Practical Strategies to Improve the Quality of Teachers in Higher Vocational Colleges in the New Era

In this paper,practical strategies are proposed to improve the quality of teachers in higher vocational colleges.Research and analyses have shown that the key to improving the quality of teachers in higher vocational colleges lies in the improvement of professionalism,subject knowledge,and teaching ability.Thus,the following practical strategies are proposed:strengthen teachers’moral development,establish a teacher training system,focus on curriculum construction and teaching method innovation,and strengthen the teaching quality monitoring and evaluation mechanism.These measures can effectively improve the quality of teachers in higher vocational colleges and promote the development of higher vocational education.

Jiaohong pills attenuate neuroinflammation and amyloid-βprotein-induced cognitive deficits by modulating the mitogen-activated protein kinase/nuclear factor kappa-B pathway

Background:Jiaohong pills(JHP)consist of Pericarpium Zanthoxyli(PZ)and Radix Rehmanniae,two herbs that have been extensively investigated over many years due to their potential protective effects against cognitive decline and memory impairment.However,the precise mechanisms underlying the beneficial effects remain elusive.Here,research studies were conducted to investigate and validate the therapeutic effects of JHP on Alzheimer's disease.Methods:BV-2 cell inflammation was induced by lipopolysaccharide.AD mice were administered amyloid-β(Aβ).Behavioral experiments were used to evaluate learning and memory ability.The levels of nitric oxide(NO),tumor necrosis factor-alpha(TNF-α),interleukin-1β(IL-1β),and interleukin-10(IL-10)were detected using enzymelinked immunosorbent assay(ELISA).The protein expressions of inducible nitric oxide synthase(iNOS)and the phosphorylation level of mitogen-activated protein kinase(MAPK)and nuclear factor kappa-B(NF-κB)were detected using Western blot.Nissl staining was used to detect neuronal degeneration.Results:The results demonstrated that an alcoholic extract of PZ significantly decreased the levels of NO,IL-1β,TNF-α,and iNOS;increased the expression level of IL-10;and significantly decreased the phosphorylation levels of MAPK and NF-κB.These inhibitory effects were further confirmed in the AD mouse model.Meanwhile,JHP improved learning and memory function in AD mice,reduced neuronal damage,and enriched the Nissl bodies in the hippocampus.Moreover,IL-1βand TNF-αin the cortex were significantly downregulated after JHP administration,whereas IL-10showed increased expression.Conclusions:It was found that JHP reduced neuroinflammatory response in AD mice by targeting the MAPK/NF-κB signaling pathway.

Photocatalytic H2 Evolution on TiO2 Assembled with Ti3C2 MXene and Metallic 1T-WS2 as Co-catalysts

The biggest challenging issue in photocatalysis is efficient separation of the photoinduced carriers and the aggregation of photoexcited electrons on photocatalyst’s surface.In this paper,we report that double metallic co-catalysts Ti3C2 MXene and metallic octahedral(1T)phase tungsten disulfide(WS2)act pathways transferring photoexcited electrons in assisting the photocatalytic H2 evolution.TiO2 nanosheets were in situ grown on highly conductive Ti3C2 MXenes and 1T-WS2 nanoparticles were then uniformly distributed on TiO2@Ti3C2 composite.Thus,a distinctive 1T-WS2@TiO2@Ti3C2 composite with double metallic co-catalysts was achieved,and the content of 1T phase reaches 73%.The photocatalytic H2 evolution performance of 1T-WS2@TiO2@Ti3C2 composite with an optimized 15 wt%WS2 ratio is nearly 50 times higher than that of TiO2 nanosheets because of conductive Ti3C2 MXene and 1T-WS2 resulting in the increase of electron transfer efficiency.Besides,the 1T-WS2 on the surface of TiO2@Ti3C2 composite enhances the Brunauer–Emmett–Teller surface area and boosts the density of active site.

Cobalt and Nitrogen Co-Doped Nano-Porous Carbon: Synthesis and Application for Lithium-Sulfur Battery

S@C-Co-N nanoporous carbon co-doped with cobalt and nitrogen as the cathode of lithium-sulfur battery are prepared. The synthetic route is carried out via the carbonization of metal organic frameworks polyhedron ZIF-67, followed by the heat treatment with sulfur. The SEM images suggest that C-Co-N composite maintains almost the same size and polyhedron shape of ZIF-67. The XRD pattern confirms the existence of cobalt element. As cathode for lithium-sulfur battery, the S@C-Co-N composite delivers a reversible capacity of 916.6 mAh?g?1 at the initial cycle and 460.5 mAh?g?1 after 500 cycles at 0.5 C, with a capacity fading of 0.09% per cycle.

