分类: 物理学 >> 核物理学 提交时间: 2024-06-28
Yong Sun
Qi-Biao Wang
Peng-Cheng Li
Ming Xia
Bin Liu
He-Yong Huo
Wei Yin
Yang Wu
Sheng Wang
Chao Cao
Xin Yang
Run-Dong Li
Hang Li
Bin Tang
摘要: Nuclear energy is a vital source of clean energy that will continue to play an essential role in global energy production for future generations. Nuclear fuel rods are core components of nuclear power plants, and their safe utilization is paramount. Due to its inherent high radioactivity, indirect neutron radiography (INR) is currently the only viable technology for irradiated nuclear fuel rods in the field of energy production. This study explores the experimental technique of indirect neutron computed tomography (INCT) for radioactive samples. This project includes the development of indium and dysprosium conversion screens of different thicknesses and conducts resolution tests to assess their performance. Moreover, a pressurized water reactor (PWR) dummy nuclear fuel rods have been fabricated by self-developing substitute materials for cores and outsourcing of mechanical processing. Experimental research on the INR is performed using the developed dummy nuclear fuel rods. The sparse reconstruction technique is used to reconstruct the INR results of 120 pairs of dummy nuclear fuel rods at different angles, achieving a resolution of 0.8 mm for defect detection using INCT.
分类: 护理学 >> 护理学 提交时间: 2024-06-27
摘要: 本文回顾了一例通过中药塌渍和穴位按摩相结合治疗下肢血栓闭塞性脉管炎的护理经验。本案例以中医辩证理论为导向,将辩证施护作为护理实践的基础,在常规治疗措施之上,实施了针对性的护理策略。这些策略包括应用中医特有的护理技术,并融合了生活调理、饮食建议及健康教育等护理常规。通过这样的综合干预,实现了对病因和症状的同时治疗,使得患者的下肢血栓闭塞性脉管炎得到了有效控制。此外,该治疗方案简便易行,成本效益高,极大地提升了患者的治疗满意度。
分类: 护理学 >> 护理学 提交时间: 2024-06-27
摘要: 本文总结血液灌流加中药药浴治疗寻常型银屑病的护理经验。在血液灌流基础上给患者进行中药药浴,同时结合饮食调理、心理护理等措施。经干预后,患者无新的皮疹出现,原斑疹消退、鳞屑消失、瘙痒等症状消失,皮损平复。
分类: 核科学技术 >> 核科学技术其他学科 提交时间: 2024-06-27
摘要: 船用反应堆和浮动式核电站由于海洋运动引起的壁面温度波动给两相传热系统的沸腾传热带来挑战。热释电材料钽酸锂(LT)随温度变化而产生的热释电效应会对传热表面的浸润性造成影响,将其运用到传热表面有望改善传热性能。本研究采用溶胶-凝胶法实现了LT的可控制备,并通过羟基自由基含量变化对热释电性能及浸润性调控的机理进行研究。研究结果表明LT的粒径随退火温度增加而增大,涂层厚度的增加和粒径的减小均有助于增强热释电性能。荧光光谱分析表明LT在升温过程中羟基自由基含量升高,同时证实LT在经历加热和冷却循环时具有对羟基自由基含量的调控能力。上述结果表明,LT涂层在两相变温传热系统中,具有调控传热表面浸润性的能力。
分类: 核科学技术 >> 辐射物理与技术 提交时间: 2024-06-27
摘要: 废物桶中基体材料的存在限制了主动质询系统对核材料质量测量的准确性,确保核保障测量结果不受基体材料的影响至关重要。因此,基于通量监测器响应,本文在传统校正方法的基础上开发了一种新的基体校正方法。为了验证新方法的有效性,利用Geant4工具包构建了WM3210 PAN Shuffler系统模型以及常见的基体材料,并开展了模拟研究。结果表明,对于不同富集度以及分布状态的U3O8材料,传统校正方法与新校正方法均可以有效的降低基体材料对核材料质量测量的影响,但相较于传统方法,新方法表现出更好的校正能力。对于U3O8材料位于基体中心的情况,新校正方法得到的235U质量平均相对偏差为13.6%,而对于U3O8材料均匀弥散在基体中的情况,新校正方法得到的235U质量平均相对偏差为7.78%。
