1,406 research outputs found
Optimal Allocation of Capacitor Bank in Radial Distribution System using Analytical Approach
In this paper, a novel analytical technique is proposed for optimal allocation of shunt capacitor bank in radial distribution system. An objective function is formulated to determine the optimal size, number and location of capacitor bank for real & reactive power loss reduction, voltage profile enhancement and annual cost saving. A new constant, Power Voltage Sensitivity Constant (PVSC), has been proposed here. The value of PVSC constant decides the candidate bus location and size. The achievability of the proposed method has been demonstrated on IEEE-69 bus and real distribution system of Jamawaramgarh, Jaipur city. The obtained results are compared with latest optimization techniques to show the effectiveness and robustness of the proposed technique
Drought management: a multi-level governance approach in rural China
Drought has always been a serious problem in many parts of the world, and climate change may further exacerbate this problem. Much literature is available on providing information on drought instruments in rural China covering establishing national drought relief (Zhang et al., 2005) and water scarcity management systems (Qu et al., 2010), promoting water saving and agricultural technology (Huang et al., 2009; Blanke, et al., 2007), analyzing Water Users Association (WUA) (Wang et al., 2010), initiating water pricing measures (Yang et al., 2003; Zhong and Mol, 2010), popularizing agricultural subsidies (Du et al., 2011), and experimenting with policy-oriented microfinance and agricultural insurance (Du, 2003; Zeng and Mu, 2010). But very few has addressed the issues on multi-level governance in this area in general, and in China in particular. This paper focuses on the question: How can an examination of institutional and non-institutional causes of drought and the performance of existing instruments at multiple levels of governance help us to develop more appropriate policy instruments for drought management in China
Adsorption Behaviour of Diisopropyl Flourophosphate on Whetlerite Carbon
Breakthrough behaviour of diisopropyl florophosphate (DFP) vapour on whetlerite carbon has been studied by using modified wheeler equation. The kinetic saturation capacity and pseudo first order rate constant with respect to the effect of various parameters such as bed weight, flow rate, concentration and temperature were correlated. The results of this study indicate that breakthrough time is increased with increase of the bed weight of carbon. Rate constant value increases as flow rate increases, while kinetic saturation capacity value is invariable.Defence Science Journal, 2013, 63(5), pp.473-477, DOI:http://dx.doi.org/10.14429/dsj.63.251
pulmonary hypertension in left heart disease
Elevated left ventricular filling pressures are a general feature and hallmark of heart failure resulting from cardiac dysfunctions, essentially arising from and affecting the left ventricle [1, 2]. These disorders include heart failure due to diastolic and/or systolic malfunctions, as such heart failure with preserved (HFpEF) and without preserved; reduced (HFrEF) ejection fraction; valvular diseases; congenital cardiomyopathies; and congenital and acquired afflictions of left heart inflow and/or outflow tract [2, 3]. Thereby, the pressure of the left atrium will be elevated, either subsequently due to the increased LV-filling pressure [1, 4] or even initially, primarily in case of mitral stenosis [5]. In any case, left heart disease (LHD) is generally characterized by elevated left-sided filling pressures [4, 6]. The left-sided filling pressures are transmitted backwards, downstream, thereby causing an increase in pulmonary venous pressures [1, 5–7], a condition "of passive or congestive nature" as associated with pulmonary venous congestion [6]. In the literature this issue has in the past been called pulmonary venous hypertension (PvH) [8], or post-capillary pulmonary hypertension [9] or passive pulmonary hypertension [10]. Consequently, with the rise in pulmonary venous pressure, pulmonary artery pressure (PAP) also increases [11]
Intragenic recombination between pseudogenes as a source of new disease specificity at a simple resistance locus
