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211.
塑料与纸包装材料的生命周期评价研究 总被引:9,自引:0,他引:9
由于塑料在自然界中的难降解,“以纸代塑”引起人们的关注,然而生命周期的评价结构表明,纸在环境保护方面并不具有优势,本文采用简式生命周期矩阵对这两种包装材料进行了分析和评价。 相似文献
212.
为了让火星巡视器在有限的寿命内能获得更多的科学产出,需要提高巡视器在火星表面的自主通过能力,而火星表面地貌类型是评估巡视器可通过性的重要信息。因此,提出了融合伽马变换的全卷积神经网络(FCN)火星表面地貌分割算法。首先,考虑对巡视器通过性的影响,确认地貌分类的类型,基于好奇号拍摄的火星地表图像Mars32K数据库,构建地貌分割数据集;其次,使用自适应伽马变换(AGT)对灰度单一的火星图像进行预处理,减弱了光照等因素干扰;最后,利用数据集训练一个FCN,以实现对火星表面地貌的分割预测。仿真结果表明:网络测试准确率达到83.03%,地形分割预测结果可靠,验证了方法的可行性。 相似文献
213.
A new fast learning algorithm was presented to solve the large-scale support vector machine ( SVM ) training problem of aero-engine fault diagnosis.The relative boundary vectors ( RBVs ) instead of all the original training samples were used for the training of the binary SVM fault classifiers.This pruning strategy decreased the number of final training sample significantly and can keep classification accuracy almost invariable.Accordingly , the training time was shortened to 1 / 20compared with basic SVM classifier.Meanwhile , owing to the reduction of support vector number , the classification time was also reduced.When sample aliasing existed , the aliasing sample points which were not of the same class were eliminated before the relative boundary vectors were computed.Besides , the samples near the relative boundary vectors were selected for SVM training in order to prevent the loss of some key sample points resulted from aliasing.This can improve classification accuracy effectively.A simulation example to classify 5classes of combination fault of aero-engine gas path components was finished and the total fault classification accuracy reached 96.1%.Simulation results show that this fast learning algorithm is effective , reliable and easy to be implemented for engineering application. 相似文献
214.
直流磁控溅射ZnO:Al薄膜的光电和红外发射特性 总被引:6,自引:0,他引:6
以锌、铝合金(ω(Al)=3%)为靶材,利用直流反应磁控溅射法制备了系列掺铝氧化锌ZnO:Al(ZAO)薄膜样品,通过X射线衍射(XRD)、扫描电子显微镜(SEM)、分光光度计、霍耳效应及红外发射率测量仪等测试仪器或方法表征了样品的结构、形貌、光学、电学及红外发射特性.测得样品最低电阻率达到1.8×10-6(Ω·m),最大禁带宽度为3.47?eV,可见光区平均透过率达到90%,8~14?μm波段平均红外发射率在0.26~0.9之间.上述特性均随衬底温度和溅射功率的变化有着规律的变化.当方块电阻小于45?Ω时,薄膜在8~14?μm波段平均红外发射率与方块电阻遵循二阶函数变化规律. 相似文献
215.
Sudip Bhattacharyya M. Coleman Miller Tod E. Strohmayer Frederick K. Lamb Craig B. Markwardt 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2006,38(12):2765-2767
We discuss millisecond period brightness oscillations and surface atomic spectral lines observed during type I X-ray bursts from a neutron star in a low mass X-ray binary system. We show that modeling of these phenomena can constrain models of the dense cold matter at the cores of neutron stars. We demonstrate that, even for a broad and asymmetric spectral line, the stellar radius-to-mass ratio can be inferred to better than 5%. We also fit our theoretical models to the burst oscillation data of the low mass X-ray binary XTE J1814-338, and find that the 90% confidence lower limit of the neutron star’s dimensionless radius-to-mass ratio is 4.2. 相似文献
216.
Clusters of galaxies are self-gravitating systems of mass ∼1014–1015
h
−1 M⊙ and size ∼1–3h
−1 Mpc. Their mass budget consists of dark matter (∼80%, on average), hot diffuse intracluster plasma (≲20%) and a small fraction
of stars, dust, and cold gas, mostly locked in galaxies. In most clusters, scaling relations between their properties, like
mass, galaxy velocity dispersion, X-ray luminosity and temperature, testify that the cluster components are in approximate
dynamical equilibrium within the cluster gravitational potential well. However, spatially inhomogeneous thermal and non-thermal
emission of the intracluster medium (ICM), observed in some clusters in the X-ray and radio bands, and the kinematic and morphological
segregation of galaxies are a signature of non-gravitational processes, ongoing cluster merging and interactions. Both the
fraction of clusters with these features, and the correlation between the dynamical and morphological properties of irregular
clusters and the surrounding large-scale structure increase with redshift.
