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Designed porous carbon materials for efficient CO_(2)adsorption and separation
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作者 ZHANG Xiang-qian LI Wen-cui LU An-hui 《新型炭材料》 SCIE EI CAS CSCD 北大核心 2015年第6期481-501,共21页
The emission of CO_(2)from industry and power plants has become a worldwide problem with a strong link to global warming.The development of novel materials for efficient CO_(2)capture and utilization is attracting wor... The emission of CO_(2)from industry and power plants has become a worldwide problem with a strong link to global warming.The development of novel materials for efficient CO_(2)capture and utilization is attracting worldwide attention as a hot topic in materials sciences.Among various CO_(2)adsorbents,porous carbons have proven competitive by virtue of their high specific surface area,tunable pore and surface structures,moderate heat of adsorption,and less sensitivity to humidity than other CO_(2)-philic materials.In this review,we summarize the recent significant advances in porous carbon materials for CO_(2)adsorption and separation.Strategies to increasethe CO_(2)capture capability are highlighted.We also briefly discuss the future prospects of porous carbons for CO_(2)capture. 展开更多
关键词 Porous carbon designed synthesis CO_(2)adsorption and separation
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基于Matlab APP Designer的紧凑型高频地波雷达多目标跟踪平台设计与开发
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作者 毕铭凇 孙伟峰 +2 位作者 李小彤 李世宝 任鹏 《现代电子技术》 北大核心 2026年第11期1-8,共8页
针对紧凑型高频地波雷达多目标跟踪存在的航迹起始难、易断裂、误跟踪等问题,文中讨论了基于多帧聚类的航迹起始方法、基于航向辅助的点迹-航迹关联方法和基于转换坐标卡尔曼滤波的状态估计方法,基于Matlab APP Designer将上述方法集成... 针对紧凑型高频地波雷达多目标跟踪存在的航迹起始难、易断裂、误跟踪等问题,文中讨论了基于多帧聚类的航迹起始方法、基于航向辅助的点迹-航迹关联方法和基于转换坐标卡尔曼滤波的状态估计方法,基于Matlab APP Designer将上述方法集成,设计开发了可供学生实验的紧凑型高频地波雷达多目标跟踪平台。该平台实现了点迹数据文件读取、多目标动态跟踪和航迹个例分析等功能,能够计算航迹跟踪时长、航迹质量指标、最远探测距离等关键跟踪参数。利用实测数据对平台跟踪性能进行了实验测试,结果表明:每帧数据平均处理时间为0.7 s,目标航迹的距离和方位角均方根误差分别为1.31 km和3.6°,航迹平均跟踪时长为46.57 min,满足工程上对目标跟踪实时性、准确性和连续性的要求。 展开更多
关键词 紧凑型高频地波雷达 多目标跟踪 目标跟踪平台 Matlab APP Designer 平台设计 性能测试
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Inverse design framework of hybrid honeycomb structure with high impact resistance based on active learning 被引量:1
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作者 Xingyu Shen Ke Yan +5 位作者 Difeng Zhu Hao Wu Shijun Luo Shaobo Qi Mengqi Yuan Xinming Qian 《Defence Technology(防务技术)》 2026年第1期407-421,共15页
In this study,an inverse design framework was established to find lightweight honeycomb structures(HCSs)with high impact resistance.The hybrid HCS,composed of re-entrant(RE)and elliptical annular re-entrant(EARE)honey... In this study,an inverse design framework was established to find lightweight honeycomb structures(HCSs)with high impact resistance.The hybrid HCS,composed of re-entrant(RE)and elliptical annular re-entrant(EARE)honeycomb cells,was created by constructing arrangement matrices to achieve structural lightweight.The machine learning(ML)framework consisted of a neural network(NN)forward regression model for predicting impact resistance and a multi-objective optimization algorithm for generating high-performance designs.The surrogate of the local design space was initially realized by establishing the NN in the small sample dataset,and the active learning strategy was used to continuously extended the local optimal design until the model converged in the global space.The results indicated that the active learning strategy significantly improved the inference capability of the NN model in unknown design domains.By guiding the iteration direction of the optimization algorithm,lightweight designs with high impact resistance were identified.The energy absorption capacity of the optimal design reached 94.98%of the EARE honeycomb,while the initial peak stress and mass decreased by 28.85%and 19.91%,respectively.Furthermore,Shapley Additive Explanations(SHAP)for global explanation of the NN indicated a strong correlation between the arrangement mode of HCS and its impact resistance.By reducing the stiffness of the cells at the top boundary of the structure,the initial impact damage sustained by the structure can be significantly improved.Overall,this study proposed a general lightweight design method for array structures under impact loads,which is beneficial for the widespread application of honeycomb-based protective structures. 展开更多
关键词 Re-entrant honeycomb Hybrid structures Inverse design Impact resistance LIGHTWEIGHT
