1,384 research outputs found
Dynamic Management of Infrastructure
The concept fo "dynamic maintenance" is discussed in relation to the field of civil engineering. The discussion concludes that infrastructure should be maintained so as to keep the identity and character of a region in which it is located and to provide sustainable services to the public.ダイナミックメンテナンスというコンセプトを土木工学の分野において検討した。その結果、社会基盤、あるいはそれが支える社会資本査サービスは、過去から未来へと継承すべき地域性を踏まえたものであるべきであり、また、そのことが住民の安全性の確保につながることを指摘した
On intertwining operators and finite automorphism groups of vertex operator algebras
Let V be a simple vertex operator algebra and G a finite automorphism group.
We give a construction of intertwining operators for irreducible V^G-modules
which occur as submodules of irreducible V-modules by using intertwining
operators for V. We also determine some fusion rules for a vertex operator
algebra as an application.Comment: 26 page
Moonshine vertex operator algebra as L(12,0)⊗L(710,0)⊗L(45,0)⊗L(1,0)-modules
AbstractIn this article, we study the structure of the famous Moonshine vertex operator algebra V♮ as a module for a certain vertex operator subalgebra isomorphic to (L(12,0)⊗L(710,0)⊗L(45,0)⊗L(1,0))⊗8. As our main result, we obtain a complete decomposition of V♮ associated with this algebra. Our method is based on an embedding of the lattice (2A3)8 into the Leech lattice. Actually, we construct certain vertex operator algebras using some Z8 and Z2×Z2 codes. A decomposition of the Moonshine vertex operator algebra is obtained by a careful study of their representations
Countercurrent chromatography in analytical chemistry (IUPAC technical report)
© 2009 IUPACCountercurrent chromatography (CCC) is a generic term covering all forms of liquid-liquid chromatography that use a support-free liquid stationary phase held in place by a simple centrifugal or complex centrifugal force field. Biphasic liquid systems are used with one liquid phase being the stationary phase and the other being the mobile phase. Although initiated almost 30 years ago, CCC lacked reliable columns. This is changing now, and the newly designed centrifuges appearing on the market make excellent CCC columns. This review focuses on the advantages of a liquid stationary phase and addresses the chromatographic theory of CCC. The main difference with classical liquid chromatography (LC) is the variable volume of the stationary phase. There are mainly two different ways to obtain a liquid stationary phase using centrifugal forces, the hydrostatic way and the hydrodynamic way. These two kinds of CCC columns are described and compared. The reported applications of CCC in analytical chemistry and comparison with other separation and enrichment methods show that the technique can be successfully used in the analysis of plants and other natural products, for the separation of biochemicals and pharmaceuticals, for the separation of alkaloids from medical herbs, in food analysis, etc. On the basis of the studies of the last two decades, recommendations are also given for the application of CCC in trace inorganic analysis and in radioanalytical chemistry
Dynamic Centrifuge Tests on Sea Revetment with Multi-Anchors
In the construction of sea revetment, composite type of revetment has been frequently used in Japan, in which huge sized concrete caissons are placed on gravel mound to sustain earth pressure induced by sea reclamation. There are several case records of serious disaster with large displacement of the caisson in huge earthquake. This requires research efforts to find a new type of sea revetment having better static and dynamic performances. A sort of tieback caisson is an idea for the requirement, in which a concrete caisson with relatively small width is reinforced by many anchors. Authors started to study the applicability of this new type of caisson to sea revetment construction, in which a series of centrifuge test has been conducted to investigate its static and dynamic behaviors. In the dynamic tests, the model ground was subjected to several earthquake motions at a 50 g centrifugal acceleration field until the ground failed. The model tests were conducted changing the caisson width and the number and length of anchors. Simple calculations incorporating with the anchor force were also conducted to evaluate stability of the caisson. This paper describes the model ground preparation, test results and calculated results in detail
Applicability of molding procedures in laboratory mix tests for quality control and assurance of the deep mixing method
The deep mixing method (DMM) has been applied in many construction projects. The laboratory mix test is essential to the quality control and quality assurance (QC/QA) of deep mixing methods. The procedures used for the preparation of specimens in the laboratory mix test greatly affect the physical and mechanical properties of the stabilized soils. Different procedures are applied in different countries/regions. With the increasingly globalized DMM market, it is desirable that a common understanding of the nature of the laboratory mix test and internationally accepted guidelines to conduct it be established in order to guarantee the QC/QA of DMMs. As part of an international collaborative study, the influence of different molding techniques for the laboratory preparation of specimens was studied. Five different molding techniques were tested in four organizations. The results showed that the molding techniques considerably influenced the magnitude and variation of the unconfined compressive strength and the wet unit weight of the stabilized specimens. The applicability of the molding techniques was discussed in terms of their undrained shear strength and the liquidity index of the soil and binder mixture, and the usefulness of the techniques was demonstrated. (C) 2015 The Japanese Geotechnical Societ
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