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A new method for a numerical investigation of windproof performance of porous windbreaks for high-speed railways based on a physical model
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作者 LIU Dong-run WAN Yuan +4 位作者 LI Yan-cheng ZHOU Nan-qing WANG Tian-tian ZHANG Lei LIN Tong-tong 《Journal of Central South University》 2025年第4期1535-1547,共13页
Following the fundamental characteristics of the porosity windbreak,this study suggests a new numerical investigation method for the wind field of the windbreak based on the porous medium physical model.This method ca... Following the fundamental characteristics of the porosity windbreak,this study suggests a new numerical investigation method for the wind field of the windbreak based on the porous medium physical model.This method can transform the reasonable matching problem of the porosity and windproof performance of the windbreak into a study of the relationship between the resistance coefficient of the porous medium and the aerodynamic load of the train.This study examines the influence of the hole type on the wind field behind the porosity windbreak.Then,the relationship between the resistance coefficient of the porous medium,the porosity of the windbreak,and the aerodynamic loads of the train is investigated.The results show that the porous media physical model can be used instead of the windbreak geometry to study the windbreak-train aerodynamic performance,and the process of using this method is suggested. 展开更多
关键词 porous windbreak windproof performance porous media physical model high-speed train
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Ultra-stable lithium-sulfur batteries using nitrogen-doped porous carbon nanosheets implanted with both Fe and Ni 被引量:1
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作者 Reddeppa Nadimicherla TANG You-chen +1 位作者 LU Yu-heng LIU Ru-liang 《新型炭材料(中英文)》 北大核心 2025年第1期188-199,共12页
The major problem with lithium-sulfur(Li-S)batteries is their poor cycling stability because of slow redox kinetics in the cathode and the growth of lithium dendrites on the anode.We report the production of 2D porous... The major problem with lithium-sulfur(Li-S)batteries is their poor cycling stability because of slow redox kinetics in the cathode and the growth of lithium dendrites on the anode.We report the production of 2D porous carbon nanosheets doped with both Fe and Ni(Fe/Ni-N-PCNSs)by an easy and template-free approach that solve this problem.Because of their ultrathin porous 2D structure and uniform distribution of Fe and Ni dopants,they capture polysulfides,speed up the sulfur redox reaction,and improve the material’s lithiophilicity,greatly suppressing the shuttling of polysulfides and dendrite growth on the lithium anode.As a result,it has an exceptional performance as a stable host for elemental sulfur and metallic lithium,producing a record long life of 1000 cycles with a very small capacity decay of 0.00025%per cycle in a Li-S battery and an excellent cycling stability of over 850 h with a small overpotential of>72 mV in a lithium metal battery.This work suggests the use of multifunctional-based 2D porous carbon nanosheets as a stable host for both elemental sulfur and metallic lithium to improve the Li-S battery per-formance. 展开更多
关键词 Li-S battery porous carbon Lithium metal battery NANOSHEETS Redox kinetics
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Modifying the pore structure of biomass-derived porous carbon for use in energy storage systems 被引量:1
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作者 XIE Bin ZHAO Xin-ya +5 位作者 MA Zheng-dong ZHANG Yi-jian DONG Jia-rong WANG Yan BAI Qiu-hong SHEN Ye-hua 《新型炭材料(中英文)》 北大核心 2025年第4期870-888,共19页