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Research progress on chemical synthesis of biomassbased hydrocarbon fuels
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作者 WU Pengjun CHEN Xinyang +3 位作者 DAI Yitong FENG Jingke FANG Wenjun GUO Yongsheng 《燃料化学学报(中英文)》 北大核心 2026年第2期1-20,共20页
Biomass-based hydrocarbon fuels,as one of the alternatives to traditional fossil fuels,have attracted considerable attention in the energy field due to their renewability and environmental benefits.This article provid... Biomass-based hydrocarbon fuels,as one of the alternatives to traditional fossil fuels,have attracted considerable attention in the energy field due to their renewability and environmental benefits.This article provides a systematic review of recent research progress in the chemical synthesis of biomass-based hydrocarbon fuels.It outlines the conversion pathways using feedstocks such as lipids,terpenoids,cellulose/hemicellulose,and lignin.Depending on the feedstock,various products with distinct structural characteristics can be prepared through reactions such as cyclization,condensation,and catalytic hydrogenation.Throughout the synthesis process,three key factors play a critical role:efficient catalyst development,production process optimization,and computational-chemistry-based molecular design.Finally,the article discusses future perspectives for biomass-based hydrocarbon fuel synthesis research. 展开更多
关键词 BIOMASS hydrocarbon fuel catalyst development process optimization molecular design computational chemistry
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Development of visible/near-infrared multiband laser filter film
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作者 XIN Ya-wu PENG Yong-chao +5 位作者 ZHANG Yu-xiang CAO Xing-yu HAN Yang GUO Hong-ling XIONG Shi-fu HU Zhang-gui 《中国光学(中英文)》 北大核心 2026年第1期239-249,共11页
Filters,as a key component in the photoelectric detection system,can simplify the optical system and improve detection efficiency.Based on the usage requirements,a visible/near-infrared filter film with up to 5 waveba... Filters,as a key component in the photoelectric detection system,can simplify the optical system and improve detection efficiency.Based on the usage requirements,a visible/near-infrared filter film with up to 5 wavebands needs to be designed and prepared,while simultaneously satisfying high reflection in 2 wave-bands and high transmittance in 3 wavebands.Therefore,we have conducted a systematic study on the film design,thin film preparation process,and control accuracy of film layer thickness.In this work,the short-wave pass film system is superimposed with the long-wave pass film system,and the number of cycles and matching coefficient of the film system are tuned to meet the requirements of cut-off band.Additionally,Smith method was used to match bandpass film system to optimize the transmission band and complete the visible/near infrared multiband laser filter film design.In the preparation process,combined with the sensitiv-ity of the film layer,inverse analysis is used to invert the film layer monitored by each optical monitoring chip.The optical control scheme with weak optical signal in the monitoring process is simulated and correc-ted,and the monitoring wavelength with stronger optical signal is matched,resulting in an improvement of the control accuracy for the film thickness and the transmittance in the specified wavelength range.Ulti-mately,the actual physical thickness is 9.66μm,and the error with the theoretical design thickness is less than 0.4%,and the transmittance of the specified 3 wavebands exceeds 99%.The average transmittance of the cut-off bands at the 455−500 nm and 910−1000 nm is 0.45% and 0.16%,respectively. 展开更多
关键词 optical film MULTIBAND film system design reverse analysis
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Research progress on catalyst design and reaction mechanisms for heterogeneous oxygen oxidation of light hydrocarbons
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作者 ZENG Zhuang LI Bin +1 位作者 XIA Changjiu ZHANG Xiaoxin 《燃料化学学报(中英文)》 北大核心 2026年第5期87-106,共20页