Application of BIM in Architectural Design,Project Construction,and Project Management

The construction quality and efficiency of construction engineering are directly related to people's daily life.Therefore,construction enterprises must keep pace with the times and actively introduce advanced technical means into architectural design,project construction,and management,so as to ensure the quality and safety of construction to the maximum extent.The application of BIM not only improves the efficiency of construction and construction quality,but also realizes the control of construction cost.This study explores and analyzes the advantages of BIM as well as proposes application strategies of BIM in architectural design,project construction,and management,hoping to contribute to the smooth construction of construction engineering.

沉积于含硼金属有机框架的Pt(Ⅱ)通过抑制分解来增强光催化H_(2)O_(2)的产生

H_(2)O_(2)作为一种重要的化工资源越来越受到关注,它不仅是环境友好的氧化剂,而且是很有应用前景的新型液体燃料.目前生产H_(2)O_(2)主要采用蒽醌法,该方法存在能耗高、副产物有毒等缺点.光催化合成H_(2)O_(2)因对环境友好而受到广泛关注,该合成反应中同时发生H_(2)O_(2)的生成和分解.目前光催化合成H_(2)O_(2)相关研究主要集中在H_(2)O_(2)的生成,而有关H_(2)O_(2)分解的研究较少.研究发现Pt作为助催化剂在提高光催化活性方面发挥着重要作用,但Pt价态对光催化活性的影响,特别是对H_(2)O_(2)的生成和分解的影响,尚未进行详细研究.本文将不同价态的Pt沉积在含硼金属有机骨架(UiO-67-B)上,详细研究了Pt(0),Pt(Ⅱ)和Pt(Ⅳ)在光催化产H_(2)O_(2)过程中的作用.粉末X射线衍射(XRD)、X射线光电子能谱(XPS)和傅里叶转换红外光谱(FT-IR)等表征结果证明了UiO-67-B/Pt(0),UiO-67-B/Pt(Ⅱ)和UiO-67-B/Pt(Ⅳ)样品的成功制备.此外,UiO-67-B/Pt(Ⅱ)的高分辨Cl 2p XPS光谱中出现了Cl-HO(Zr)峰,而且FT-IR谱中出现Cl-H键表明,[PtCl_(4)]^(2-)中的Cl与UiO-67-B中Zr-OH处的H进行了络合.密度泛函理论计算结果表明,UiO-67-B/Pt(Ⅱ)上Cl与H之间存在弱吸附,进一步证明了上述结论.光催化反应结果表明,样品中UiO-67-B/Pt(Ⅱ)催化生成H_(2)O_(2)产率最高,达到8275μmol L^(-1)h^(-1).H_(2)O_(2)生成和分解速率常数拟合结果表明,Pt(Ⅱ)的存在不仅促进H_(2)O_(2)的生成,而且抑制了光催化过程中H_(2)O_(2)的分解.光催化H_(2)O_(2)分解实验进一步证明了Pt(Ⅱ)对H_(2)O_(2)分解的抑制作用.O_(2)程序升温脱附和高角度环形暗场扫描透射电子显微镜结果表明,UiO-67-B/Pt(Ⅱ)具有最大的O_(2)吸附量,且Pt(Ⅱ)以单原子形式存在,这为O_(2)的吸附提供了更多的吸附位点.光致发光光谱、荧光寿命、光电流响应和阻抗图谱结果均表明,UiO-67-B/Pt(Ⅱ)拥有更高的载流子转移和分离能力,说明Pt(Ⅱ)与UiO-67-B的相互作用建立了一个电子传输通道,有效促进了UiO-67-B/Pt(Ⅱ)的电荷传输和分离.电子空间分布图也进一步证明了该结论.此外,进一步计算了反应过程中每一步所需的热力学自由能,包括O_(2)吸附、中间体质子化过程和H_(2)O_(2)解吸过程.结果表明,Pt(Ⅱ)的引入更有利于O_(2)的吸附和·O_(2)-质子化,且Pt(Ⅱ)的存在有利于H_(2)O_(2)的解吸.综上,本工作系统地研究了铂价态对H_(2)O_(2)生成的影响,为设计具有良好的H_(2)O_(2)产生效率的光催化剂提供了一种新策略.