The development of sustainable electrode materials for energy storage systems has become very important and porous carbons derived from biomass have become an important candidate because of their tunable pore structur... The development of sustainable electrode materials for energy storage systems has become very important and porous carbons derived from biomass have become an important candidate because of their tunable pore structure,environmental friendliness,and cost-effectiveness.Recent advances in controlling the pore structure of these carbons and its relationship between to is energy storage performance are discussed,emphasizing the critical role of a balanced distribution of micropores,mesopores and macropores in determining electrochemical behavior.Particular attention is given to how the intrinsic components of biomass precursors(lignin,cellulose,and hemicellulose)influence pore formation during carbonization.Carbonization and activation strategies to precisely control the pore structure are introduced.Finally,key challenges in the industrial production of these carbons are outlined,and future research directions are proposed.These include the establishment of a database of biomass intrinsic structures and machine learning-assisted pore structure engineering,aimed at providing guidance for the design of high-performance carbon materials for next-generation energy storage devices. 展开更多
关键词 Energy storage systems porous carbon Biomass precursors Pore structure Machine learning-assisted
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Recent progress on the use of lignin-based porous carbon in supercapacitors
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作者 ZHA Ding-chen WANG Jia-heng +6 位作者 Hao Rui-xiang Wu Yun-feng LI Xiu-he ZHAO Jia-wen LI Wen PIAO Wen-xiang JIANG Nan-zhe 《新型炭材料(中英文)》 北大核心 2025年第1期50-80,共31页
With the development of electronics and portable devices,there is a significant drive to develop electrode materials for supercapacitors that are lightweight,economical,and provide high energy and power densities.Lign... With the development of electronics and portable devices,there is a significant drive to develop electrode materials for supercapacitors that are lightweight,economical,and provide high energy and power densities.Lignin-based porous carbons have recently been extensively studied for en-ergy storage applications because of their characteristics of large specific surface area,easy doping,and high conductivity.Significant progress in the synthesis of porous carbons derived from lignin,using different strategies for their preparation and modification with heteroatoms,metal oxides,met-al sulfides,and conductive polymers is considered and their electrochemical performances and ion storage mechanisms are discussed.Considerable fo-cus is directed towards the challenges encountered in using lignin-based por-ous carbons and the ways to optimize specific capacity and energy density for supercapacitor applications.Finally,the limitations of existing technolo-gies and research directions for improving the performance of lignin-based carbons are discussed. 展开更多
关键词 LIGNIN porous carbon SUPERCAPACITOR CARBONIZATION
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Super Adsorption Behavior of Electrospinning-derived Porous Carbon Nanofibers towards Methyl Blue
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作者 JIANG Zhong-wei LI Xia-chu-qin +2 位作者 HU Cong-yi LI Yuan-fang HUANG Cheng-zhi 《分析测试学报》 北大核心 2025年第9期1878-1888,共11页
Adsorption as an effective technique for the remediation of wastewater has been widely used in industrial wastewater treatment due to the advantage of cost-effectiveness,availability of the adsorbent and ease of opera... Adsorption as an effective technique for the remediation of wastewater has been widely used in industrial wastewater treatment due to the advantage of cost-effectiveness,availability of the adsorbent and ease of operation.However,the low adsorption capacity of the reported adsorbents is still a challenge for wastewater treatment with highefficiency.Here,we developed a super adsorbent(SUA-1),which was a kind of porous carbon nanofibers derived from a composite of PAN-based electrospinning and ZIF-8(PAN/ZIF-8)via simple heat treatment process.The asprepared SUA showed an ultra-high adsorption capacity for adsorbing methyl blue(MB)at nearly three times its own weight,as high as 2998.18 mg/g.A series tests demonstrated that the pore-making effect of ZIF-8 during heat treatment process endowed high BET surface area and generated ZnO components as chemical adsorption center.Under the synergistic effect of bonding and non-bonding forces including ionic bond,electrostatic interaction,andπ-πinteraction,the adsorption capacity has been greatly improved.In view of promising efficiency,this work provides guidance and insights for the preparation of highly efficient adsorbents based on electrospinning derived porous carbon nanofibers. 展开更多