分类: 护理学 >> 护理学 提交时间: 2024-06-27
摘要: 本文总结1例后循环缺血患者的中医护理。根据患者情况进行辨证分析,采用眩晕护理常规进行饮食指导、情志护理、生活起居护理,结合运用中医特色技术耳穴压丸进行干预,从而改善患者眩晕症状,改善患者不良心理情绪,预后情况良好。
分类: 核科学技术 >> 辐射物理与技术 提交时间: 2024-06-27
摘要: 为提升辐射伏特电池性能,研究了耗尽区宽度、扩散长度及电极结构等因素对输出功率的影响,并通过放射源厚度、换能器件结构、电极等方面的设计优化和工艺改进,制备获得了放射源与换能器件集成化的氚化钛-SiC基辐射伏特电池。与未集成化的氚化钛-SiC基电池的测试结果相比,氚化钛与换能器件集成化的方式显著提升了辐射伏特电池的输出性能,其中最大输出功率达到了21.4 nW,在已公开报道的同类型辐射伏特电池中处于较高水平。本工作为制备高性能辐射伏特电池提供了有价值的参考。
分类: 核科学技术 >> 辐射物理与技术 提交时间: 2024-06-27
摘要: 电子束辐照作为一种高级氧化法,利用其产生的具有强氧化性和强还原性的活性自由基对水中有机物进行处理已经受到广泛研究。目前缺乏利用高级氧化法降解链霉素的研究。因此,采用电子束辐照作为一种新的途径,来探究链霉素降解的可行性。实验结果表明,在1MeV电子束能量和10kGy辐照剂量的条件下,5mg/L的链霉素得到了完全降解。通过DFT预测反应位点,并结合质谱数据分析链霉素降解产物的结构,得到了4种电子束辐照下链霉素的降解产物。同时根据不同辐照剂量下降解产物的成分和含量对降解路径进行合理推测。
分类: 核科学技术 >> 粒子加速器 提交时间: 2024-06-26
摘要: 在磁性样品环境下小角中子散射谱仪使用非极化中子束能够定量分析样品磁性微结构。本文报道用在CARR堆导管大厅小角中子散射谱仪(SANS)上的磁性样品环境装置的组成、特征和首次实验。该磁性样品环境装置主要由3.00T的电磁铁、高精度电源、支撑台,冷却系统和微机控制系统构成。磁性样品环境装置的主要特征是:磁场均匀;电磁铁的支撑台高度可调;样品位置的气隙在120 mm内可调;样品支架可以旋转,且其高度可调。最后,本文展现在CARR堆小角中子散射谱仪磁性样品环境下测量17-4PH不锈钢纳米析出相的实验结果。这个实验结果标志这套磁性样品环境装置运行正常,满足对小角中子散射用户开放的条件。
分类: 核科学技术 >> 核科学与技术 提交时间: 2024-06-28
摘要: 作为高温反应堆的候选换热器,印刷电路换热器(PCHE)运行环境非常苛刻且其技术成熟度低。在本工作中,设计了一种20kW PCHE并对其可能失效影响因素进行了分析。本文提出换热芯体分区均匀化方法,并模拟了换热器高温、高压运行环境,开展换热芯体宏、细观温度场数值仿真,最后,通过理论和初步数值仿真分析,对PCHE换热器可能失效部位、失效方式及后果进行预估。本工作为PCHE换热器安全评估的进一步研究指明了方向。
分类: 核科学技术 >> 辐射物理与技术 提交时间: 2024-06-27
摘要: 为提升辐射伏特电池的总转换效率和输出功率,综合考虑耗尽区宽度、扩散长度及电极结构等因素对电荷收集效率、总转换效率及输出功率的影响,通过优化换能器件及电极结构,成功制备出总转换效率及输出功率较高的63Ni-SiC基PIN结换能器件。所制备的辐伏电池的短路电流、开路电压、输出功率及总转换效率分别达到了10.29 – 13.43 nA/cm2、1.32 – 1.44 V、11.66 – 14.69 nW/cm2及2.24% –2.82%。与团队之前的工作相比,开路电压、FF因子及总转换效率分别平均提高了127.50%、114.47%及512.10%,且总转换效率高于文献报道的结果(0.5% – 1.99%)。结果表明,通过采用具有“浓度梯度层I层”的PIN结构、优化结区宽度和掺杂浓度,以及优化电极材料和结构,可显著提升辐伏电池的总转换效率和输出功率,为辐伏电池的设计与制备提供了重要的理论参考和实验依据。
分类: 图书馆学、情报学 提交时间: 2024-07-01 合作期刊: 《文献与数据学报》
摘要: [目的 /意义]人工智能是新质生产力的代表,“AI+”是我国发展新质生产力的重要方向。民众的 AI认知和使用情况是观察和研究 AI技术在中国扩散的现实依据。[方法 /过程]基于中国社会科学院舆情调查实验室 2019年和 2023年两次调查数据,剖析中国城市居民的 AI认知与使用状况。[结果 /结论]从 2019年到 2023年,人工智能在民众中的落地应用效果明显,年轻化、受教育程度高的群体更容易接触并使用 AI产品或服务,民众对 AI的态度趋于冷静、客观,人们逐渐关注 AI发展可能带来的负面影响,技术焦虑的现象普遍存在。AI持续嵌入生活生产,国家需重视 AI“民意景观”对 AI发展的影响。
分类: 图书馆学、情报学 提交时间: 2024-07-01 合作期刊: 《文献与数据学报》
