponding electronic control technique is an effective measure of prolonged vitality to improve emissions from two stroke motorcycles. Suggestions about the strategic steps of China′s motorcycle emission control are proposed.展开更多
This study focused on increasing the efficiency of the smoke exhaust system of an extra-wide(eight-lane,dual-directional)immersed tunnel with a specific quantity of exhaust.The Shenzhen-Zhongshan immersed tunnel was s...This study focused on increasing the efficiency of the smoke exhaust system of an extra-wide(eight-lane,dual-directional)immersed tunnel with a specific quantity of exhaust.The Shenzhen-Zhongshan immersed tunnel was selected as the application example.A numerical simulation based on fire dynamics simulator was conducted.In the model,the concrete structure of the main body of the immersed tubes was not altered.The adoption of supplementary exhaust ducts increased the efficiency from 73%to 98%under the condition of no longitudinal wind.When a 50-MW fire occurred between two adjacent ducts,with a longitudinal wind velocity of 2 m/s,the efficiency reached 88%or more when the two ducts were opened.Furthermore,a safety evacuation path was developed.The results suggest that the addition of supplementary exhaust ducts combined with a rational longitudinal wind velocity is necessary for an extra-wide immersed tunnel.展开更多
Tourism is of vital practical significance to low-carbon economic transition of resources-exhausted cities.By taking Gejiu City of Yunnan Province for example,the paper discussed that Gejiu City as the resources-exhau...Tourism is of vital practical significance to low-carbon economic transition of resources-exhausted cities.By taking Gejiu City of Yunnan Province for example,the paper discussed that Gejiu City as the resources-exhausted city should positively develop tourism,particularly industrial heritage tourism,treating tourism development as the breakthrough and motive power of low-carbon economic transition of resources-exhausted cities,so as to walk out a unique road of tourism promoting low-carbon economic development.展开更多
An improved near far field divided coupled method was established to investigate the electromagnetic properties of mildly overexpanded and underexpanded rocket exhaust plumes. Firstly, axisymmetric Navier Stokes eq...An improved near far field divided coupled method was established to investigate the electromagnetic properties of mildly overexpanded and underexpanded rocket exhaust plumes. Firstly, axisymmetric Navier Stokes equations incorporated with k ε two equation turbulence models were solved using time dependent approach to calculate the pressure of the near filed. Secondly, parabolized axisymmetric Navier Stokes equations incorporated with finite rate chemical kinetics models were marching on the detailed pressure map of the near field. The termination of the near field would yield the initial line for the far field. In addition, in the far field, the spatial marching method was directly used under the constant pressure condition, but considering more complicated chemically reacting process. Finally, the electromagnetic parameters of the whole plume were calculated with the electron conductive model. The calculated results of the overexpanded and underexpanded rocket exhaust plume were discussed. The predicted microwave attenuation accorded with the experimental results. This improved method is feasible for calculating the microwave attenuation characteristics of mildly non fully expanded rocket exhaust plumes.展开更多
In the tumor immune microenvironment, CD8<sup>+</sup> T cells differentiate towards functional failure. The exhaustion of CD8<sup>+</sup> T cells (Tex) showed varying degrees of effect dysfunct...In the tumor immune microenvironment, CD8<sup>+</sup> T cells differentiate towards functional failure. The exhaustion of CD8<sup>+</sup> T cells (Tex) showed varying degrees of effect dysfunction, loss of proliferation ability, and sustained high expression of a variety of inhibitory receptors, with metabolic and epigenetic changes. Tex cells are heterogeneous, including several subsets with different characteristics at different stages of differentiation. Immune checkpoint inhibitors (ICIs) can restore the effect or function of Tex cells, indicating that this T cell subset plays a key role in tumor immunotherapy. The understanding of the mechanism of CD8<sup>+</sup> T cell exhaustion will be helpful to the implementation of tumor immunotherapy. This article reviews the production, differentiation and functional characteristics of Tex cells and their relationship with tumor immunotherapy.展开更多