关键词 ELECTROSPINNING porous carbon nanofibers pore-making effect wastewater treatment ADSORPTION
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Ultrafine platinum clusters achieved by metal‑organic framework derived cobalt nanoparticle/porous carbon:Remarkable catalytic performance in dehydrogenation of ammonia borane
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作者 XIE Xinnan ZHANG Boyu +4 位作者 YANG Jianxun ZHONG Yi Osama Younis YANG Jianxiao YANG Xinchun 《无机化学学报》 北大核心 2025年第10期2095-2102,共8页
Ultrafine,highly dispersed Pt clusters were immobilized onto the Co nanoparticle surfaces by one-step pyrolysis of the precursor Pt(Ⅱ)-encapsulating Co-MOF-74.Owing to the small size effects of Pt clusters as well as... Ultrafine,highly dispersed Pt clusters were immobilized onto the Co nanoparticle surfaces by one-step pyrolysis of the precursor Pt(Ⅱ)-encapsulating Co-MOF-74.Owing to the small size effects of Pt clusters as well as the strongly enhanced synergistic interactions between Pt and Co atoms,the obtained Pt-on-Co/C400 catalysts exhib-ited excellent catalytic activity toward the hydrolysis of ammonia borane with an extremely high turnover frequency(TOF)value of 3022 min^(-1)at 303 K.Durability test indicated that the obtained Pt-on-Co/C400 catalysts possessed high catalytic stability,and there were no changes in the catalyst structures and catalytic activities after 10 cycles. 展开更多
关键词 ammonia borane hydrogen generation Pt cluster porous carbon metal-organic framework
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A porous⁃layered aluminoborate built by mixed oxoboron clusters and AlO_(4)tetrahedra
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作者 CHEN Juan YANG Guoyu 《无机化学学报》 北大核心 2025年第1期193-200,共8页
An aluminoborate,Na_(2.5)Rb[Al{B_(5)O_(10)}{B_(3)O_(5)}]·0.5NO_(3)·H_(2)O(1),was synthesized under hydrothermal condition,which was built by mixed oxoboron clusters and AlO_(4)tetrahedra.In the structure,the... An aluminoborate,Na_(2.5)Rb[Al{B_(5)O_(10)}{B_(3)O_(5)}]·0.5NO_(3)·H_(2)O(1),was synthesized under hydrothermal condition,which was built by mixed oxoboron clusters and AlO_(4)tetrahedra.In the structure,the[B_(5)O_(10)]^(5-)and[B_(3)O_(7)]^(5-)clusters are alternately connected to form 1D[B_(8)O_(15)]_(n)^(6n-)chains,which are further linked by AlO_(4)units to form a 2D monolayer with 7‑membered ring and 10‑membered ring windows.Two adjacent monolayers with opposite orientations further form a porous‑layered structure with six channels through B—O—Al bonds.Compound 1 was characterized by single crystal X‑ray diffraction,powder X‑ray diffraction(PXRD),IR spectroscopy,UV‑Vis diffuse reflection spectroscopy,and thermogravimetric analysis(TGA),respectively.UV‑Vis diffuse reflectance analysis indicates that compound 1 shows a wide transparency range with a short cutoff edge of 201 nm,suggesting it may have potential application in UV regions.CCDC:2383923. 展开更多
关键词 hydrothermal synthesis aluminoborate mixed oxoboron cluster porous layer
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The rapid preparation of porous carbon with an improved capacitance
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作者 JIA Ya-jun HAN Zi-yue +7 位作者 LIU Hui-chao CHANG Yun-zhen ZHU Sheng HOU Wen-jing LIU Shu-jie ZHANG Ying ZHANG Jin-jiao HAN Gao-yi 《新型炭材料(中英文)》 北大核心 2025年第6期1265-1278,I0001-I0015,共29页
The typical method for preparing the porous carbon used in supercapacitors(SCs)is time-consuming and energy-intensive.We report a fast and efficient route to synthesize and tailor the structure of porous carbon by a J... The typical method for preparing the porous carbon used in supercapacitors(SCs)is time-consuming and energy-intensive.We report a fast and efficient route to synthesize and tailor the structure of porous carbon by a Joule heating technique(JHT)using phenolic resin and precursors.During the JHT process,the time and energy needed are both significantly reduced because the precursor is heated to the target temperature at a rate of 1100 K/s,so the porous carbon is formed with the release of small molecules and the etching of the substrate by K_(2)CO_(3).JHT has a higher energy efficiency than traditional carbonization methods in a tube furnace and allows for precise control