Catalytic oxidation represents a pivotal technology for the valorization of light hydrocarbons,where oxidative dehydrogenation(ODH)and epoxidation reactions using molecular oxygen have garnered substantial interest ow... Catalytic oxidation represents a pivotal technology for the valorization of light hydrocarbons,where oxidative dehydrogenation(ODH)and epoxidation reactions using molecular oxygen have garnered substantial interest owing to their high atom economy and environmental friendliness.This review systematically summarizes recent advances in the oxidative dehydrogenation of light alkanes(ethane,propane)and the aerobic epoxidation of light olefins(ethylene,propylene).In terms of rational catalyst design,this review elaborates on performance regulation strategies for metal oxide catalysts such as MoVNbTeO_(x)mixed oxides,NiO-based,and V-based systems,as well as carbon/boron-based non-metal catalysts in alkane oxidative dehydrogenation,along with silver-based and copper-based catalysts in alkene epoxidation.These strategies include regulating the oxidation state of active sites,strong metal-support interactions,particle size and crystal facet engineering,and promoter modification.At the mechanistic level,combining density functional theory calculations with in situ characterization techniques,this review delves into the C-H bond activation and alkene desorption pathways in oxidative dehydrogenation,along with the oxygen insertion routes and competing side reactions in epoxidation.Special attention is given to the dynamic evolution of electrophilic and nucleophilic oxygen species and their decisive role in reaction selectivity.Finally,the review outlines persistent challenges in the field,including suppressing over-oxidation and overcoming the trade-off between conversion and selectivity and proposes future research directions such as the precise design of active centers,development of inherently safer processes,and in-depth analysis of complex reaction networks,aiming to support the green transition of the chemical industry. 展开更多
关键词 heterogeneous aerobic oxidation oxidative dehydrogenation aerobic epoxidation rational catalyst design reaction mechanism
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Progress in MOF-based catalyst design and reaction mechanisms for CO_(2)hydrogenation to methanol
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作者 YU Zhifu JIANG Lei WU Mingbo 《燃料化学学报(中英文)》 北大核心 2026年第1期146-162,共17页
Against the backdrop of escalating global climate change and energy crises,the resource utilization of carbon dioxide(CO_(2)),a major greenhouse gas,has become a crucial pathway for achieving carbon peaking and carbon... Against the backdrop of escalating global climate change and energy crises,the resource utilization of carbon dioxide(CO_(2)),a major greenhouse gas,has become a crucial pathway for achieving carbon peaking and carbon neutrality goals.The hydrogenation of CO_(2)to methanol not only enables carbon sequestration and recycling,but also provides a route to produce high value-added fuels and basic chemical feedstocks,holding significant environmental and economic potential.However,this conversion process is thermodynamically and kinetically limited,and traditional catalyst systems(e.g.,Cu/ZnO/Al_(2)O_(3))exhibit inadequate activity,selectivity,and stability under mild conditions.Therefore,the development of novel high-performance catalysts with precisely tunable structures and functionalities is imperative.Metal-organic frameworks(MOFs),as crystalline porous materials with high surface area,tunable pore structures,and diverse metal-ligand compositions,have the great potential in CO_(2)hydrogenation catalysis.Their structural design flexibility allows for the construction of well-dispersed active sites,tailored electronic environments,and enhanced metal-support interactions.This review systematically summarizes the recent advances in MOF-based and MOF-derived catalysts for CO_(2)hydrogenation to methanol,focusing on four design strategies:(1)spatial confinement and in situ construction,(2)defect engineering and ion-exchange,(3)bimetallic synergy and hybrid structure design,and(4)MOF-derived nanomaterial synthesis.These approaches significantly improve CO_(2)conversion and methanol selectivity by optimizing metal dispersion,interfacial structures,and reaction pathways.The reaction mechanism is further explored by focusing on the three main reaction pathways:the formate pathway(HCOO*),the RWGS(Reverse Water Gas Shift reaction)+CO*hydrogenation pathway,and the trans-COOH pathway.In situ spectroscopic studies and density functional theory(DFT)calculations elucidate the formation and transformation of key intermediates,as well as the roles of active