Objective To explore the effect of moxibustion at Shenque (神阙 CV 8) on the anti-exercise-induced fatigue in rats after exhaustive exercise in varying degrees. Methods Seventy-two SD rats were randomly divided int...Objective To explore the effect of moxibustion at Shenque (神阙 CV 8) on the anti-exercise-induced fatigue in rats after exhaustive exercise in varying degrees. Methods Seventy-two SD rats were randomly divided into 3 groups according to the random number table method, including blank group, model group and moxibustion group. The model group and moxibustion group were divided into 4 subgroups respectively, that was 1 time, 4 times, 7 times and 10 times subgroup. There were 9 groups with 8 rats in each group. Except blank group, all the rats were established into exhaustive models through swimming. Mild moxibustion at CV 8 was carried out for 15 min in the rats in moxibustion group after modeling for once every other day. The concentration of serum glucose (GLU), malonaldehyde (MDA) and blood urea nitrogen (BUN) as well as the activity of aspartate transaminase (AST), alanine transaminase (ALT) and lactic dehydrogenase (LDH) were detected 24h after the exhaustive exercise by adopting full-automatic analyzer. Results The exhaustive time of rats were long at first but shorter later. The exhaustive time of rats in the model group (4 times) were obviously longer than that in the model group (1 time) (P〈0.01), the exhaustive time of rats in the model group (7 times) and model group (10 times) were obviously shorter than that in the model group (1 time) (P〈0.01), and the exhaustive time of rats in the moxibustion group (7 times) and moxibustion group (10 times) were obviously longer than that in the model group with the same number of times (P〈0.01), the serum GLU level of rats in the model group (7 times) and model group (10 times) increased when compared with the blank group (P〈0.01), and the serum MDA and BNU levels as well as the activity of AST, ALT and LDH of rats in the model group (4 times), model group (7 times) and model group (10 times) increased when compared with the blank group (P〈0.05 or P〈0.01), the serum GLU, MDA and BNU levels as well as the activity of AST and ALT of rats in the moxibustion group (7 times) and moxibustion group (10 times) reduced when compared with the model group with the same number of times (P〈0.05 or P〈0.01), and the serum LDH activity of rats in the moxibustion group (4 times), moxibustion group (7 times) and moxibustion group (10 times) reduced when compared with the model group with the same number of times (P〈0.05 or P〈0.01). Conclusion Moxibustion at CV 8 can reduce the serum MDA and BNU levels as well as the activity of AST, ALT and LDH of organism in a status of long-term fatigue, effectively improve the symptom of long-term fatigue, providing a certain experimental basis for the clinical application of moxibustion at CV 8 in the process of anti-exercise-induced fatigue in the future.展开更多
The infrared radiation signature of the plume from solid propellants with different energy characteristics is not the same. Three kinds of double-base propellants of different energy characteristics are chosen to meas...The infrared radiation signature of the plume from solid propellants with different energy characteristics is not the same. Three kinds of double-base propellants of different energy characteristics are chosen to measure the infrared spectral radiance from 1000 cm 1 to 4500 cm 1 of their plumes. The radiative spectrum is obtained in the tests. The experimental results indicate that the infrared radiation of the plume is determined by the energy characteristics of the propellant. The radiative transfer calculation models of the exhaust plume for the solid propellants are established. By including the chemical reaction source term and the radiation source term into the energy equation, the plume field and the radiative transfer are solved in a coupled way. The calculated results are consistent with the experimental data, so the reliability of the models is confirmed. The temperature distribution and the extent of the afterburning of the plume are distinct for the propellants of different energy characteristics, therefore the plume radiation varies for different propellants. The temperature of the fluid cell in the plume will increase or decrease to some extent by the influence of the radiation term.展开更多
A novel four-way combining catalysts containing double layers was applied to simultaneously remove four kinds of exhaust pollutants (NOx, CO, HC and PM) emitted from diesel engine. The four-way catalysts were charac...A novel four-way combining catalysts containing double layers was applied to simultaneously remove four kinds of exhaust pollutants (NOx, CO, HC and PM) emitted from diesel engine. The four-way catalysts were characterized using scanning electron microscope (SEM) and Ultraviolet visible diffuse reflectance spectroscopy (UV-Vis DRS). Their catalytic performances were evaluated by temperature-programmed reaction technology. The double layer catalysts could effectively remove the four main pollutants. The highest catalytic activity was given by the two-layered catalysts of La0.6 K0.4CoO3/Al2O3 and W/HZSM-5. Under the simulated exhaust gases conditions, the peak temperature of the soot combustion was 421℃, the maximal conversion of NO to N2 was 74%, the temperature of the HC total conversion was 357℃, and the maximum conversion ratio of CO was 99%.展开更多
