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Earlier measurements in large synchronous generators indicate the existence of backward whirling motion, and also relatively large deviations of shape in both the rotor and the stator. These non-symmetric geometries produce an attraction force between the rotor and the stator, called unbalanced magnetic pull (UMP). The target of this paper is to analyse the whirling frequencies and amplitude of the response for large synchronous generators with a high number of poles, due to deviations of shape in the rotor and stator. A mathematical model is developed to describe the shapes of the rotor and stator, and the corresponding UMP is obtained by using the law of energy conservation. The UMP is analysed due to different deviations of shape. The result gives the average angular frequency and the magnitude of the UMP for certain deviations of shape. From this result, the whirling frequency and the amplitude of the corresponding response can be approximated. Simulations of the response of a Jeffcott rotor model show good agreement with the theoretical results of the UMP for some generator geometries. The conclusion is that different whirling frequencies, both backward and forward whirling, can occur in these machines due to deviations in shape of the generator. Therefore, the shape of the generator can excite resonance vibrations on several other frequencies than the rotation frequency. During maintenance of hydropower generators the shapes of the rotor and stator are frequently measured. The results from this paper can be used to evaluate such measurements and to explain the existence of complicated whirling motion. 相似文献
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Jan-Olov Willerström Bertil Carlsson Stig Rundqvist 《Journal of solid state chemistry》1980,31(2):227-232
Hf3As has a monoclinic unit cell of dimensions a = 15.3898(14) Å, b = 5.3795(5) Å, c = 15.330(14) Å, β = 90.291(6)°. A structure proposal based on space group (No. 15) has been refined by the least-squares method using a Rietveld-type fullprofile analysis of Guinier-Hägg X-ray powder film intensity data. The Hf3As structure is an intermediate between the Fe3P and the Ti3P types. The atomic coordination follows rules formulated earlier for representatives of the Fe3PTi3PV3S family of structures. 相似文献
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Chemical fourling on the unit-cell level is introduced as a structure-building operation in the solid state. A chemical fourling structure is achieved when two twin planes are perpendicular to each other. Each fourling unit has infinite extension in only one direction and can be related to a well-known structure type or packing of atoms. The structures of the tetragonal tungsten bronzes MxWO3 and Pd(NH3)4Cl · H2O are presented as examples of chemical fourlings of cubic close packing. The structures of SeO2, Mn2Hg5, and Zr2F7O are shown to be a sequence of chemical fourlings of primitive cubic packing. Chemical fourling units of hexagonal close packing are found in the structures of tetragonal Ti3Sb, α-V3S and Sb6O7(SO4)2. The structures of CuAl2, SeTl, NbTe4, Ti3Sb, and MnU6 all have the same chemical fourling unit. Cr23C6 is described as a bounded chemical fourling of cubic close packing. 相似文献
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Two new ordered forms of “β-alumina” with rhombohedral symmetry have been discovered and their structures deduced from one-dimensional electron microscope images of thick crystals. Referred to a hexagonal cell, their lattice parameters are a = 5.59Å, c = 169.5Å and a = 5.59Å, c = 339Å. A symbolism for describing structures related to that of β-alumina is proposed. 相似文献
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Liu Y Chen W Joly AG Wang Y Pope C Zhang Y Bovin JO Sherwood P 《The journal of physical chemistry. B》2006,110(34):16992-17000
It is commonly believed that high-quality CdTe nanoparticles with strong luminescence can only be prepared under the protection of an inert gas such as nitrogen or argon. Here, we report the preparation of highly luminescent CdTe nanoparticles in air and compare their luminescence properties with CdTe nanoparticles made in nitrogen. We find that both water-soluble CdTe nanoparticles made in air and in nitrogen exhibit strong photoluminescence as well as upconversion luminescence at room temperature. However, differences do exist between the particles made in air and those made in nitrogen. In particular, the particles prepared in air display a faster growth rate, grow to larger sizes, and display stronger electron coupling relative to the particles prepared in nitrogen. X-ray photoelectron spectroscopy analysis indicates that the oxygen content in the nanoparticles synthesized in air is higher that that in particles synthesized in N(2), likely resulting in a higher availability of excess free cadmium. Cytotoxicity measurements reveal that the particles made in air appear slightly more toxic, possibly due to the excess of free cadmium. 相似文献
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Daniel Klint Gunnel Karlsson Jan-Olov Bovin 《Angewandte Chemie (International ed. in English)》1999,38(17):2560-2562
The adsorption of macromolecules on zeolite crystal surfaces has been investigated by cryo transmission electron microscopy (TEM) of frozen hydrates. It was determined that ferritin shows different adsorption behavior on NaY (TEM image on the right) and USY zeolites (TEM image on the left). 相似文献
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