BACKGROUND: Pooling of multi-site MRI data is often necessary when a large cohort is desired. However, different scanning platforms can introduce systematic differences which confound true effects of interest. One may reduce multi-site bias by calibrating pivotal scanning parameters, or include them as covariates to improve the data integrity. NEW METHOD: In the present study we use a source-based morphometry (SBM) model to explore scanning effects in multi-site sMRI studies and develop a data-driven correction. Specifically, independent components are extracted from the data and investigated for associations with scanning parameters to assess the influence. The identified scanning-related components can be eliminated from the original data for correction. RESULTS: A small set of SBM components captured most of the variance associated with the scanning differences. In a dataset of 1460 healthy subjects, pronounced and independent scanning effects were observed in brainstem and thalamus, associated with magnetic field strength-inversion time and RF-receiving coil. A second study with 110 schizophrenia patients and 124 healthy controls demonstrated that scanning effects can be effectively corrected with the SBM approach. COMPARISON WITH EXISTING METHOD(S): Both SBM and GLM correction appeared to effectively eliminate the scanning effects. Meanwhile, the SBM-corrected data yielded a more significant patient versus control group difference and less questionable findings. CONCLUSIONS: It is important to calibrate scanning settings and completely examine individual parameters for the control of confounding effects in multi-site sMRI studies. Both GLM and SBM correction can reduce scanning effects, though SBM's data-driven nature provides additional flexibility and is better able to handle collinear effects
Lattice Study of Dense Matter with Two Colors and Four Flavors
We present results from a simulation of SU(2) lattice gauge theory with N_f=4
flavors of Wilson fermion and non-zero quark chemical potential mu, using the
same 12^3x24 lattice, bare gauge coupling, and pion mass in cut-off units as a
previous study with N_f=2. The string tension for N_f=4 is found to be
considerably smaller implying smoother gauge field configurations.
Thermodynamic observables and order parameters for superfluidity and color
deconfinement are studied, and comparisons drawn between the two theories.
Results for quark density and pressure as functions of mu are qualitatively
similar for N_f=2 and N_f=4; in both cases there is evidence for a phase in
which baryonic matter is simultaneously degenerate and confined. Results for
the stress-energy tensor, however, suggest that while N_f=2 has a regime where
dilute matter is non-relativistic and weakly-interacting, N_f=4 matter is
relativistic and strongly-interacting for all values of mu above onset.Comment: Horizontal axes of several figures rescaled. Version accepted for
publicatio
Anomalous density of states in a metallic film in proximity with a superconductor
We investigated the local electronic density of states in
superconductor-normal metal (Nb-Au) bilayers using a very low temperature (60
mK) STM. High resolution tunneling spectra measured on the normal metal (Au)
surface show a clear proximity effect with an energy gap of reduced amplitude
compared to the bulk superconductor (Nb) gap. Within this mini-gap, the density
of states does not reach zero and shows clear sub-gap features. We show that
the experimental spectra cannot be described with the well-established Usadel
equations from the quasi-classical theory.Comment: 4 pages, 5 figure
Magnetic trapping of metastable atomic strontium
We report the magnetic trapping of metastable atomic strontium. Atoms
are cooled in a magneto-optical trap (MOT) operating on the dipole allowed
transition at 461 nm. Decay via
continuously loads a magnetic trap formed by the quadrupole magnetic field of
the MOT. Over atoms at a density of cm and
temperature of 1 mK are trapped. The atom temperature is significantly lower
than what would be expected from the kinetic and potential energy of atoms as
they are transferred from the MOT. This suggests that thermalization and
evaporative cooling are occurring in the magnetic trap.Comment: This paper has been accepted by PR
Certain subclasses of multivalent functions defined by new multiplier transformations
In the present paper the new multiplier transformations
\mathrm{{\mathcal{J}% }}_{p}^{\delta }(\lambda ,\mu ,l) (\delta ,l\geq
0,\;\lambda \geq \mu \geq 0;\;p\in \mathrm{% }%\mathbb{N} )} of multivalent
functions is defined. Making use of the operator two new subclasses and \textbf{\ }of multivalent analytic
functions are introduced and investigated in the open unit disk. Some
interesting relations and characteristics such as inclusion relationships,
neighborhoods, partial sums, some applications of fractional calculus and
quasi-convolution properties of functions belonging to each of these subclasses
and
are
investigated. Relevant connections of the definitions and results presented in
this paper with those obtained in several earlier works on the subject are also
pointed out
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