One of the most important characteristic signatures of the exhaust plume from rocket motor is the aflerbuming phenomenon, and the injected water into the plume could inhibit the afterburning. The calculation model for...One of the most important characteristic signatures of the exhaust plume from rocket motor is the aflerbuming phenomenon, and the injected water into the plume could inhibit the afterburning. The calculation model for the gas-liquid multiphase flow field with chemical reaction in the plume is built. By inducing the energy source terms caused by the vaporization of liquid water, condensation of the vapor and chemical reaction in the energy equation, the gas-liquid multiphase flow field and the afterburning phenomenon are calculated in a coupling way. Mixture multiphase flow model is used to calculate the gas-liquid flow field, and the vaporization mechanism is used to investigate the water vaporization process. The temperature contours are obtained and accord well with the experimental photos. The mass fraction contours of primary species are obtained, which can indicate the extent of inhibition effect of water injection on the afterburning phenomenon in the plume. When water is injected into the plume, the region of aflerburning reduces a lot, and temperature on the ground wall declines rapidly, which can decrease the ablation of the combustion gas to the launch ground.展开更多
Investment and suction casting (ISC) represents an economic and promising process route to fabricate auto-motive exhaust valves of γ-TiAI based alloys, but information available on the metal flow and the temperatur...Investment and suction casting (ISC) represents an economic and promising process route to fabricate auto-motive exhaust valves of γ-TiAI based alloys, but information available on the metal flow and the temperature changeseduring mould filling and solidification process for the ISC process is meager. A sequentially coupled mathematical flow-thermal model, based on the commercial finite-volume/finite-difference code FLOW-3D and the finite-element code PROCAST, has been developed to investigate the ISC process. In term of calcu-lating the flow and temperature fields during the filling and solidification stages, potential defects including the gas bubbles and the surface air entrainment occurred in the mould filling process and the shrinkage porosities formed in the solidification process are predicted and the reasons for the formation of these defects are also analyzed. The effects of filling pressure difference control methods and moulds on gas bubble and surface air entrainment behavior are presented. It is found that by changing the filling pressure difference control methods from general suction casting to "air leakage" suction casting and reducing air leakage flow rates, the gas bubbles are eliminated effectively, and the surface air entrainment attenuate dramatically. With resort to a mould with a tetragonal runner, the surface air entrainment decrease to the lowest level. Finally, the water analogue and suction casting experiments of exhaust valves are implemented for further validation of the simulation results.展开更多
基金supported by Social Policy Grant through Nazarbayev University,Kazakhstan.
文摘Objectives:Emotional exhaustion among healthcare professionals,particularly pharmacists,significantly impacts their well-being and efficacy in patient care.Understanding the psychological mechanisms contributing to emotional exhaustion is essential for developing effective interventions.The present research sought to investigate the potential mediating roles of rumination and coping strategies(adaptive and maladaptive)in the relationship between perceived stress and emotional exhaustion among pharmacists.Methods:A cross-sectional survey was carried out between September 2023 and January 2024 involving 576 pharmacists working in public hospitals in Punjab who met the inclusion criteria and actively participated in the study.We employed the Perceived Stress Scale,the Ruminative Response Scale,the Brief Coping Orientation to Problems Experienced Inventory(COPE),and the Oldenburg Burnout Inventory(OLBI)to assess the hypothesized study model.Path analysis was employed to test the hypothesized mediation model,incorporating simple and chain mediation processes.Results:The findings provided empirical evidence supporting a positive association between perceived stress and emotional exhaustion.Rumination significantlymediated this relationship.Further,both adaptive andmaladaptive coping strategieswere found tomediate this relationship,withmaladaptive coping demonstrating amore substantial impact.Conclusion:The chainmediation model demonstrated that rumination and coping strategies(both maladaptive and adaptive)significantly mediate the relationship between perceived stress and emotional exhaustion among pharmacists.Specifically,rumination was found to be a key mediator,with maladaptive coping strategies having a more substantial impact.These findings provide a deeper understanding of the psychological mechanisms contributing to emotional exhaustion in the pharmacy profession.
基金funded by Guangxi Eco-Engineering Vocational&Technical College Talent Introduction Research Project and 2024 Guangxi Vocational Education Teaching Reform Research Project grant number[GXSTKYZX20240603]and[GXGZJG2024B125]and the APC was funded by GEVT College.
