Sales Forecast by Taking the Concept of Blue Ocean Theory using MatLab Programming

Recently the market become red ocean and the concept of blue ocean decides that the demand and supply of any incoming goods and services can produce the drastic change in economy if it shows the Growth pattern and precise  enough to create the impact on customers mind. This will create lot of time to turn blue ocean into red ocean. Keywords: blue ocean, market analysis, segmentation, economic analysis, Matlab programming

Sales Forecast By taking the Concept of Blue Ocean Theory Using MatLab Programming

Recently the market become red ocean and the concept of blue ocean decides that the demand and supply of any incoming goods and services can produce the drastic change in economy if it shows the Growth pattern and precise  enough to create the impact on customers mind. This will create lot of time to turn blue ocean into red ocean.   Keywords: blue ocean, market analysis, segmentation, economic analysis, Matlab programming

Concentrating Power for MPPT Solar PV Module forming Channelization of Efficient Energy

The energy of photovoltaic (PV) is going to become a most relevant part of renewable energy in world, by PVC Cell system for sufficient energy extraction this research will scrutinize the solar PV energy generation and conversion by effective devices to grid alliances Here this treatise target on I-V and P-V characteristics of Photo volatile modules or array, primarily under irregular shading condition, the model development of PV system and considering both physical and electrical parameters of solar PV module. The treatise ponder that how disparate bypass diode collocation could be influences maximum power conclusion characteristics of a solar PV module or array

Total Harmonic Distortion at Fault in RLC Load

This paper focuses on the calculation of total harmonic distortion (THD) at various fault situations in case of RLC load. The faults are created by introducing heavy impedance of 1000 ohm, by blowing off the gate pulse at one of the terminals of the mosfet, and by introducing a line to ground fault. The Matlab based simulation has been done to show these effects

Aggregation and Morphological Aptitude of Drug-Based Ionic Liquids in Aqueous Solution

Here, we present how replacing the usual inorganic counter ion with a pharmaceutically active aromatic one can greatly affect the interfacial as well as bulk properties of ionic liquids (ILs). We have synthesized a series of novel drug-based ILs, namely, 1-alkyl-3-methylimidazolium diclofenate ([C<i>_n</i>mim]­[DF]; <i>n</i> = 6, 8, 10, 12, and 14) abbreviated as DF-ILs, wherein DF^– is a well-recognized analgesic and nonsteroidal anti-inflammatory drug. We show strong synergistic interactions between C<i>_n</i>mim⁺ and aromatic DF^– attributed to reduced electrostatic repulsions and increased hydrophobicity from their incorporation, reflecting a 300-fold smaller critical aggregation concentration than that of their Cl^– analogue [C<i>_n</i>mim]­[Cl]. Interfacial properties for such strongly associating systems are discussed and clearly established to have remarkably improved properties than those of their Cl^– analogues. The decreasing polarity of the cybotactic region of pyrene with increase in the chain length “<i>n</i>” indicates an increased extent of packing of cationic head groups in the Stern layer. DF^– ion seems to play a vital role in the formation of the resulting aggregates, as probed by small angle neutron scattering and transmission electron microscopy. The thermodynamical insights of the aggregation process have been studied using isothermal titration calorimetry and temperature-dependent conductivity experiments. Unilamellar vesicles are formed at extremely low concentration, and also it is the first report that puts into picture the formation of vesicles for [C₆mim]­[DF] with such a short chain

Unusual solubilization capacity of hydrophobic drug olanzapine in polysorbate micelles for improved sustained drug release

Polysorbates and Pluronic polymers are straightforward to use to improve the performance of hydrophobic molecules, however, colloidal systems of these polymers are not fully understood and loading of drug molecules in these Polysorbate micelles rely on a plethora of factors. Thus, it is a laborious task to select the optimal Polysorbate as a drug delivery vehicle. To pave the way for use of Polysorbates, three Polysorbates with different hydrophobicity were selected for oral delivery of the hydrophobic drug Olanzapine (OLZ). At higher concentration, Polysorbate T20 with low hydrophobicity accommodated a higher amount of OLZ than other Polysorbates T40 and T60 with higher hydrophobicity. The effect of mixed micelles of Pluronic P84 and Polysorbate (T20, T40, T60) on solubilization of OLZ was also studied at different concentration ratios and the higher OLZ solubilization was found to be in T20:P84 mixed micelles at 3:2 %w/v concentration ratio. Stronger interactions between OLZ and T20 were noticed with isothermal titration calorimetry (ITC), resulting in the higher OLZ solubilization in these micelles. Dynamic light scattering (DLS) and small angle neutron scattering (SANS) measurements revealed that mixed micelles of Polysorbates are greater in sizes than pure polysorbate micelles and the size decreased after loading of OLZ. Furthermore, SANS measurements suggested that decrease in the aggregation number after OLZ loading promoted the loading capacity of the Polysorbate micelle. Polysorbates micelles exhibited the sustained release behavior in biological relevant media, examined with in vitro dialysis release method. Therefore, it is believed that the finding of this work could be useful in the oral delivery formulations in which Polysorbates and Pluronics are primarily used