sites,metal-support interfaces,oxygen vacancies,and promoters.Additionally,representative catalytic performance data for MOFbased systems are compiled and compared,demonstrating their advantages over traditional catalysts in terms of CO_(2)conversion,methanol selectivity,and space-time yield.Future perspectives for MOF-based CO_(2)hydrogenation catalysts will prioritize two main directions:structural design and mechanistic understanding.The precise construction of active sites through multi-metallic synergy,defect engineering,and interfacial electronic modulation should be made to enhance catalyst selectivity and stability.In addition,advanced in situ characterization techniques combined with theoretical modeling are essential to unravel the detailed reaction mechanisms and intermediate behaviors,thereby guiding rational catalyst design.Moreover,to enable industrial application,challenges related to thermal/hydrothermal stability,catalyst recyclability,and cost-effective large-scale synthesis must be addressed.The development of green,scalable preparation methods and the integration of MOF catalysts into practical reaction systems(e.g.,flow reactors)will be crucial for bridging the gap between laboratory research and commercial deployment.Ultimately,multi-scale structure-performance optimization and catalytic system integration will be vital for accelerating the industrialization of MOF-based CO_(2)-to-methanol technologies. 展开更多
关键词 CO_(2)hydrogenation metal-organic frameworks(MOFs) catalyst design reaction mechanism METHANOL
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美国《保健物理》(Health Physics)杂志英文摘要(2026年130卷第1期)
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《辐射防护》 北大核心 2026年第2期174-181,共8页
Evaluating Adherence to Safety Standards for Physical Space Design, Equipment, and Patient and Staff Protection in Magnetic Resonance Imaging Centers:A Descriptive Cross-sectional Study Amirreza Sadeghinasab1, Jafar F... Evaluating Adherence to Safety Standards for Physical Space Design, Equipment, and Patient and Staff Protection in Magnetic Resonance Imaging Centers:A Descriptive Cross-sectional Study Amirreza Sadeghinasab1, Jafar Fatahiasl2, Mahmoud Mohammadi-Sadr1, Masoud Heydari Kahkesh3, and Marziyeh Tahmasbi2(1.Department of Medical Physics, School of Medicine, Isfahan University of Medical Sciences, Isfahan, Iran;2.Department of Radiologic Technology, School of Allied Medical Sciences, Ahvaz, Jundishapur University of Medical Sciences, Ahvaz, Iran;3.Department of Radiology and Radiotherapy, School of Allied Medical Sciences, Tehran University of Medical Sciences, Tehran, Iran)Abstract:Magnetic resonance imaging(MRI) has revolutionized disease diagnosis and treatment.However, the technology poses safety risks, such as exposure to magnetic fields, RF pulses, and cryogens, necessitating strict adherence to safety protocols to protect patients and healthcare workers. 展开更多
关键词 adherence safety standards magnetic resonance imaging physical space design patient staff protection allied medical sciences safety standards medical physics radiologic technology
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An innovative design driven by contact performances for skiving of spur face gear drive with single cutter
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作者 TANG Zhong-wei ZHOU Yuan-sheng +4 位作者 MO Shuai TANG Jin-yuan MA Chi ZHANG Wu-ji HE Hai-yu 《Journal of Central South University》 2026年第1期175-188,共14页
This study develops a contact performance-driven method for skiving face gear drives using a single cutter,eliminating the traditional need for separate cutters to reduce production costs and time.First,the mathematic... This study develops a contact performance-driven method for skiving face gear drives using a single cutter,eliminating the traditional need for separate cutters to reduce production costs and time.First,the mathematical models of the tooth flanks for the face gear drives are established based on the gear skiving processes.Then,load tooth contact analysis(LTCA)model is established to calculate the contact performance data.Next,a two-stage optimization model is employed to determine the optimal parameters of the cutting edge with improved contact performances.The effectiveness of this method is validated through simulations and rolling tests.Compared with the traditional method,the proposed method can machine both the face gear and its mating pinion with a single cutter.Simulation results show that the proposed method avoids tooth surface edge contact,with the maximum tooth surface contact stress reduced by 31.7%,the contact ratio decreases by 21.5%,and the transmission error increases by 22.3%.Rolling tests verify the consistency of tooth surface contact patterns between simulations and experiments.The proposed method provides a reference for the cutting edge design of skiving cutters for face gear pairs. 展开更多