文摘This study investigated the relationship between AI anxiety and deviant behavior,as well as the roles of emotional exhaustion and leader support in this context.The sample comprised 381 Chinese e-commerce employees(72.7%female,age range 21–36 years).The results of the Process model analysis indicate that AI anxiety significantly is associated with higher deviant behaviour.Emotional exhaustion partially mediates this relationship between AI anxiety and employee deviant behavior exacerbating deviant behaviour.Leader support moderates the AI anxiety effect on emotional exhaustion such that when leader support is low.AI anxiety is associated with higher emotional exhaustion among employees.By implication,high levels of leader support can alleviate AI anxiety of employees.Employer organizations should provide appropriate guidance when introducing AI technology to prevent AI anxiety and associated emotional exhaustion and deviant behavior.
基金Funded by the Natural Science Foundation of Henan(No.252300421563)the Key Research Projects of Henan Provincial Colleges and Universities(No.25B450001)+3 种基金the Basic and Frontier Research Project of Nanyang(No.24JCQY032)National Natural Science Foundation of China(No.52201044)the Key Specialized Research&Development and Promotion Project(Scientific and Technological Project)of Henan Province(No.232102221022)the Basic and Frontier Technology Research Project of Nanyang(No.23JCQY1001)。
文摘This paper presented a novel and environmentally friendly approach for recovering platinum group metals(PGMs)from spent automotive exhaust catalysts.The study employed lead slag and waste graphite electrodes as raw materials,incorporating CaO as an additive to fine-tune the slag's viscosity and density.By reducing FeO in the lead slag using waste graphite electrodes,pure Fe was obtained,effectively trapping the PGMs from the exhausted catalysts.The study explored the effects of reductant addition,trapping duration,slag basicity,and trapping temperature on the recovery rate of PGMs.The results indicated that a maximum recovery rate of 97.86%was achieved when the reductant was added at 1.5 times the theoretical amount,with a trapping duration of 60 minutes,a slag basicity of 0.7,and a trapping temperature of 1600℃.This research offered a greener pathway for the recovery of PGMs from spent automotive exhaust catalysts.
基金supported by Jiangxi 03 Special and 5G Project(20232ABC03A33)Ganpo Talent Support Program(20232BCJ23106)。
文摘Based on 5G and IoT technology,this study addresses the issues of manual control dependency,poor reliability,and high labor costs in traditional ceramic kiln exhaust cover operations.An intelligent control system for kiln exhaust covers was designed in this paper.The system employs temperature measurement devices to monitor the internal temperature of the kiln in real time.A controller automatically operates the actuator to open or close the kiln exhaust cover based on temperature measurements.Additionally,the system integrates data transmission units and cloud services,enabling remote monitoring of kiln temperature and historical data storage.Experimental results demonstrate that the system effectively reduces labor costs and significantly enhances the IoT capabilities of kiln operations.
基金the joint financial support from the National Natural Science Foundation of China and Baowu Group Co.,Ltd.(Grant No.U1660205)the Fundamental Research Funds for the Central Universities(Grant No.N2007001).
文摘The high melting point element W and the rare earth element Ce were added to 18Cr-Mo(444-type)ferritic stainless steel to improve its high-temperature oxidation resistance in exhaust gas.A simulated exhaust gas was filled in the simultaneous thermal analyzer to simulate the service environment,and the oxidation behavior in high-temperature exhaust gas environment of 444-type ferritic stainless steel alloyed with W and Ce was investigated.The oxide structure and composition formed in this process were analyzed and characterized by scanning electron microscopy/energy-dispersive spectroscopy and electron probe analysis,and the mechanism of W and Ce in the oxidation process was revealed.The results show that 18Cr-Mo ferritic stainless steel containing W and Ce has better oxidation resistance in high-temperature exhaust gas.The element W can promote the precipitation of Laves phase at the matrix/interface,inhibit the interface diffusion of oxidizing elements and prevent the inward growth of the oxide film.The element Ce can suppress the volume of SiO_(2)at the oxide film/interface,reducing the breakaway oxidation caused by cracking of the oxide film.The CeO_(2)provides nucleation sites for oxide particles,promoting the healing of cracks and voids within the oxide film.