of the pyrolysis process,thus achieving better control of the material’s structure and properties.Samples obtained by JHT contain abundant pores and a large specific surface area(1652.7 m^(2)/g),which give an excellent specific capacitance of 476.0 F/g and rate capability(75.1%capacitance retention at 64.0 A/g in an aqueous alkaline electrolyte).Furthermore,in electrolytes of 17.0 mol/kg NaClO_(4)(water-in-salt)and 1.0 mol/L TEABF4/AN,the symmetric SCs have a maximum energy density of 33.3 and 50.8 Wh/kg at power densities of 220.4 and 376.4 W/kg,respectively.The cells also have good long-term stability,with a nearly 100%Coulombic efficiency,and a capacitance retention of 93.1%in a water-in-salt electrolyte after 10000 cycles,and 88.9%in an organic electrolyte after 8000 cycles.This study shows that JHT has the potential to serve as an ultra-fast method to prepare porous carbons for energy storage. 展开更多
关键词 Ultra-fast preparation porous carbon Structure tailoring Joule heating method Energy storage
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Rare Earth Oxide Surface Modification of Porous SiO_(2) Film Prepared by Atomic Layer Deposition
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作者 JIN Jianfei LÜLin +3 位作者 LI Ying YAN Lu CAO Yunzhen LI Wei 《无机材料学报》 北大核心 2025年第9期1029-1036,I0003,共9页
Broadband transparent films play a pivotal role in various applications such as lenses and solar cells,particularly porous structured transparent films exhibit significant potential.This study investigates a porous Si... Broadband transparent films play a pivotal role in various applications such as lenses and solar cells,particularly porous structured transparent films exhibit significant potential.This study investigates a porous SiO_(2) refractive index gradient anti-reflective film prepared by atomic layer deposition(ALD).A porous SiO_(2) film with gradual porosity was obtained by phosphoric acid etching of Al_(2)O_(3)/SiO_(2) multilayers with gradient Al2O3 ratios,achieving a gradual decrease in refractive index from the substrate to the surface.The film exhibited an average transmittance as high as 97.8%within the wavelength range from 320 nm to 1200 nm.The environmental adaptability was further enhanced by surface modification using rare earth oxide(REO)La_(2)O_(3),resulting in formation of a lotus leaf-like structure and achieving a water contact angle of 100.0°.These data proved that the modification significantly improved hydrophobic self-cleaning capability while maintaining exceptional transparency of the film.The surface structure of the modified film remained undamaged even after undergoing wipe testing,demonstrating its excellent surface durability. 展开更多
关键词 porous SiO_(2) rare earth oxide atomic layer deposition anti-reflective SELF-CLEANING
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Hydrothermal N-doping assisted synthesis of poplar sawdust-derived porous carbons for carbon capture
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作者 HUANG Ting FENG Bing +5 位作者 LU Peipei ZHANG Zhongliang NIU Qi MA Zonghu LI Kai LU Qiang 《燃料化学学报(中英文)》 北大核心 2025年第8期1191-1202,共12页
To optimize the CO_(2) adsorption performance of carbon materials,this study proposed a preparation method for biomass-based porous carbon through hydrothermal carbonization coupled with nitrogen source optimization a... To optimize the CO_(2) adsorption performance of carbon materials,this study proposed a preparation method for biomass-based porous carbon through hydrothermal carbonization coupled with nitrogen source optimization and K_(2)CO_(3) activation.The effects of different nitrogen sources(urea,piperazine,melamine,and polyaniline)and activation temperatures on the physicochemical features and CO_(2) adsorption characteristics of the porous carbons were systematically investigated.The results indicated that different nitrogen sources showed varying impacts on the CO_(2) uptake of porous carbons,and not all nitrogen sources enhanced the adsorption performance.The urea and piperazine doped porous carbons exhibited relatively low nitrogen contents and specific surface areas.Whereas the melamine doped carbons showed higher nitrogen contents and specific surface areas,but lacked narrow micropores,limiting their CO_(2) adsorption performance.In contrast,PAC-700,prepared using polyaniline as nitrogen source,featured a well-developed pore structure,abundant narrow micropores and pyrrolic-N groups,endowing it with enhanced CO_(2) adsorption capability.At 0℃/1 bar and 25℃/1 bar,the CO_(2) uptake of PAC-700 reached 6.85 and 4.64 mmol/g,respectively.Additionally,PAC-700 maintained a CO_(2) uptake retention ratio of 99%after 5 adsorption-desorption cycles and exhibited good CO_(2)/N_(2) selectivity of 22.4−51.6.These findings highlighted the advantageous CO_(2) adsorption performance of PAC-700,indicating its substantial application potential in the domain of carbon capture. 展开更多