摘要: [目的 /意义]学龄前儿童的绘本阅读服务,是儿童图书馆的重要服务内容。全面调研分析儿童图书馆和私营绘本馆的阅读推广服务状况并提出针对性建议,对提升学龄前儿童绘本阅读推广服务水平具有重要意义。[方法 /过程]引入“物理-事理-人理”(WSR)系统方法论构建面向学龄前儿童的图书馆绘本阅读推广服务模型,并对以合肥市少年儿童图书馆为代表的公共图书馆和某些私营绘本馆进行问卷调查与比较分析,最后提出针对性的对策建议。[结果 /结论]调查结果表明:公共图书馆具有馆藏量大且活动内容丰富等优势;但是在地理位置、排架结构、外借服务上,私营绘本馆更具优势。建议面向学龄前儿童的图书馆绘本阅读服务,从物理层面优化绘本馆藏和数字阅读形式,从事理层面改善阅读环境、借阅体验和主题活动,从人理层面健全合作机制和专家团队建设,不断提升学龄前儿童绘本阅读推广的服务水平和实际效果。
分类: 核科学技术 >> 核科学与技术 提交时间: 2024-06-29
摘要: 随着化石燃料逐渐枯竭,研制商业化的聚变反应堆成为解决能源问题的途径之一,而为了实现聚变堆氚自持运行,从聚变堆增殖包层中提取氚的技术有着重要研究意义。从经济性和可实现性角度出发,液态锂铅包层具有很大的优势和发展前景。本文对国际热核聚变实验堆(ITER)以及欧盟聚变示范堆(DEMO)所提出的液态锂铅包层中的氚提取技术,包括真空渗透法(PAV)、气液接触法(GLC)、真空筛板法(VST)三种氚提取工艺进行了综述,归纳总结了各个工艺的优劣势、所需辅助系统、技术问题等,并对其进行了性能比对,以期对聚变堆氚提取系统的设计研究提供思路和参考。
分类: 护理学 >> 护理学 提交时间: 2024-06-28
摘要: 探讨一例耳部刮痧联合骨痹操应用于1例骨关节炎患者的护理体会。通过对一例右侧髋关节疼痛的骨关节炎患者实施耳部刮痧联合骨痹操,经过两周的治疗和护理,患者的疼痛评分显著下降,焦虑情绪明显缓解,日常生活能力得到显著改善。耳部刮痧、骨痹操作为中医特色疗法,对缓解骨关节炎患者的疼痛、改善关节功能具有积极的辅助作用,且无明显副作用。此方法值得在临床护理中推广应用。
分类: 天文学 >> 天文学 提交时间: 2023-02-19
摘要: We measure for the first time the outermost edges of the Milky Way (MW) halo in terms of the depletion and turnaround radii. The inner depletion radius, $r_\mathrm{id}$, identified at the location of maximum infall velocity, separates a growing halo from the draining environment, while the turnaround radius, $r_\mathrm{ta}$, marks the outermost edge of infalling material towards the halo, both of which are located well outside the virial radius. Using the motions of nearby dwarf galaxies within $3\mathrm{Mpc}$, we obtain a marginal detection of the infall zone around the MW with a maximum velocity of $v_\mathrm{inf, max}=-46_{-39}^{+24}\mathrm{km s^{-1}}$. This enables us to measure $r_\mathrm{id}=559\pm 107 \mathrm{kpc}$ and $r_\mathrm{ta}=839\pm 121 \mathrm{kpc}$. The measured depletion radius is about 1.5 times the MW virial radius ($R_\mathrm{200m}$) measured from internal dynamics. Compared with halos in the cosmological simulation Illustris TNG100, the factor 1.5 is consistent with that of halos with similar masses and dynamical environments to the MW but slightly smaller than typical values of Local Group analogs, potentially indicating the unique evolution history of the MW. These measurements of halo edges directly quantify the ongoing evolution of the MW outer halo and provide constraints on the current dynamical state of the MW that are independent from internal dynamics.