GIS partial discharge data enhancement method based on self attention mechanism VAE-GAN

The reliability of gas-insulated switchgear(GIS)partial discharge fault diagnosis is crucial for the safe and stable operation of power grids.This study proposed a data enhancement method based on a self-attention mechanism to optimize the VAE-GAN method and solve the problem of the lack of partial discharge samples and the unbalanced distribution between different defects.First,the non-subsampled contourlet transform(NSCT)algorithm was used to fuse the UHF and optical partial discharge signals to obtain a photoelectric fusion phase resolved partial discharge(PRPD)spectrum with richer information.Subsequently,the VAE structure was introduced into the traditional GAN,and the excellent hidden layer feature extraction ability of the VAE was used to guide the generation of the GAN.Then,the self-attention mechanism was integrated into the VAE-GAN,and the Wasserstein distance and gradient penalty mechanisms were used to optimize the network loss function and expand the sample sets to an equilibrium state.Finally,the KAZE and polar coordinate distribution entropy methods were used to extract the expanded samples.The eigenvectors of the sets were substituted into the long short-term memory(LSTM)network for partial discharge fault diagnosis.The experimental results show that the sample generation quality and fault diagnosis results of this method were significantly better than the traditional data enhancement method.The structure similarity index measure(SSIM)index is increased by 4.5%and 21.7%,respectively,and the average accuracy of fault diagnosis is increased by 22.9%,9%,5.7%,and 6.5%,respectively.The data enhancement method proposed in this study can provide a reference for GIS partial discharge fault diagnosis.

Supramolecular systems for bioapplications:recent research progress in China

Supramolecular systems feature dynamic,reversible and stimuli-responsive characteristics,which are not easily achieved by molecular entities.The last decade has witnessed tremendous advances in the investigations of supramolecular systems for various bioapplications,which include drug delivery,anticancer therapy,antibacterial therapy,photodynamic therapy,photothermal therapy,combination therapy,antidotes for residual drugs or toxins,and bioimaging and biosensing.Host-guest chemistry has played a key role in the development of such bioactive supramolecular systems,and natural macrocycles(such as cyclodextrins),synthetic macrocycles(such as calixarenes,cucurbit[n]urils,and pillararenes),and porous framework polymers(such as supramolecular organic frameworks and flexible organic frameworks)have been most successfully used as hosts to build different kinds of host-guest systems for attaining designed biofunctions.The self-assembly of rationally designed amphiphilic molecules,macromolecules and polymers represent another important approach for the construction of supramolecular architectures with advanced biofunctions.In this review,we summarize the important contributions made by Chinese researchers in this field,with emphasis on those reported in the past five years.

The Therapeutic Effects of Baicalein on the Hepatopulmonary Syndrome in the Rat Model of Chronic Common Bile Duct Ligation

Background and Aims:Hepatopulmonary syndrome(HPS)is characterized by arterial oxygenation defects due to pulmonary vascular dilation in liver disease.To date,liver transplantation remains the only effective treatment for HPS.This study aimed to explore the preventative role of baicalein in HPS development.Methods:Sixty male rats were randomly assigned to three groups:sham,common bile duct ligation(CBDL),and baicalein,receiving intraperitoneal injections of baicalein(40 mg·kg^(-1)·d^(-1),diluted in saline)for 21 days.Survival rate,liver and kidney function,and bile acid metabolism levels were evaluated.Liver and lung angiogenesis and hepatic glycogen staining were assessed,and the expression of relevant proteins was evaluated by immunohistochemistry.Results:Baicalein improved survival rates and hypoxemia in rats post-CBDL,reducing angiogenic protein levels and enhancing glucose homeostasis.Compared to the untreated group,baicalein suppressed the expression of vascular endothelial growth factor,placental growth factors,matrix metalloprotease 9 and C-X-C motif chemokine 2,and it increased the expression of glycemic regulatory proteins,including dipeptidyl peptidase-4,sirtuin 1,peroxisome proliferatoractivated receptor gamma co-activator 1α,and 6-phosphofructo-2-kinase/fructose-2,6-biphosphatase 3.Conclusion:Baicalein significantly improves hepatic function and hypoxia in HPS rats by attenuating pathological angiogenesis in the liver and lungs,showing promise as a treatment for HPS.

