442 research outputs found

    Simulation and Analysis of Biogas operated Double Effect GAX Absorption Refrigeration System

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    A thermodynamic simulation of a double effect generator heat exchanger absorption refrigeration cycle using biogas as source of energy has been carried out. The binary mixture considered in the present investigation was NH3 – H2O (Ammonia - Water). This simulation was performed in order to investigate the effect of the temperature and pressure of the high temperature generator and the pressure of evaporator have over the Coefficient of Performance (COP) for a constant condenser and absorber temperatures. The basic parameters at various state points of the cycle was computed using standard correlations. The solution circulation rates and volume of biogas required for operation of the cycle are analysed for the variations in operating parameters at the high temperature generator and evaporator

    Bending of an Isotropic Compressible Circular Plate into an Ellipsoidal Shell

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    The problem of bending of an isotropic compressible circular plate into an ellipsoidal shell has been solved and the results obtained in terms of the general strain energy function w

    Bending Of Aelotropic Blocks II

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    In part I the authors had obtained a solution for bending an aelotropic circular block into an ellipsoidal and obtained the solution for the problem of bending and aelotropic circular block into a spherical shell as a particular case. In this paper, the solution for bending a circular block into a paraboloidal shell has been obtained on the same lines in terms of a completely general energy function for both compressible and incompressible materials

    A study of anti-inflammatory activity of the benzofuran compound (3,4-dihydro 4-oxo-benzofuro [3,2-d] pyrimidine-2-propionic acid) in chronic model of inflammation

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    Background: Benzofuran compounds are shown to have pharmacological properties such as antiarrhythmic, antidepressant, antifungal, and antibacterial activity. Some studies conducted on them have revealed that they are having anti-inflammatory property also. Hence, we carried out this study to know whether the benzofuran compound 3, 4-dihydro 4-oxo-benzofuro (3, 2-d) pyrimidine-2-propionic acid has got anti-inflammatory activity against chronic inflammation.Methods: Wistar albino rats were treated with benzofuran compound under study and phenylbutazone in the dose of 100 mg\kg, orally with 2% gum acacia as suspending agent and the effects were observed in chronic experimental model of inflammation namely, cotton pellet induced granuloma model.Results: In the present study, it was shown that the benzofuran compound under study has got significant anti-inflammatory activity against the chronic model of inflammation.Conclusion: Our experiment shows that the benzofuran compound under study has got significant anti-inflammatory activity and may, as well become an additional anti-inflammatory drug if further studies are conducted in this direction involving human beings

    Screening of benzofuran compound 3-acetamido-2-p-anisoyl benzofuran for anti-inflammatory activity in acute models of inflammation

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    Background: Benzofurans are colourless solid compounds which are derived from coal tar. They have been shown to have many properties which are relevant to the field of pharmacology. For example they have significant antibacterial, antifungal, antidepressant and anti-arrhythmic properties. In some of the studies carried out on them they have shown to have anti-inflammatory activity also. So this study was conducted to know if the compound 3-acetamido-2-p-anisoyl benzofuran has anti-inflammatory activity in acute inflammation.Methods: The benzofuran compound understudy and phenylbutazone were administered orally to wistar albino rats in the dose of 100 mg/kg body weight, with 2% gum acacia as suspending agent and the effects were observed in acute models of inflammation viz, carrageenin induced rat paw edema, and turpentine induced peritonitis.Results: The results of our study showed that the benzofuran compound under study has significant anti-inflammatory activity in both the experimental models of acute inflammation.Conclusions: Results from our study show that the compound under study has significant anti-inflammatory activity and further detailed works with this compound in different doses are needed