关键词 N-DOPING porous carbon CO_(2)adsorption hydrothermal carbonization
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Porous spherical MnCo_(2)S_(4) as high⁃performance electrode material for hybrid supercapacitors
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作者 LUO Min WANG Xiaonan +3 位作者 ZHANG Yaqin PANG Tian LI Fuzhi SHI Pu 《无机化学学报》 北大核心 2025年第2期413-424,共12页
Porous spherical MnCo_(2)S_(4) was synthesized by a simple solvothermal method.Thanks to the well-designedbimetallic composition and the unique porous spherical structure,the MnCo_(2)S_(4) electrode exhibited an excep... Porous spherical MnCo_(2)S_(4) was synthesized by a simple solvothermal method.Thanks to the well-designedbimetallic composition and the unique porous spherical structure,the MnCo_(2)S_(4) electrode exhibited an exceptionalspecific capacitance of 190.8 mAh·g^(-1)at 1 A·g^(-1),greatly higher than the corresponding monometallic sulfides MnS(31.7 mAh·g^(-1))and Co_(3)S_(4)(86.7 mAh·g^(-1)).Impressively,the as-assembled MnCo_(2)S_(4)||porous carbon(PC)hybridsupercapacitor(HSC),showed an outstanding energy density of 76.88 Wh·kg^(-1)at a power density of 374.5 W·kg^(-1),remarkable cyclic performance with a capacity retention of 86.8% after 10000 charge-discharge cycles at 5 A·g^(-1),and excellent Coulombic efficiency of 99.7%. 展开更多
关键词 transitional metal sulfide SUPERCAPACITOR porous spherical structure
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Coal gasification fine slag and nitrogen-containing waste co-hydrothermal preparation of porous materials for CO_(2)adsorption
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作者 WANG Qingyun LIU Xiaqing +2 位作者 MA Li LÜPeng BAI Yonghui 《燃料化学学报(中英文)》 北大核心 2025年第10期1553-1568,共16页
A new adsorbent was successfully prepared by hydrothermal treatment and chemical activation through coal gasification fine slag(CGFS)and blue algae(BA)as raw materials and used for CO_(2)capture.The CO_(2)chemisorptio... A new adsorbent was successfully prepared by hydrothermal treatment and chemical activation through coal gasification fine slag(CGFS)and blue algae(BA)as raw materials and used for CO_(2)capture.The CO_(2)chemisorption capacity of the adsorbent was further enhanced by taking advantage of the nitrogenous bases contained in the BA.In the hydrothermal process,the addition of BA significantly increased the content of pyrrole nitrogen in the adsorbent.In the activation process,pyrrole nitrogen gradually changed into pyridine nitrogen and graphite nitrogen.Increased BA addition result in a higher specific surface area and microporosity of the adsorbent.The CO_(2)adsorption performance test proved that the CGFS-50%-CA sample has the strongest CO_(2)adsorption capacity at low temperature,up to 15.59 cm^(3)/g,which is mainly through physical adsorption,and the CGFS-10%-CA sample has the strongest CO_(2)adsorption capacity at high temperature,up to 7.31 cm^(3)/g,which is mainly through chemical adsorption.CO_(2)uptake of the CGFS-10%-CA sample was well maintained after 10 cycles,with regeneration efficiencies above 99%.The results indicate that the novel adsorbents with coexistence of physical and chemical adsorption have great potential for CO_(2)adsorption applications. 展开更多
关键词 coal gasification fine slag nitrogen-containing waste hydrothermal porous materials CO_(2)adsorption
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C_(60)-derived long-range ordered porous carbon as anodes for lithium-ion and sodium-ion batteries
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作者 Shengyuan Li Yizhe Wang +2 位作者 Yanbo Zhang Fei Pan Yanwu Zhu 《中国科学技术大学学报》 北大核心 2025年第9期17-24,I0001,共9页