LonP1 Links Mitochondria–ER Interaction to Regulate Heart Function

Interorganelle contacts and communications are increasingly recognized to play a vital role in cellular function and homeostasis.In particular,the mitochondria–endoplasmic reticulum(ER)membrane contact site(MAM)is known to regulate ion and lipid transfer,as well as signaling and organelle dynamics.However,the regulatory mechanisms of MAM formation and their function are still elusive.Here,we identify mitochondrial Lon protease(LonP1),a highly conserved mitochondrial matrix protease,as a new MAM tethering protein.The removal of LonP1 substantially reduces MAM formation and causes mitochondrial fragmentation.Furthermore,deletion of LonP1 in the cardiomyocytes of mouse heart impairs MAM integrity and mitochondrial fusion and activates the unfolded protein response within the ER(UPR^(ER)).Consequently,cardiac-specific LonP1 deficiency causes aberrant metabolic reprogramming and pathological heart remodeling.These findings demonstrate that LonP1 is a novel MAM-localized protein orchestrating MAM integrity,mitochondrial dynamics,and UPR^(ER),offering exciting new insights into the potential therapeutic strategy for heart failure.

Artemisinin, the Magic Drug Discovered from Traditional Chinese Medicine

Artemisinin and its derivatives represent the most important and influential class of drugs in the fight against malaria. Since the discovery of artemisinin in the early 1970s, the global community has made great strides in characterizing and understanding this remarkable phytochemical and its unique chemical and pharmacological properties. Today, even as artemisinin continues to serve as the foundation for antimalarial therapy, numerous challenges have surfaced in the continued application and development of this family of drugs. These challenges include the emergence of delayed treatment responses to artemisinins in malaria and efforts to apply artemisinins for non-malarial indications. Here, we provide an overview of the story of artemisinin in terms of its past, present, and future. In particular, we comment on the current understanding of the mechanism of action (MOA) of artemisinins, and emphasize the importance of relating mechanistic studies to therapeutic outcomes, both in malarial and non-malarial contexts.

Acetone sensors for non-invasive diagnosis of diabetes based on metal-oxide-semiconductor materials

In recent years, clinical studies have found that acetone concentration in exhaled breath can be taken as a characteristic marker of diabetes. Metal-oxide-semiconductor (MOS) materials are widely used in acetone gas sensors due to their low cost, high sensitivity, fast response/recovery time, and easy integration. This paper reviews recent progress in acetone sensors based on MOS materials for diabetes diagnosis. The methods of improving the performance of acetone sensor have been explored for comparison, especially in high humidity conditions. We summarize the current excellent methods of preparations of sensors based on MOSs and hope to provide some help for the progress of acetone sensors in the diagnosis of diabetes.

LSDA+U study on the electronic and anti-ferromagnetic properties of Ni-doped CuO and Cu-doped NiO

Doping is an effective way to improve the activity of photocatalysts.The effect of doping on the magnetic properties of some photocatalysts that are easily recycled was studied using the local spin density approximation(LSDA)+U method on typical divalent metal oxide semiconductors CuO,NiO,Ni‐doped CuO,and Cu‐doped NiO.It is found that the influence of Ni doping on the spatial structure of CuO and that of Cu doping on the spatial structure of NiO are negligible because of the similar radii of Ni2+and Cu2+.The valence band and conduction band for Ni‐doped CuO are clearly spin‐split,corresponding to a net effective magnetic moment ofμeff=1.66μB.This may improve the photocatalytic efficiency and raise the recycle rate of photocatalysts.In the Cu‐doped NiO system,the presence of Cu3d states near to the Fermi level increases the width of the valence band and narrows the band gap with respect to that in pure NiO.Beyond the Cu3d states,within the band gap,appear two energy levels around the Fermi level,which may effectively separate the electron‐hole pair and also lead to enhanced absorption of visible light and infrared light.It can be concluded that the observed changes in the band structure may be helpful for improving the activity of photocatalysts and the doped systems have net magnetic moments,meaning that they are easily recycled and can be reused.