In the current bottom-up scenario for the formation of cosmic structure, where tiny fluctuations of the otherwise homogeneous
primordial density field are amplified by gravity, clusters are the most massive nodes of the filamentary large-scale structure
of the cosmic web and form by anisotropic and episodic accretion of mass, in agreement with most of the observational evidence.
In this model of the universe dominated by cold dark matter, at the present time most baryons are expected to be in a diffuse
component rather than in stars and galaxies; moreover, ∼50% of this diffuse component has temperature ∼0.01–1 keV and permeates
the filamentary distribution of the dark matter. The temperature of this Warm-Hot Intergalactic Medium (WHIM) increases with
the local density and its search in the outer regions of clusters and lower density regions has been the quest of much recent
observational effort.
Over the last thirty years, an impressive coherent picture of the formation and evolution of cosmic structures has emerged
from the intense interplay between observations, theory and numerical experiments. Future efforts will continue to test whether
this picture keeps being valid, needs corrections or suffers dramatic failures in its predictive power. 相似文献
217.
Large-scale structure formation, accretion and merging processes, AGN activity produce cosmological gas shocks. The shocks
convert a fraction of the energy of gravitationally accelerated flows to internal energy of the gas. Being the main gas-heating
agent, cosmological shocks could amplify magnetic fields and accelerate energetic particles via the multi-fluid plasma relaxation
processes. We first discuss the basic properties of standard single-fluid shocks. Cosmological plasma shocks are expected
to be collisionless. We then review the plasma processes responsible for the microscopic structure of collisionless shocks.
A tiny fraction of the particles crossing the shock is injected into the non-thermal energetic component that could get a
substantial part of the ram pressure power dissipated at the shock. The energetic particles penetrate deep into the shock
upstream producing an extended shock precursor. Scaling relations for postshock ion temperature and entropy as functions of
shock velocity in strong collisionless multi-fluid shocks are discussed. We show that the multi-fluid nature of collisionless
shocks results in excessive gas compression, energetic particle acceleration, precursor gas heating, magnetic field amplification
and non-thermal emission. Multi-fluid shocks provide a reduced gas entropy production and could also modify the observable
thermodynamic scaling relations for clusters of galaxies. 相似文献
218.
Frits Paerels Jelle Kaastra Takaya Ohashi Philipp Richter Andrei Bykov Jukka Nevalainen 《Space Science Reviews》2008,134(1-4):405-418
We briefly review capabilities and requirements for future instrumentation in UV- and X-ray astronomy that can contribute
to advancing our understanding of the diffuse, highly ionised intergalactic medium. 相似文献
219.
Vasconcelos Maria Jaqueline Jatenco-Pereira Vera Opher Reuven 《Space Science Reviews》2003,107(1-2):383-386
In this work we examine the damping of Alfvén waves as a source of plasma heating in disks and magnetic funnels of young solar
like stars, the T Tauri stars. We apply four different damping mechanisms in this study: viscous-resistive, collisional, nonlinear
and turbulent, exploring a wide range of wave frequencies, from 10−5Ωi to 10−1Ωi (where Ωi is the ion-cyclotron frequency). The results show that Alfvénic heating can increase the ionization rate of accretion disks
and elevate the temperature of magnetic funnels of T Tauri stars opening possibilities to explain some observational features
of these objects.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
220.
YANG Shu-bo WANG Xi LONG Yi-fu LI Zhi-peng HU Zhong-zhi YIN Kai ZHANG Rong 《航空动力学报》2016,31(12):3042-3053
Since ambient conditions vary in a wide range within the full flight envelope, the existing piecewise linear model (PLM), which is based on sea-level static condition with use of corrected parameters for other points in the flight envelope, cannot meet the accuracy for replacing the nonlinear model. To obtain more accurate linear models, a method of partitioning the flight envelope over a grid of Mach number and altitude boxes was suggested. Then, a set of linear models for a given operating condition was selected by picking the nearest (Mach number, altitude) box in the flight envelope. Through the selected set of linear models, interpolating for power level based on a weighted sum of corrected rotor speeds can obtain a linear model with acceptable accuracy. Simulation results of different points within the full flight envelope showed that the maximum error between nonlinear model and the existing PLM was more than 50%, while the maximum error between nonlinear model and the improved PLM was within 8%. It is concluded that the improved PLM performs accurately, especially under the non-standard conditions. In addition, the improved PLM can satisfy the real-time requirement better than the existing PLM. 相似文献