The search for novel carbons has been an important research topic for developing high-performance anodes of lithium-ion batteries(LIBs)and sodium-ion batteries(SIBs).In this study,we fabricated a new carbon,long-range... The search for novel carbons has been an important research topic for developing high-performance anodes of lithium-ion batteries(LIBs)and sodium-ion batteries(SIBs).In this study,we fabricated a new carbon,long-range ordered porous carbon(LOPC),by inducing covalent bonds between face-centered cubic C_(60)(fcc C_(60))cages in a molecular crystal via electron injection under vacuum at~520°C.The LOPC maintains the periodic lattice of the fcc C_(60)molecular crystal but has improved structural stability and electrical conductivity because of the sp^(2)bonding formed between C_(60)molecules.Compared with fcc C_(60),which has a much greater specific surface area(327.1 m^(2)·g^(−1)),LOPC has a specific capacity of 820.9 mA·h·g^(−1)or 292.9 mA·h·g^(−1)as an anode for LIBs or SIBs,both of which are measured at a current density of 0.1 A·g^(−1).This porous yet ordered carbon may open new opportunities for anode materials in electrochemical energy storage. 展开更多
关键词 lithium-ion battery sodium-ion battery fullerene C_(60) electron injection long-range ordered porous carbon
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Biomass-derived N-doped porous carbon supported single Fe atoms as low-cost and high-performance electrocatalysts for oxygen reduction reaction
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作者 WANG Li-ping XIAO Jin +1 位作者 MAO Qiu-yun ZHONG Qi-fan 《Journal of Central South University》 2025年第4期1368-1383,共16页
Single-atom catalysts(SACs)are promising for oxygen reduction reaction(ORR)on account of their excellent catalytic activity and maximum utilization of atoms.However,due to the complicated preparation processes and exp... Single-atom catalysts(SACs)are promising for oxygen reduction reaction(ORR)on account of their excellent catalytic activity and maximum utilization of atoms.However,due to the complicated preparation processes and expensive reagents used,the cost of SACs is usually too high to put into practical application.The development of cost-effective and sustainable SACs remains a great challenge.Herein,a low-cost method employing biomass is designed to prepare efficient single-atom Fe-N-C catalysts(SA-Fe-N-C).Benefiting from the confinement effect of porous carbon support and the coordination effect of glucose,SA-Fe-N-C is derived from cheap flour by the two-step pyrolysis.Atomically dispersed Fe atoms exist in the form of Fe-N_(x),which acts as active sites for ORR.The catalyst shows outstanding activity with a half-wave potential(E_(1/2))of 0.86 V,which is better than that of Pt/C(0.84 V).Additionally,the catalyst also exhibits superior stability.The ORR catalyzed by SA-Fe-N-C proceeds via an efficient 4e transfer pathway.The high performance of SA-Fe-N-C also benefits from its porous structure,extremely high specific surface area(1450.1 m^(2)/g),and abundant micropores,which are conducive to increasing the density of active sites and fully exposing them.This work provides a cost-effective strategy to synthesize SACs from cheap biomass,achieving a balance between performance and cost. 展开更多
关键词 oxygen reduction reaction single-atom catalyst porous carbon MICROPORE biomass
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The application of porous organic cage as highly efficient desensitizer of RDX
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作者 Hua Fang Xiaodong Liu +7 位作者 Hao Li Junying Li Jiajie Song Fanzhi Yang Ruibin Liu Min Xia Zhaobo Zhang Yunjun Luo 《Defence Technology(防务技术)》 2025年第10期249-258,共10页
The desensitization of nitramine explosives while maintaining energetic performance is challenging.A highly efficient desensitizer is the key to solving the antinomy.This study focuses on using porous organic cages(PO... The desensitization of nitramine explosives while maintaining energetic performance is challenging.A highly efficient desensitizer is the key to solving the antinomy.This study focuses on using porous organic cages(POCs),specifically CC3 and RCC3,to desensitize RDX.By coating 0.1 wt%–5 wt%of POCs on RDX particles,a series of composite energetic materials were prepared.Characterization results show that POCs change the surface morphology of RDX,and there