Structured Sparse Coding With the Group Log-regularizer for Key Frame Extraction

Key frame extraction based on sparse coding can reduce the redundancy of continuous frames and concisely express the entire video.However,how to develop a key frame extraction algorithm that can automatically extract a few frames with a low reconstruction error remains a challenge.In this paper,we propose a novel model of structured sparse-codingbased key frame extraction,wherein a nonconvex group log-regularizer is used with strong sparsity and a low reconstruction error.To automatically extract key frames,a decomposition scheme is designed to separate the sparse coefficient matrix by rows.The rows enforced by the nonconvex group log-regularizer become zero or nonzero,leading to the learning of the structured sparse coefficient matrix.To solve the nonconvex problems due to the log-regularizer,the difference of convex algorithm(DCA)is employed to decompose the log-regularizer into the difference of two convex functions related to the l1 norm,which can be directly obtained through the proximal operator.Therefore,an efficient structured sparse coding algorithm with the group log-regularizer for key frame extraction is developed,which can automatically extract a few frames directly from the video to represent the entire video with a low reconstruction error.Experimental results demonstrate that the proposed algorithm can extract more accurate key frames from most Sum Me videos compared to the stateof-the-art methods.Furthermore,the proposed algorithm can obtain a higher compression with a nearly 18% increase compared to sparse modeling representation selection(SMRS)and an 8% increase compared to SC-det on the VSUMM dataset.

Unraveling the skatole biodegradation process in an enrichment consortium using integrated omics and culture-dependent strategies

3-Methylindole(skatole)is regarded as one of the most offensive compounds in odor emission.Biodegradation is feasible for skatole removal but the functional species and genes responsible for skatole degradation remain enigmatic.In this study,an efficient aerobic skatole-degrading consortium was obtained.Rhodococcus and Pseudomonas were identified as the two major and active populations by integrated metagenomic and metatranscriptomic analyses.Bioinformatic analyses indicated that the skatole downstream degradation wasmainly via the catechol pathway,and upstream degradation was likely catalyzed by the aromatic ring-hydroxylating oxygenase and flavin monooxygenase.Genome binning and gene analyses indicated that Pseudomonas,Pseudoclavibacter,and Raineyella should cooperate with Rhodococcus for the skatole degradation process.Moreover,a pure strain Rhodococcus sp.DMU1 was successfully obtained which could utilize skatole as the sole carbon source.Complete genome sequencing showed that strain DMU1 was the predominant population in the consortium.Further crude enzyme and RT-qPCR assays indicated that strain DMU1 degraded skatole through the catechol ortho-cleavage pathway.Collectively,our results suggested that synergistic degradation of skatole in the consortium should be performed by diverse bacteria with Rhodococcus as the primary degrader,and the degradation mainly proceeded via the catechol pathway.

Reinforcing DNA Supramolecular Hydrogel with Polymeric Multiple-Unit Linker

While supramolecular hydrogels have received growing interest due to their unique dynamic features,their relatively weak mechanical properties have largely limited their biomedical applications.In this study,we propose and demonstrate a strategy to reinforce the mechanical properties of supramolecular hydrogel by introducing polymeric multiple-unit linker(PMUL),which incorporates multiple supramolecular units into a polymeric backbone to crosslink supramolecular hydrogel.We demonstrated that PMUL can effectively improve the kinetic stability of supramolecular crosslinkers through multiple-unit interaction in a DNA supramolecular hydrogel model system,thus leading to higher mechanical strength.Meanwhile,the dynamic features of the supramolecular hydrogels have been well preserved,including shear-thinning,self-healing properties,and reversible thermal responsiveness.This strategy offers a simple but effective way for mechanical reinforcement of supramolecular hydrogels to construct novel biomaterials.