关键词 face gear drives gear skiving load tooth contact analysis contact performances cutter design
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Lattice fluorination-enabled programmable energetics in metastable intermolecular composites: Atomic F/O engineering and hierarchical redox control enabling instantaneous memory chip destruction
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作者 Jingwei Li Xuwen Liu +12 位作者 Zhangbo Ming Yongsheng Jia Jinshan Sun Yingkang Yao Quanmin Xie Yihao Shen Zhichao Zhao Guangyu Yin Sabit Tursynbek Meruyert Nazhipkyzy Zhandos Tauanov Ayagoz Bakkara Makpal Seitzhanova 《Defence Technology(防务技术)》 2026年第3期1-15,共15页
As a prototypical high-energy-density reactive material system,metastable intermolecular composites(MICs)have attracted considerable interest owing to their customizable component configurations and interfacial archit... As a prototypical high-energy-density reactive material system,metastable intermolecular composites(MICs)have attracted considerable interest owing to their customizable component configurations and interfacial architectures.Nevertheless,their energy release characteristics are fundamentally constrained by the formation of condensed-phase products with elevated boiling points,thereby diminishing their efficacy in applications requiring rapid pressure generation or shock wave propagation.Herein,we demonstrate a molecular-level fluorination approach that enables oxygen substitution by fluorine within bismuth oxide crystalline frameworks,yielding ternary BixOyFz crystals with atomically precise F/O stoichiometric control through systematic solvent polarity engineering.This energetics system,designed through a multilevel regulation strategy,realizes stepwise redox reactions of Al–F and Al–O during energy release,with the partitioning between these redox pathways being precisely allocable through hierarchical regulation.Furthermore,the pre-ignition reaction(PIR)between BixOyFz and Al2O3(the inert passivation shell of Al)weakens the passivation layer,lowering the ignition threshold.The in situ generation of low-boiling-point AlF3 promotes rapid gas expansion,leading to significantly enhanced pressurization rates and deflagration wave velocities under confinement compared to conventional strategies.To evaluate energy output capabilities and validate potential safety-protection applications,the system successfully achieved instantaneous destruction of SD chips,enabling secure data erasure.This work establishes crystalline lattice fluorination as a generalized materials design strategy to transcend intrinsic limitations of MICs systems in component selection and reaction thermodynamics,providing new paradigms for adaptive energetic architectures and transient microelectromechanical applications. 展开更多
关键词 Nano-structured energetic materials Metastable intermolecular composites Combustion mechanism Molecular fluorination design Pre-ignition reaction
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Effect of composite stress arches evolution on abutment pressure distribution in repeated mining of close-distance coal seams
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作者 HU Pin-pin ZUO Yu-jun +5 位作者 RONG Peng CHEN Bin ZHENG Lu-lin WEN Zhi-jie HU Jin-chun REN Wei-de 《Journal of Central South University》 2026年第2期747-766,共20页
Due to the unique geological structure in the Guizhou region,issues such as stress concentration and inefficient resource utilization efficiency arise during repeated mining of close-distance coal seam.This study focu... Due to the unique geological structure in the Guizhou region,issues such as stress concentration and inefficient resource utilization efficiency arise during repeated mining of close-distance coal seam.This study focuses on the Longfeng Coal Mine in Guizhou,investigating the evolution of stress arches and abutment pressure distribution under repeated mining conditions through similarity simulations,numerical simulations,and theoretical analysis.The study