    Incoherent Scattering of Gamma Rays

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    Article 09415

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    ABSTRACT INTRODUCTION Today's there square measure a growing range of moveable applications requiring small-area low-power highoutturn electronic equipment. Therefore, circuits with low power utilization grow to be the foremost vital candidates for style of microprocessors and system mechanism. The battery technology doesn't advance at constant rate because the electronics technology and there's a imperfect amount of power on the market for the mobile systems. The goal of extending the battery lifetime of moveable natural philosophy is to cut back the energy consumed per mathematical process, however low power consumption doesn't primarily imply low energy. To execute associate mathematical process, a circuit will acquire through low power by continuance at terribly low frequency however it's going to take a really lasting to complete the operation. Adder is a standout amongest the most fundamental segments of a CPU ( Central processing unit), Arithmetic logic unit (ALU), and coasting point unit and location era like store or memory access unit. Then again, expanding interest for versatile supplies Such as phones, personal digital assistant (PDA), and Notebook PC, emerge the need of utilizing zone and Power proficient VLSI circuits. Conventional adder is one in all the chief essential components of a processor that decides its out turn, and for address era just if there should be an occurrence of reserve or operation the complete adder execution would have an impact on the system as a whole. a spread of full adders. Abuse static or dynamic logic gates are accounted within the literature. In this paper, have a tendency to propose a logical methodology to style 10-transistor full adders and 28t full adders. Our new adders even have the limit misfortune issue; in any case, the adders square measure supportive in bigger circuits like multipliers regardless of the edge misfortune disadvantage. a substitution full adder known as static energy recovery full adder utilizes exclusively 10 transistors that has the most modest sum scope of transistors and has reduces the power dissipation, for every Power decline is one in all the first issues in today's VLSI style techniques as a consequence of a few reasons one is that the long battery in operation life interest of movable gadgets and second is owing to expanding scope of transistors on one chip brings about high power dissipation. The power consumption for CMOS circuits is described by the following equation: P avg = P dynamic + P short circuit + P leak Pavg =fclkCLαiV 2 dd + fclkI short V dd + I leak V dd Clearly see that the power depends on different parameters as well as on supply voltage (Vdd). Lowering Vdd would significantly reduce the power consumption of the circuit. This basic concept would be utilized to improve the power performance of the adder in this paper

    Bimetallic Pd–Au/TiO2 Nanoparticles: An Efficient and Sustainable Heterogeneous Catalyst for Rapid Catalytic Hydrogen Transfer Reduction of Nitroarenes

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    Anilines are one of the important chemical feedstocks and are utilized for the preparation of a variety of pharmaceuticals, agrochemicals, pigments, and dyes. In this context, the catalytic reduction of nitro functionality is an industrially vital process for the synthesis of aniline derivatives. Herein, we report an efficient nanosized bimetallic Pd–Au/TiO2 nanomaterial which is proved to be quite efficient for rapid catalytic hydrogen transfer reduction of nitroarenes into corresponding amines. Significantly, the reduction process is successful under solvent-free and mild green atmospheric conditions. Bimetallic Pd–Au nanoparticles served as the active center, and TiO2 played as a support in hydrogen transfer from the source hydrazine monohydrate. Typical results highlighted that the reactions were very rapid and the products were obtained in good to excellent yields. Significantly, the process was successful in the presence of a very low amount catalyst (0.1 mol %). Furthermore, the reaction showed good chemoselectivity and compatiblity with double or triple bond, aldehyde, ketone, and ester functionalities on the aromatic ring. Typical results indicated the true heterogeneous nature of the Pd–Au/TiO2 nanocatalyst, where the catalyst retained the activity, without loss of its activity

    TO EXPAND THE COMPETENCE ACROSS TRANSMISSION APPEARANCE BY USING DSTATCOM AMONG INDUCTOR

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    A distribution static compensator (DSTATCOM) is used for load voltage regulation and its performance principally depends upon the feeder resistivity and its nature. However, a study for analyzing voltage regulation performance of DSTATCOM relying upon network parameters isn't well outlined. This paper aims to produce a comprehensive study of style, operation, and versatile management of a DSTATCOM in operation in voltage management mode. A detailed analysis of the voltage regulation capability of DSTATCOM below various feeder impedances is given. Then, a benchmark design procedure to reason the worth of external electrical device is presented. A dynamic reference load voltage generation theme is also developed that permits DSTATCOM to compensate load reactive power throughout traditional operation, additionally to providing voltage support throughout disturbances. Simulation and experimental results validate the effectiveness of the projected scheme
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