are interfacial interactions between them.The RDX@POCs composites exhibit enhanced stabilities in terms of heat,impact,friction,and electrostatic spark.For the RDX@RCC3-5%composite,the impact sensitivity(E_(IS)),friction sensitivity(E_(FS)),and electrostatic sensitivity(EES)were significantly reduced by 66.7%,68.8%,and 56.5%,respectively,while the detonation velocity decreased by merely 3.1%.These findings indicate that POCs,especially RCC3,are promising desensitizers for nitramine explosives,and their desensitization mechanisms likely involve barrier and buffering effects.The distinct desensitization behavior of RDX@RCC3 highlights the effectiveness of POCs in reducing the sensitivity of RDX without significantly compromising its energetic properties. 展开更多
关键词 porous organic cage DESENSITIZATION RDX Nitramine explosives
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基于Porous模型的多旋翼植保无人机下洗气流分布研究 被引量:18
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作者 张豪 祁力钧 +3 位作者 吴亚垒 刘婠婠 程浈浈 MUSIU E 《农业机械学报》 EI CAS CSCD 北大核心 2019年第2期112-122,共11页
植保无人机进行果树施药时,果树冠层周围及内部的下洗气流时空分布对雾滴的附着和分布有重大影响,为明确无人机下洗气流时空分布规律,针对六旋翼植保无人机,结合RANS方程、RNG k-ε湍流模型、Porous模型、滑移网格技术及SIMPLE算法,建... 植保无人机进行果树施药时,果树冠层周围及内部的下洗气流时空分布对雾滴的附着和分布有重大影响,为明确无人机下洗气流时空分布规律,针对六旋翼植保无人机,结合RANS方程、RNG k-ε湍流模型、Porous模型、滑移网格技术及SIMPLE算法,建立了六旋翼植保无人机悬停施药下洗气流时空分布的三维CFD模型。数值模拟结果表明:无果树时,旋翼下洗气流近似呈"圆柱形"向下发展,到达地面后形成地面铺展,在旋翼正下方0. 6~1. 7 m区域内出现速度范围为3. 0~4. 0 m/s的"Z方向(竖直向下)速度稳定区";有果树时,冠层对旋翼下洗气流有明显的阻挡作用,不再出现"Z方向速度稳定区"。以本文模拟的3棵果树为例,Ⅰ号果树冠层周围气流从冠层上半部区域开始呈"圆锥形"向下发展,以一倾斜角发展到地面形成小范围地面铺展,地面铺展末端出现近地面卷扬,Ⅱ、Ⅲ号果树冠层周围气流卷扬严重,在计算区域内无明显地面铺展;旋翼中心正下方Z方向速度最大接近8 m/s,随着冠层压力损失系数的增大,旋翼中心正下方Z方向速度衰减加快,同时旋翼气流向四周产生扩散;计算冠层内部Z方向最大速度衰减比发现,除Ⅲ号果树冠层下半部,无果树和Ⅰ、Ⅱ、Ⅲ号果树冠层内部Z方向最大速度衰减比依次增大。试验表明,无果树时旋翼正下方0. 3、0. 8、1. 3、1. 8 m处和近地面2. 3 m处试验值与模拟值的相对误差分别在10%以内和不大于25%,总体拟合优度0. 984 6,数值模拟准确;试验果树与模拟果树冠层内部的气流速度分布规律具有很好的一致性。 展开更多
关键词 porous模型 植保无人机 数值模拟 下洗气流 时空分布
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Numerical investigation of laminar heat transfer and nanofluid flow between two porous horizontal concentric cylinders 被引量:9
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作者 Mehdi MIRZAEYAN Davood TOGHRAIE 《Journal of Central South University》 SCIE EI CAS CSCD 2019年第7期1976-1999,共24页
In this study, the laminar heat transfer and nanofluid flow between two porous horizontal concentric cylinders was investigated. The problem is investigated in two different geometries and the Re=10, 25, 50, 75, 100 a... In this study, the laminar heat transfer and nanofluid flow between two porous horizontal concentric cylinders was investigated. The problem is investigated in two different geometries and the Re=10, 25, 50, 75, 100 and volume fraction 0, 0.2%, 0.5%, 2% and 5% that related to copper nanoparticles, and porous medium porosity of 0.5 and 0.9. Compared to the first geometry, the convective coefficient in the second geometry increases by 8.3%, 7% and 5.5% at Reynolds numbers of 100, 75 and 50, respectively. Comparison of the outlet temperatures for two heat fluxes of 300 and 1200 W/m^2 indicates a 2.5% temperature growth by a fourfold increase in the heat fluxes. Also, the higher Nusselt number is associated with the second geometry occurring at porosities of 0.9 and 0.5, respectively. In both geometries, the Nusselt number values at the porosity of 0.9 are higher, which is due to the increased nanofluid convection at higher porosities. The velocity of the nanofluid experiences a two-fold increase at the outlet compared to its inlet velocity in the first geometry and for both porosities. Similarly, a three-fold increase was achieved in the second geometry and for both porosities. 展开更多
关键词 porous horizontal concentric cylinders nanofluid flow PERMEABILITY heat transfer
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Direct fabrication of highly porous graphene/TiO_2 composite nanofibers by electrospinning for photocatalytic application 被引量:8
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作者 HE Yuan 《Journal of Central South University》 SCIE EI CAS CSCD 2018年第9期2182-2189,共8页