introduces a novel composite stress arch model,which more accurately represents stress evolution under complex mining conditions compared to traditional single arch theories.The model highlights the gradual transformation of a single stress arch into a composite structure,accounting for the increasing complexity of the stress distribution.Based on these evolution characteristics,a mechanical model of composite arches under nonlinear loading was developed.The calculation results and field monitoring data show that after repeated mining,the stop-mining coal pillar width should be optimized between 65 and 70 m.The research reveals the coupling relationship between the evolution of composite arches and the distribution of abutment pressure,which aids in optimizing coal pillar design,enhancing resource recovery rates,and ensuring the stability of roadways and stopes. 展开更多
关键词 stress concentration repeated mining stress arch evolution abutment pressure composite arch coal pillar design resource recovery
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关于PBX正向设计的初步思考
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作者 张朝阳 黄鑫 谢炜宇 《含能材料》 北大核心 2025年第10期1135-1137,共3页
1.正向设计的概念及其在材料研发中的应用正向设计(Forward Design)是一种系统化的设计方法论,其核心在于从用户需求和预期功能出发,通过综合考虑性能、成本、制造工艺等因素,自上而下地进行产品设计和材料选择。这种方法强调在设计初... 1.正向设计的概念及其在材料研发中的应用正向设计(Forward Design)是一种系统化的设计方法论,其核心在于从用户需求和预期功能出发,通过综合考虑性能、成本、制造工艺等因素,自上而下地进行产品设计和材料选择。这种方法强调在设计初期就对产品的整体性能和各个组成部分进行综合考虑,以确保最终产品能够满足预定的性能标准和市场需求。 展开更多
关键词 材料研发 Forward Design 正向设计 成本
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基于BIM技术的水闸工程参数化设计研究 被引量:1
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作者 黄雪峰 李非 +7 位作者 李青柏 刘文合 王铁良 李春生 刘顺国 侯宇 线小辰 杨英英 《水电能源科学》 北大核心 2025年第6期148-152,共5页
水闸在提高灌溉效率、防灾减灾和水资源管理方面至关重要。针对水闸设计过程中二维计算困难、设计变更重复性工作量巨大、现有水闸三维设计建模精度低等问题,依据参数化设计理念,提出基于BIM技术的水闸参数化设计关键技术。采用Matlab A... 水闸在提高灌溉效率、防灾减灾和水资源管理方面至关重要。针对水闸设计过程中二维计算困难、设计变更重复性工作量巨大、现有水闸三维设计建模精度低等问题,依据参数化设计理念,提出基于BIM技术的水闸参数化设计关键技术。采用Matlab App Designer交互界面技术,将水闸参数计算公式及设计规范封装为计算机指令,开发面向对象的水闸结构计算系统,应用不动点迭代法解决了隐式方程计算困难的问题,使用C#语言及API接口对Revit进行二次开发,实现了水闸单项工程的参数化建模、明细表的生成与族库信息化科学管理,简化了繁琐的建模步骤,提高了设计效率。对青田县水闸的实际应用结果表明,该水闸参数化设计方法具有实用性与准确性,该技术缩短了建模时间,水闸模型拥有较高精度且可重复使用,为参数化设计技术在水闸工程中的应用提供了参考。 展开更多
关键词 水闸 参数化设计 BIM Matlab App Designer Revit二次开发
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低温液态CO_(2)增压泵全流道匹配的多目标优化 被引量:2
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作者 马文生 祁炳 +2 位作者 袁学平 黎义斌 杨由超 《机电工程》 北大核心 2025年第2期195-204,共10页
在油田驱油工艺中,提高CO_(2)的压力和流量可以实现原油采收率的提升。针对驱油工艺系统的核心动力设备-低温液态CO_(2)增压泵在运行过程中存在效率偏低的问题,以一台典型多级低温液态CO_(2)离心泵为研究对象,基于泵的关键几何参数建立... 在油田驱油工艺中,提高CO_(2)的压力和流量可以实现原油采收率的提升。针对驱油工艺系统的核心动力设备-低温液态CO_(2)增压泵在运行过程中存在效率偏低的问题,以一台典型多级低温液态CO_(2)离心泵为研究对象,基于泵的关键几何参数建立优化设计方案,进行了多工况的水力性能数值计算分析和实验结果分析。首先,采用ANSYS CFX软件对增压泵模型进行了数值模拟计算,并将计算结果与实验结果进行了对比分析;然后,以扬程和效率为优化指标,采用Box-Behnken Design方法,建立了增压泵主要过流部件关键几何参数的多目标优化设计方案;最后,对实验结果进行了分析,确定了各试验因素交互作用对实验的影响,并建立了最优实验模型,将其与原模型进行了性能对比分析。研究结果表明:叶片出口宽度对增压泵扬程的影响,以及叶片包角对增压泵效率的影响最明显,当叶片包角位于137°~142°,蜗壳进口宽度在34 mm左右,增压泵的效率最佳;采用全流道的参数的最佳匹配方案后,增压泵额定点的效率可提高0.22%。该研究结果可为低温液态CO_(2)增压泵的水力设计及性能优化提供技术指导。 展开更多
关键词 低温液态CO_(2)离心泵 Box-Behnken Design方法 几何参数 交互作用 扬程和效率 叶片出口宽度 叶片包角
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A review of carbon-based hybrid materials for supercapacitors 被引量:4
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作者 Theodore Azemtsop Manfo Hannu Laaksonen 《新型炭材料(中英文)》 北大核心 2025年第1期81-110,共30页
Supercapacitors are gaining popularity due to their high cycling stability,power density,and fast charge and discharge rates.Researchers are ex-ploring electrode materials,electrolytes,and separat-ors for cost-effecti... Supercapacitors are gaining popularity due to their high cycling stability,power density,and fast charge and discharge rates.Researchers are ex-ploring electrode materials,electrolytes,and separat-ors for cost-effective energy storage systems.Ad-vances in materials science have led to the develop-ment of hybrid nanomaterials,such as combining fil-amentous carbon forms with inorganic nanoparticles,to create new charge and energy transfer processes.Notable materials for electrochemical energy-stor-age applications include MXenes,2D transition met-al carbides,and nitrides,carbon black,carbon aerogels,activated carbon,carbon nanotubes,conducting polymers,carbon fibers,and nanofibers,and graphene,because of their thermal,electrical,and mechanical properties.Carbon materials mixed with conducting polymers,ceramics,metal oxides,transition metal oxides,metal