Spatial and temporal patterns of solar radiation in China from 1957 to 2016

Solar energy is clean and renewable energy that plays an important role in mitigating impacts of environmental problems and climate change.Solar radiation received on the earth's surface determines the efficiency of power generation and the location and layout of photovoltaic arrays.In this paper,the average daily solar radiation of 77 stations in China from 1957 to 2016 was analyzed in terms of spatial and temporal characteristics.The results indicate that Xinjiang,the Qinghai-Tibet Plateau,North,Central and East China show a decreasing trend with an average of 2.54×10^(−3)MJ/(m^(2)⋅10a),while Northwest and Northeast China are basically stabilized,and Southwest China shows a clear increasing trend with an average increase of 1.79×10^(−3)MJ/(m^(2)⋅10a).The average daily solar radiation in summer and winter in China from 1957 to 2016 was 18.74 MJ/m^(2)and 9.09 MJ/m^(2),respectively.Except for spring in Northwest,East and South China,and summer in northeast China,the average daily solar radiation in all other regions show a downward trend.A critical point for the change is 1983 in the average daily solar radiation.Meanwhile,large-scale(25−30 years)oscillation changes are more obvious,while small-scale(5−10 years)changes are stable and have a global scope.The average daily solar radiation shows an increasing-decreasing gradient from west to east,which can be divided into three areas west of 80°E,80°E−100°E and east of 100°E.The average daily solar radiation was 2.07 MJ/m^(2)in the 1980s,and that in 1990s lower than that in the 1960s and the 1970s.The average daily solar radiation has rebounded in the 21st century,but overall it is still lower than the average daily solar radiation from 1957 to 2016(13.87 MJ/m^(2)).

“手”望相助,志虑忠“醇”

通过三个关于醇类消毒剂的小故事,主人公“手”信使找到了醇类的最佳选择和使用方法。本文讲述了生活中使用醇类消毒剂的合适方式:乙醇和丙醇可居家使用;日常最佳醇类使用浓度为70%;日常洗手对于醇类的取与舍。

Advances in synthetic biology-based drug delivery systems for disease treatment

With the increasing demand for personalized and precise treatment,the rapid advancement of synthetic biology technology has inevitably led to the development of nanobiology-based drug delivery systems.Synthetic biology-based drug delivery systems are being increasingly used in the treatment of various diseases.On one hand,synthetic biology technology enables the clever combination of chassis cells,bacteria,and their derivatives with nanomaterials,forming nano-artificial hybrid systems.These systems effectively integrate the functions of both materials,leading to further breakthroughs and optimization of biological functions.On the other hand,synthetic biology strategies guide the self-assembly of modular nanocomponents with biocatalytic or intelligent response functions,resulting in the mimicry of living cell features such as compartmentalization of enzymatic reactions and responsiveness to external stimuli.This provides novel design ideas for the construction of artificial cells.This paper aims to explore the construction and application of biogenic drug delivery systems based on whole cells,cell membrane-encapsulated nanoparticles,exosomes,bacteria,bacterial outer membrane vesicles and artificial cells,taking into account recent advances in this field.The advantages and limitations of current synthetic biology-based nanodrug delivery systems for clinical translation are discussed,and the future prospects of nanotechnology for intelligent drug diagnostic and therapeutic systems are envisioned.

Study on the atmospheric heat engine efficiency and heat source characteristics of the Qinghai-Tibet Plateau in summer

There are many types of atmospheric heat engines in land-air systems.The accurate definition,calculation and interpretation of the efficiency of atmospheric heat engines are key to understanding energy transfer and transformation of landair systems.The atmosphere over the Qinghai-Tibet Plateau(QTP)in summer can be regarded as a positive heat engine.The study of the heat engine efficiency is helpful to better understand land-air interaction and thermal-dynamic processes on the QTP.It also provides a new perspective to explain the impact of the QTP on the climate of China,East Asia and even the world.In this paper,we used MOD08 and ERA5 reanalysis data to calculate the atmospheric heat engine efficiency,surface heat source and atmospheric heat source on the QTP in summer(May to September)from 2000 to 2020.The average atmospheric heat engine efficiency on the QTP in summer from 2000 to 2020 varies between 1.2%and 1.5%,which is less than 1.6%;the heat engine efficiency in summer is higher than that in June,July and August;the Qaidam Basin is the region with the highest atmospheric heat engine efficiency,followed by the western QTP.The mean surface heat source on the QTP in summer from 2000 to 2020 is 96.0 W m^(−2),the atmospheric heat source is 90.7 W m^(−2),and the release of precipitation condensation latent heat is the most important component of the atmospheric heat source on the QTP in summer.There is a strong and significant positive correlation between the atmospheric heat engine efficiency and the surface heat source on the QTP in summer.The precipitation condensation latent heat is the most important component of the atmospheric heat source in summer and can reflect the precipitation process.There is a strong and significant negative correlation between the atmospheric heat engine efficiency and the atmospheric heat source on the QTP in summer.