基金supported by grants from the National Natural Science Foundation of China(Grant No.82171810)the Program of Shandong Provincial Scientific and Technological Development of Traditional Chinese Medicine(Grant No.M-2023210)。
文摘CD8^(+)T cell exhaustion,a critical challenge in the immune response to cancer,is characterized by a profound decline in the functionality of effector CD8^(+)T cells.This state of exhaustion is accompanied by the upregulation of various inhibitory receptors and significant shifts in both transcriptional and epigenetic profiles,thus ultimately leading to inadequate tumor control.Therapeutic strategies aimed at reversing CD8^(+)T cell exhaustion have the potential to rejuvenate immune responses and enhance treatment efficacy.This review compiles current knowledge regarding the molecular mechanisms underlying CD8^(+)T cell exhaustion,including the roles of immune checkpoint molecules,the tumor microenvironment,metabolic reprogramming,transcription factors,and epigenetic modifications.Emerging therapeutic approaches designed to combat CD8^(+)T cell exhaustion are evaluated,with emphasis on the modulation of immune checkpoints;targeting of metabolic and transcriptional changes;and exploration of other innovative strategies,such as epigenetic editing and engineered CAR-T cells.Importantly,we expand the exhaustion concept to immune cells beyond CD8^(+)T cells,such as CD4^(+)T cells,natural killer cells,and myeloid populations,thereby highlighting the broader implications of systemic immunosuppression in the cancer context.Finally,we propose avenues for future research aimed at further elucidating the factors and molecular mechanisms associated with CD8^(+)T cell exhaustion,thereby underscoring the critical need for strategies aimed at reversing this state to improve outcomes in cancer immunotherapy.
基金supported by grants from the National Key Research and Development Program of China(No.2022YFA1304504)National Natural Science Foundation of China(No.82293633 and 82270180)。
文摘Exhausted T cell(Tex)is a specific state of T cell dysfunction,in which these T cells gradually lose their effector function and change their phenotype during chronic antigen stimulation.The enrichment of exhausted CD8^(+)T cell(CD8^(+)Tex)in the tumor microenvironment is one of the important reasons leading to the poor efficacy of immunotherapy.Recent studies have reported many reasons leading to the CD8^(+)T cell exhaustion.In addition to cancer cells,myeloid cells can also contribute to T cell exhaustion via many ways.In this review,we discuss the history of the concept of exhaustion,CD8^(+)T cell dysfunction states,the heterogeneity,origin,and characteristics of CD8^(+)Tex.We then focus on the effects of myeloid cells on CD8^(+)Tex,including tumor-associated macrophages(TAMs),dendritic cells(DCs)and neutrophils.Finally,we systematically summarize current strategies and recent advancements in therapies reversing and CD8^(+)T cell exhaustion.
基金supported by grants from the National Natural Science Foundation of China (Grant No. 32270955)the Jiangsu Provincial Medical Key Discipline (Grant No. YXZDXK202236)+1 种基金the Key Project of Jiangsu Provincial Health Commission (Grant No. K2023069)the Science and Technology Support Plan (Social Development) Project of Changzhou (Grant No. CE20235058)。
文摘In exploring persistent infections and malignancies, a distinctive subgroup of CD8^(+) T cells, progenitor exhausted CD8^(+) T(Tpex) cells, has been identified. These Tpex cells are notable for their remarkable self-renewal and rapid proliferation abilities. Recent strides in immunotherapy have demonstrated that Tpex cells expand and differentiate into responsive exhausted CD8^(+) T cells, thus underscoring their critical role in the immunotherapeutic retort. Clinical examinations have further clarified a robust positive correlation between the proportional abundance of Tpex cells and enhanced clinical prognosis. Tpex cells have found noteworthy applications in the formulation of inventive immunotherapeutic approaches against tumors. This review describes the functions of Tpex cells in the tumor milieu, particularly their potential utility in tumor immunotherapy. Precisely directing Tpex cells may be essential to achieving successful outcomes in immunotherapy against tumors.