We reported the fabrication of highly porous graphene/TiO2 composite nanofibers in the form of a nonwoven mat by electrospinning followed by calcination in air at 450°C.The graphene can uniformly disperse in high... We reported the fabrication of highly porous graphene/TiO2 composite nanofibers in the form of a nonwoven mat by electrospinning followed by calcination in air at 450°C.The graphene can uniformly disperse in highly porous TiO2 nanofibers.The highly porous graphene/TiO2 composite nanofibers exhibited excellent catalytic activities.The new method for producing graphene/TiO2 composite nanofibers is versatile and can be extended to fabricate various types of metal oxide and graphene nanocomposites. 展开更多
关键词 porous structure GRAPHENE titanium dioxide photocatalytic application
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Numerical simulation of two-phase flow in fractured porous media using streamline simulation and IMPES methods and comparing results with a commercial software 被引量:7
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作者 Mahmoud Ahmadpour Majid Siavashi Mohammad Hossein Doranehgard 《Journal of Central South University》 SCIE EI CAS CSCD 2016年第10期2630-2637,共8页
Streamline simulation is developed to simulate waterflooding in fractured reservoirs. Conventional reservoir simulation methods for fluid flow simulation in large and complex reservoirs are very costly and time consum... Streamline simulation is developed to simulate waterflooding in fractured reservoirs. Conventional reservoir simulation methods for fluid flow simulation in large and complex reservoirs are very costly and time consuming. In streamline method, transport equations are solved on one-dimensional streamlines to reduce the computation time with less memory for simulation. First, pressure equation is solved on an Eulerian grid and streamlines are traced. Defining the "time of flight", saturation equations are mapped and solved on streamlines. Finally, the results are mapped back on Eulerian grid and the process is repeated until the simulation end time. The waterflooding process is considered in a fractured reservoir using the dual porosity model. Afterwards, a computational code is developed to solve the same problem by the IMPES method and the results of streamline simulation are compared to those of the IMPES and a commercial software. Finally, the accuracy and efficiency of streamline simulator for simulation of two-phase flow in fractured reservoirs has been proved. 展开更多
关键词 two-phase flow porous media fractured reservoirs streamline simulation dual porosity implicit pressure-explicit saturation
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Numerical analysis on forced convection enhancement in an annulus using porous ribs and nanoparticle addition to base fluid 被引量:6
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作者 Majid SIAVASHI Hamid Reza TALESH BAHRAMI +1 位作者 Ehsan AMINIAN Hamid SAFFARI 《Journal of Central South University》 SCIE EI CAS CSCD 2019年第5期1089-1098,共10页
Miniaturization of electronic equipment has forced researchers to devise more effective methods for dissipating the generated heat in these devices.In this study,two methods,including porous media inserting and adding... Miniaturization of electronic equipment has forced researchers to devise more effective methods for dissipating the generated heat in these devices.In this study,two methods,including porous media inserting and adding nanoparticles to the base fluid,are used to improve heat transfer in an annulus heated on both walls.To study porous media insert,porous ribs are used on the outer and inner walls independently.The results show that when porous ribs are placed on the outer wall,although the heat transfer enhances,the pressure drop increment is so considerable that performance number (the ratio of heat transfer enhancement pressure increment,PN) is less than unity for all porous rib heights and porous media permeabilities that are studied.On the other hand,the PN of cases where porous ribs were placed on the inner wall depends on the Darcy number (Da).For example,for ribs with Da=0.1 and Da=0.0001,the maximum performance number,PN=4,occurs at the porous ribs height to hydraulic diameter ratios H/Dh=1 and H/Dh=0.25.Under these conditions,heat transfer is enhanced by two orders of magnitude.It is found that adding 5% nanoparticles to the base fluid in the two aforementioned cases improves the Nusselt number and PN by 10%–40%. 展开更多
关键词 NANOFLUID porous media ANNULUS heat transfer enhancement internal flow
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