分类: 天文学 >> 天文学 提交时间: 2023-02-19
摘要: The Solar System's orbital structure is thought to have been sculpted by an episode of dynamical instability among the giant planets. However, the instability trigger and timing have not been clearly established. Hydrodynamical modeling has shown that while the Sun's gaseous protoplanetary disk was present the giant planets migrated into a compact orbital configuration in a chain of resonances. Here we use dynamical simulations to show that the giant planets' instability was likely triggered by the dispersal of the gaseous disk. As the disk evaporated from the inside-out, its inner edge swept successively across and dynamically perturbed each planet's orbit in turn. The associated orbital shift caused a dynamical compression of the exterior part of the system, ultimately triggering instability. The final orbits of our simulated systems match those of the Solar System for a viable range of astrophysical parameters. The giant planet instability therefore took place as the gaseous disk dissipated, constrained by astronomical observations to be a few to ten million years after the birth of the Solar System. Terrestrial planet formation would not complete until after such an early giant planet instability; the growing terrestrial planets may even have been sculpted by its perturbations, explaining the small mass of Mars relative to Earth.
分类: 天文学 >> 天文学 提交时间: 2023-02-19
摘要: A general covariant local field theory of the holographic dark energy model is presented. It turns out the low energy effective theory of the holographic dark energy is the massive gravity theory whose graviton has 3 polarisations, including one scalar mode and two tensor modes. The Compton wavelength is the size of the future event horizon of the universe. The UV-IR correspondence in the holographic dark energy model stems from the scalar graviton's strong coupling at the energy scale that marks the breaking down of the effective field theory.
分类: 天文学 >> 天文学 提交时间: 2023-02-19
摘要: Thermoelastic loss is one of the main energy dissipation mechanisms in resonant systems. A careful analysis of the thermoelastic loss is critical to design low-noise resonators for high-precision applications, such as gravitational-wave detectors. This paper presents an analytical solution to the thermoelastic loss in multimaterial coated finite substrates with realistic assumptions on the model structure and the elastic fields. The mechanism responsible for thermoelastic loss is taken as a function of material properties, operating temperature and frequency, and other design parameters. We calculate the thermoelastic loss for specific applications over a wide range of frequencies (1 Hz to 10 GHz) and temperatures (1 K to 300 K), and for a variety of substrate and coating materials. The result is relevant for gravitational-wave detectors and for experiments sensitive to mechanical dissipation.
分类: 天文学 >> 天文学 提交时间: 2023-02-19
摘要: Building accurate and predictive models of the underlying mechanisms of celestial motion has inspired fundamental developments in theoretical physics. Candidate theories seek to explain observations and predict future positions of planets, stars, and other astronomical bodies as faithfully as possible. We use a data-driven learning approach, extending that developed in Lu et al. ($2019$) and extended in Zhong et al. ($2020$), to a derive stable and accurate model for the motion of celestial bodies in our Solar System. Our model is based on a collective dynamics framework, and is learned from the NASA Jet Propulsion Lab's development ephemerides. By modeling the major astronomical bodies in the Solar System as pairwise interacting agents, our learned model generate extremely accurate dynamics that preserve not only intrinsic geometric properties of the orbits, but also highly sensitive features of the dynamics, such as perihelion precession rates. Our learned model can provide a unified explanation to the observation data, especially in terms of reproducing the perihelion precession of Mars, Mercury, and the Moon. Moreover, Our model outperforms Newton's Law of Universal Gravitation in all cases and performs similarly to, and exceeds on the Moon, the Einstein-Infeld-Hoffman equations derived from Einstein's theory of general relativity.
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