文摘Experiments were conducted in this study to examine the thermal performance of a thermosyphon,made from Inconel alloy 625,could recover waste heat from automobile exhaust using a limited amount of fluid.The thermosyphon has an outer diameter of 27 mm,a thickness of 2.6 mm,and an overall length of 483 mm.The study involved directing exhaust gas onto the evaporator.This length includes a 180-mm evaporator,a 70-mm adiabatic section,a 223-mm condenser,and a 97-mm finned exchanger.The study examined the thermal performance of the thermosyphon under exhaust flow rates ranging from 0–10 g/sec and temperatures varying from 300℃–900℃.The influence of three parameters—inclination angle(5°–45°),water mass(2–5.3 g),and the quantity of non-condensable gas Argon(0–0.6 g)—was investigated to assess their impacts on the thermosyphon’s thermal efficiency.The experimental findings revealed that with 3 g of water and 0.0564 g of argon in the thermosyphon,the condenser reached its highest temperature at around 200℃.The ideal fuel loading rate for the thermosyphon falls between 0.2 and 0.7 g/s.Moreover,as inclination angles rise,outer wall temperatures of the thermosyphon increase.This is attributed to the explicit expansion of the effective heating area within the evaporation section,coupled with an amplified gravitational component of the water flux.Additionally,an upsurge in the quantity of non-condensable gas(NCG)can mitigate temperature gradients on the outer wall,resulting in a decline in the thermosyphon’s performance.The insulation applied to the adiabatic section demonstrated efficacy in augmenting temperature gradients on the outer wall,thereby improving the overall performance of the thermosyphon.As the water charge within the thermosyphon increases,there is a corresponding rise in heat transfer rates both from the exhaust to the thermosyphon and from the thermosyphon to the fuel.
基金Supported by Natural Science Fund project of youth of Hebei Education Department:QN2016021key scientific project of Administration of Traditional Chinese Medicine of Hebei Province:2016011
文摘Objective To explore the effect of moxibustion at "Shénquè"(神阙 CV 8) on the immune system of rats taking long-term exhaustive exercise.Method Thirty male SD rats were randomly divided into blank group,model group and moxibustion group with 10 rats in each group.Except the rats in blank group,all the rats were established into long-term exhaustive models through swimming again and again.Mild moxibustion at CV 8 for 15 min was carried out in the rats in moxibustion group after modeling.The treatment was conducted once every other day,and treatment for 10 times was needed.The exhaustive duration for each time was recorded,the levels of serum Ig A,Ig G,Ig M and ACP were detected 24 h after the 10 th exhaustive exercise,and the histomorphological changes of spleen were observed.Immunoturbidimetry was adopted for detecting the Ig A level,and ELISA method was used for detecting the levels of Ig G,Ig M and ACP.Results The common exhaustive duration in moxibustion group was longer than that in model group,however,the time difference was statistically significant after the 5th exhaustive exercise(P0.01).The levels of serum IgG and IgM in model group were lower than that in blank group(all P0.01),and the serum ACP level in model group was higher than that in blank group(P0.01),indicating that the splenic histomorphology was damaged.The levels of serum Ig G and Ig M in moxibustion group were higher than that in model group(all P0.01),and the serum ACP level in moxibustion group was lower than that in model group,showing that the splenic histomorphology was repaired.Conclusion Moxibustion at CV 8 can improve the levels of immunoglobulin(Ig G,Ig A,Ig M) of tired body for a long time,decrease the ACP level,and repair the damaged spleen tissues.
文摘Test results of reducing two stroke motorcycle emissions with new type carburettors and electronic fuel injection systems are presented. Analyses and comparison between different systems are discussed. The adoption of electronically controlled injection and corresponding electronic control technique is an effective measure of prolonged vitality to improve emissions from two stroke motorcycles. Suggestions about the strategic steps of China′s motorcycle emission control are proposed.
基金Project supported by the National Key R&D Program of China(No.2018YFC0808103)。
文摘This study focused on increasing the efficiency of the smoke exhaust system of an extra-wide(eight-lane,dual-directional)immersed tunnel with a specific quantity of exhaust.The Shenzhen-Zhongshan immersed tunnel was selected as the application example.A numerical simulation based on fire dynamics simulator was conducted.In the model,the concrete structure of the main body of the immersed tubes was not altered.The adoption of supplementary exhaust ducts increased the efficiency from 73%to 98%under the condition of no longitudinal wind.When a 50-MW fire occurred between two adjacent ducts,with a longitudinal wind velocity of 2 m/s,the efficiency reached 88%or more when the two ducts were opened.Furthermore,a safety evacuation path was developed.The results suggest that the addition of supplementary exhaust ducts combined with a rational longitudinal wind velocity is necessary for an extra-wide immersed tunnel.
文摘Tourism is of vital practical significance to low-carbon economic transition of resources-exhausted cities.By taking Gejiu City of Yunnan Province for example,the paper discussed that Gejiu City as the resources-exhausted city should positively develop tourism,particularly industrial heritage tourism,treating tourism development as the breakthrough and motive power of low-carbon economic transition of resources-exhausted cities,so as to walk out a unique road of tourism promoting low-carbon economic development.