hydroxides,transition metal sulfides,trans-ition metal dichalcogenide,metal sulfides,carbides,nitrides,and biomass materials have received widespread attention due to their remarkable performance,eco-friendliness,cost-effectiveness,and renewability.This article explores the development of carbon-based hybrid materials for future supercapacitors,including electric double-layer capacitors,pseudocapacitors,and hy-brid supercapacitors.It investigates the difficulties that influence structural design,manufacturing(electrospinning,hydro-thermal/solvothermal,template-assisted synthesis,electrodeposition,electrospray,3D printing)techniques and the latest car-bon-based hybrid materials research offer practical solutions for producing high-performance,next-generation supercapacitors. 展开更多
关键词 Carbon-based hybrid material Structure design Electrode material Specific capacitance SUPERCAPACITORS
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基于PB-BBD响应面法优化内置钻头多维冲击器性能
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作者 韦明吉 李陈涛 +3 位作者 王旭东 刘洋阳 夏成宇 钱利勤 《科学技术与工程》 北大核心 2025年第18期7597-7603,共7页
目前从各类冲击器的现场应用看,冲击器长度普遍约为1 m,在与钻头连接使用时因增加了稳定器与钻头之间的距离,造成钻具的预期斜率和钻头侧向力降低,进而影响井下造斜效果,而内置钻头多维冲击器可以有效解决这一问题。为了使内置钻头多维... 目前从各类冲击器的现场应用看,冲击器长度普遍约为1 m,在与钻头连接使用时因增加了稳定器与钻头之间的距离,造成钻具的预期斜率和钻头侧向力降低,进而影响井下造斜效果,而内置钻头多维冲击器可以有效解决这一问题。为了使内置钻头多维冲击器的性能能够实现最大化,降低压耗,采用PB(Plackett-Burman)筛选试验设计对冲击器内部参数进行了筛选试验,得到各参数对工具性能影响由大到小排列为:射流道宽度>入口面积>出口面积>振荡腔长度>双反馈流道宽度>附壁面曲率半径>劈间角,再利用BBD(Box-Behnken design)响应面法对排名前三的显著影响参数进行深入分析,得到内置钻头多维冲击器内部结构优化组合为入口面积为1 203.416 mm^(2)、射流道宽度为14 mm,出口面积为455 mm^(2),最后通过Fluent软件仿真验证了优化方法的有效性,满足设计要求。 展开更多
关键词 多维冲击 PB(Plackett-Burman)筛选试验设计 BBD(Box-Behnken design)响应面法 fluent仿真 压耗
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Simulation of light environment in a serrated photovoltaic greenhouse and optimization of daylighting roofs based on Design Builder 被引量:2
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作者 LIU Jian WU Xuyong +2 位作者 WANG Baolong WU Qingsen TIAN Libo 《农业工程学报》 北大核心 2025年第7期211-221,共11页
In the tropical regions represented by Hainan,there are abundant solar and thermal resources,and it is relatively suitable for the construction of photovoltaic greenhouse(PVG).However,the construction of PVG still rel... In the tropical regions represented by Hainan,there are abundant solar and thermal resources,and it is relatively suitable for the construction of photovoltaic greenhouse(PVG).However,the construction of PVG still relies mainly on experience and is incapable of quantifying the balance between the photovoltaic(PV)generation and the light requirements for agricultural production.As a result,actual PVGs are primarily PV-based,without carefully considering the needs of agricultural daylighting.To quantify the influence of the design parameters of PVGs and the layout of PV panels on the internal daylighting of serrated PVGs,and to optimize the daylighting design of the roof,this paper utilizes the Design Builder software to establish gradient models for a multi-span serrated-type PVG in tropical regions.Gradient models were established in terms of aspects,namely span,width of longitudinal/transverse daylighting strip,height,roof angle,and photovoltaic panel coverage rate(PCR).Daylighting in the greenhouse of each gradient model was simulated,and with the annual average daily light integral(A_(DLI))and distribution uniformity(DU)as evaluation indicators,the influence of various design parameters on the daylighting inside the greenhouse was quantified.The result reveals that:(1)PCR is the decisive indicator for daylighting in the PVG,and a function between PCR and the A_(DLI) is derived as A_(DLI)=-15.5 PCR+16.841;(2)Increasing the width of longitudinal daylighting strip significantly improves the A_(DLI) and enhances DU while increasing the span has a noticeable effect on improving A_(DLI) but does not significantly enhance DU;(3)Increasing the eave height without changing PCR does not enhance A_(DLI) but effectively improves DU;increasing the transverse daylighting strip and adjusting the roof angle hardly improves A_(DLI).In summary,it is recommended that the optimal span for PVGs in tropical regions be set within the range of 6.5-8.0m,and the eave height be set within the range of 2.5-3.5m.Preferably,the longitudinal daylighting strip with a width ranging from 0.5-0.8m should be installed.Based on the above relationship function,the PCR can be calculated according to the appropriate light demand for the cultivated crops.The daylighting design theory proposed in this paper can provide a theoretical basis and reference for the healthy development of the PV industry in tropical regions. 展开更多