文摘An improved near far field divided coupled method was established to investigate the electromagnetic properties of mildly overexpanded and underexpanded rocket exhaust plumes. Firstly, axisymmetric Navier Stokes equations incorporated with k ε two equation turbulence models were solved using time dependent approach to calculate the pressure of the near filed. Secondly, parabolized axisymmetric Navier Stokes equations incorporated with finite rate chemical kinetics models were marching on the detailed pressure map of the near field. The termination of the near field would yield the initial line for the far field. In addition, in the far field, the spatial marching method was directly used under the constant pressure condition, but considering more complicated chemically reacting process. Finally, the electromagnetic parameters of the whole plume were calculated with the electron conductive model. The calculated results of the overexpanded and underexpanded rocket exhaust plume were discussed. The predicted microwave attenuation accorded with the experimental results. This improved method is feasible for calculating the microwave attenuation characteristics of mildly non fully expanded rocket exhaust plumes.
文摘In the tumor immune microenvironment, CD8<sup>+</sup> T cells differentiate towards functional failure. The exhaustion of CD8<sup>+</sup> T cells (Tex) showed varying degrees of effect dysfunction, loss of proliferation ability, and sustained high expression of a variety of inhibitory receptors, with metabolic and epigenetic changes. Tex cells are heterogeneous, including several subsets with different characteristics at different stages of differentiation. Immune checkpoint inhibitors (ICIs) can restore the effect or function of Tex cells, indicating that this T cell subset plays a key role in tumor immunotherapy. The understanding of the mechanism of CD8<sup>+</sup> T cell exhaustion will be helpful to the implementation of tumor immunotherapy. This article reviews the production, differentiation and functional characteristics of Tex cells and their relationship with tumor immunotherapy.
基金Supported by Natural Science Fund Project of Youth of Hebei Education Department:QN2016021Key Scientific Project of Administration of Traditional Chinese Medicine of Hebei Province:2016011 and 2017011
文摘Objective To explore the effect of moxibustion at Shenque (神阙 CV 8) on the anti-exercise-induced fatigue in rats after exhaustive exercise in varying degrees. Methods Seventy-two SD rats were randomly divided into 3 groups according to the random number table method, including blank group, model group and moxibustion group. The model group and moxibustion group were divided into 4 subgroups respectively, that was 1 time, 4 times, 7 times and 10 times subgroup. There were 9 groups with 8 rats in each group. Except blank group, all the rats were established into exhaustive models through swimming. Mild moxibustion at CV 8 was carried out for 15 min in the rats in moxibustion group after modeling for once every other day. The concentration of serum glucose (GLU), malonaldehyde (MDA) and blood urea nitrogen (BUN) as well as the activity of aspartate transaminase (AST), alanine transaminase (ALT) and lactic dehydrogenase (LDH) were detected 24h after the exhaustive exercise by adopting full-automatic analyzer. Results The exhaustive time of rats were long at first but shorter later. The exhaustive time of rats in the model group (4 times) were obviously longer than that in the model group (1 time) (P〈0.01), the exhaustive time of rats in the model group (7 times) and model group (10 times) were obviously shorter than that in the model group (1 time) (P〈0.01), and the exhaustive time of rats in the moxibustion group (7 times) and moxibustion group (10 times) were obviously longer than that in the model group with the same number of times (P〈0.01), the serum GLU level of rats in the model group (7 times) and model group (10 times) increased when compared with the blank group (P〈0.01), and the serum MDA and BNU levels as well as the activity of AST, ALT and LDH of rats in the model group (4 times), model group (7 times) and model group (10 times) increased when compared with the blank group (P〈0.05 or P〈0.01), the serum GLU, MDA and BNU levels as well as the activity of AST and ALT of rats in the moxibustion group (7 times) and moxibustion group (10 times) reduced when compared with the model group with the same number of times (P〈0.05 or P〈0.01), and the serum LDH activity of rats in the moxibustion group (4 times), moxibustion group (7 times) and moxibustion group (10 times) reduced when compared with the model group with the same number of times (P〈0.05 or P〈0.01). Conclusion Moxibustion at CV 8 can reduce the serum MDA and BNU levels as well as the activity of AST, ALT and LDH of organism in a status of long-term fatigue, effectively improve the symptom of long-term fatigue, providing a certain experimental basis for the clinical application of moxibustion at CV 8 in the process of anti-exercise-induced fatigue in the future.
基金the National Natural Science Foundation of China(Grant No.11072032)
文摘The infrared radiation signature of the plume from solid propellants with different energy characteristics is not the same. Three kinds of double-base propellants of different energy characteristics are chosen to measure the infrared spectral radiance from 1000 cm 1 to 4500 cm 1 of their plumes. The radiative spectrum is obtained in the tests. The experimental results indicate that the infrared radiation of the plume is determined by the energy characteristics of the propellant. The radiative transfer calculation models of the exhaust plume for the solid propellants are established. By including the chemical reaction source term and the radiation source term into the energy equation, the plume field and the radiative transfer are solved in a coupled way. The calculated results are consistent with the experimental data, so the reliability of the models is confirmed. The temperature distribution and the extent of the afterburning of the plume are distinct for the propellants of different energy characteristics, therefore the plume radiation varies for different propellants. The temperature of the fluid cell in the plume will increase or decrease to some extent by the influence of the radiation term.
基金supported by the Hi-Tech Research and Development Program (863) of China (No.SQ2009AA06Z313)the National Natural Science Foundation of China (No. 20803093,20833011)+1 种基金the Doctor Selected Foundation for the University of State Education Ministry of China (No. 200804251016)the Beijing Outstanding Ph.D Thesis Foundation (No. YB20091141401)
文摘A novel four-way combining catalysts containing double layers was applied to simultaneously remove four kinds of exhaust pollutants (NOx, CO, HC and PM) emitted from diesel engine. The four-way catalysts were characterized using scanning electron microscope (SEM) and Ultraviolet visible diffuse reflectance spectroscopy (UV-Vis DRS). Their catalytic performances were evaluated by temperature-programmed reaction technology. The double layer catalysts could effectively remove the four main pollutants. The highest catalytic activity was given by the two-layered catalysts of La0.6 K0.4CoO3/Al2O3 and W/HZSM-5. Under the simulated exhaust gases conditions, the peak temperature of the soot combustion was 421℃, the maximal conversion of NO to N2 was 74%, the temperature of the HC total conversion was 357℃, and the maximum conversion ratio of CO was 99%.
文摘One of the most important characteristic signatures of the exhaust plume from rocket motor is the aflerbuming phenomenon, and the injected water into the plume could inhibit the afterburning. The calculation model for the gas-liquid multiphase flow field with chemical reaction in the plume is built. By inducing the energy source terms caused by the vaporization of liquid water, condensation of the vapor and chemical reaction in the energy equation, the gas-liquid multiphase flow field and the afterburning phenomenon are calculated in a coupling way. Mixture multiphase flow model is used to calculate the gas-liquid flow field, and the vaporization mechanism is used to investigate the water vaporization process. The temperature contours are obtained and accord well with the experimental photos. The mass fraction contours of primary species are obtained, which can indicate the extent of inhibition effect of water injection on the afterburning phenomenon in the plume. When water is injected into the plume, the region of aflerburning reduces a lot, and temperature on the ground wall declines rapidly, which can decrease the ablation of the combustion gas to the launch ground.
文摘Investment and suction casting (ISC) represents an economic and promising process route to fabricate auto-motive exhaust valves of γ-TiAI based alloys, but information available on the metal flow and the temperature changeseduring mould filling and solidification process for the ISC process is meager. A sequentially coupled mathematical flow-thermal model, based on the commercial finite-volume/finite-difference code FLOW-3D and the finite-element code PROCAST, has been developed to investigate the ISC process. In term of calcu-lating the flow and temperature fields during the filling and solidification stages, potential defects including the gas bubbles and the surface air entrainment occurred in the mould filling process and the shrinkage porosities formed in the solidification process are predicted and the reasons for the formation of these defects are also analyzed. The effects of filling pressure difference control methods and moulds on gas bubble and surface air entrainment behavior are presented. It is found that by changing the filling pressure difference control methods from general suction casting to "air leakage" suction casting and reducing air leakage flow rates, the gas bubbles are eliminated effectively, and the surface air entrainment attenuate dramatically. With resort to a mould with a tetragonal runner, the surface air entrainment decrease to the lowest level. Finally, the water analogue and suction casting experiments of exhaust valves are implemented for further validation of the simulation results.