关键词 photovoltaic greenhouse annual average daily light integral greenhouse design parameters DAYLIGHTING tropical regions
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Design of Underground Load Haul Dump Hybrid Power System Based on QFD and TRIZ 被引量:1
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作者 XU Jun QIAO Sha +3 位作者 MA Xiaowen YUAN Kun QI Wenbo LIU Keyi 《有色金属(中英文)》 北大核心 2025年第3期462-473,共12页
As the mining industry continues to expand and international oil prices increase,more rigorous demands are being placed on the design of mining equipment.Given this,there is an urgent need to develop new power-driven ... As the mining industry continues to expand and international oil prices increase,more rigorous demands are being placed on the design of mining equipment.Given this,there is an urgent need to develop new power-driven mining equipment to solve the problems of high energy consumption and insufficient power coupling of current equipment.This study proposed a design of a hybrid power system for underground Load Haul Dump(LHD).The proposed design integrated Quality Function Deployment(QFD)and Theory of Inventive Problem Solving(TRIZ).It identified 7 user requirements and 10 related technical features,formulated 11 innovative design solutions,and ultimately adopting an electric drive hybrid power scheme.This scheme effectively addressesd power transmission coupling problems and improve the efficiency of loaders.A 6 m³hybrid power loader prototype has been developed,which reduces operational energy consumption and advances the electrification and green,low-carbon evolution of mining equipment. 展开更多
关键词 quality function deployment TRIZ LHD design solution
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基于参数化生成的四经绞罗工艺复原
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作者 于晓洋 丁肇辰 +3 位作者 刘凯旋 毕枫 岳冉 吕婉琪 《毛纺科技》 北大核心 2025年第5期30-38,共9页
为了在数字时代下更广泛地保护、传承与传播四经绞罗织造工艺,提出了一种运用参数化工具实现高精度织物外观复原的方法。首先基于四经绞罗工艺相关知识点对该结构进行切分与列举;其次在Substance Designer中生成模块化的单元结构;再次... 为了在数字时代下更广泛地保护、传承与传播四经绞罗织造工艺,提出了一种运用参数化工具实现高精度织物外观复原的方法。首先基于四经绞罗工艺相关知识点对该结构进行切分与列举;其次在Substance Designer中生成模块化的单元结构;再次通过分布贴图限定图形的生成范围,将图形转化为多通道贴图从而应用于服饰的数字化复原;最后采用层次分析法与模糊评价法对四经绞罗数字复原视觉效果进行评价。结果表明,运用参数化技术生成的纹理具有可持续性,对纺织品进行高精度的高效复原具有可行性,为服饰的数字化提供一种复原新思路。 展开更多
关键词 参数化 服饰数字化 四经绞罗 Substance Designer 数字化复原
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Investigation of mixing performance and safety characteristics of polymer-based energetic materials simulant via screw-pressing blending extrusion charges 被引量:2
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作者 Gaoming Lin Huzeng Zong +6 位作者 Suwei Wang Huang Chen Siyu Yu Xiaojie Hao Kang Wang Yuanyuan Li Guohui Zhang 《Defence Technology(防务技术)》 2025年第2期287-305,共19页
The present study introduces a screw-pressing charging method to tackle deficiencies in automation and charge uniformity during the melt-casting of polymer-based energetic materials.To ensure the safety of the experim... The present study introduces a screw-pressing charging method to tackle deficiencies in automation and charge uniformity during the melt-casting of polymer-based energetic materials.To ensure the safety of the experiments,this study used inert materials with similar physical properties to partially substitute for the actual energetic components in the preparation of simulant materials.By thoroughly analyzing slurry physical properties,a simulation framework and an extensive performance evaluation method were developed.Such tools guide the design of the structure and configuration of process parameters.Results demonstrate that employing the Pin element significantly enhances radial mixing within the screw,minimizes temperature variations in the slurry,and improves both efficiency and safety in the mixing process.Further,adjustments such as widening the cone angle of the barrel,modifying the solid content of the slurry,and varying the speed of the screw can optimize the mechanical and thermal coupling in the flow field.These adjustments promote higher-quality slurry and create a safer production environment for the extrusion process. 展开更多
关键词 Polymer-based energetic materials Screw-pressing charging process Structural design Process safety Mixing performance
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