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In India, the wastewater at large from distilleries is known as spent wash, which is highly acidic in nature. In India 2004, distillery industry number has gone up to 319, producing 3.25x109 l of alcohol and generating 40.4x1010 l of wastewater annually (Uppal, 2004). Because of using large quantities of water in distillery industries it is essential to treat and reuse their waste water. In the most of time the discharge standards applied for distilleries are often too tough and below the level that can be achieved with appropriate biological treatment technologies (Pant and Adholeya, 2007a,b). In distillery industry, the production and characteristics of spent wash is highly variable and dependent on feed stocks and various aspects of the ethanol production process. The molasses spent wash (MSW) is a potential water pollutant in two ways. First, the highly coloured nature of MSW can block out sun light from rivers and streams thus reducing oxygenation of the water by photosynthesis and hence becomes injurious to aquatic life. Secondly, it has a high pollution load which would result in eutrophication of contaminated water sources (FitzGibbon et al., 1998). The first reason is due to the presence of water soluble recalcitrant colouring compound called melanoidin (Evershed et al., 1997). Melanoidin are dark brown to black coloured natural condensation product of sugar and amino acids produced by nonenzymatic browning reactions called maillard reactions (Plavsic et al., 2006). Ohmomo et al. (1988a) concluded that microbial decolourization of melanoidin is due to two decomposition mechanisms; in the first the smaller molecular weight melanoidin are attacked and in the second the larger molecular weight melanoidin are attacked. Satyawali and Balakrishnan (2008 a b) have investigated that the degradation of low molecular weight compound occurred in the membrane bioreactor (MBR) while the higher molecular weight compounds comprising the colour imparting melanoidin remained unaffected. As melanoidins are recalcitrant to biodegradation, the elimination of colored effluents in molasses-based distillery wastewater treatment system is mainly based on physical or chemical procedures such as adsorption, coagulation, precipitation, and oxidation. Although these methods are effective, they suffer from such short coming as requiring high reagent dosage, high cost, and formation of hazardous byproducts and intensive energy consumption.

The distribution of selected hydrophytes and their pollen morphology was carried out in six water bodies of Puducherry outskirts during the years 2006-07. Fifteen angiosperm species belonging to fifteen genera and fifteen families were identified (Aeschynomene indica, Aponogeton natans, Eichhornia crassipes, Ipomoea aquatica, Limnophila polystachia , Ludwigia adscendens, Nelumbo nucifera, Neptunia oleracea, Nymphaea pubescens, Nymphoides hydrophylla, Ottelia alismoides, Persicaria pulchra, Pistia stratiotes, Scirpus articulatus, Typha angustata). Many of the species observed were found in all the places studied. The mean number of pollen production per anther ranged from 847 to 41416. The pollen grains are mostly apolar or isopolar rarely heteropolar. The shape is commonly spheroidal or oblate-spheroidal rarely boat shaped (Nymphaea pubescens) and sub-prolate (Nelumbo nucifera). In Typha angustata the pollen grains are found in tetrads. Similarly exine sculpturing is also extremely varied ranging from reticulate to regulate. Apertures are mostly colpate or porate. The present study for the first time documents the diversity and pollen morphology of selected species in water bodies of the coastal environs.

In present year ad-hoc parallel data processing has emerged to be one of the killer applications for Infrastructure-as-a-Service (IAAS) clouds. Major Cloud computing companies have started to integrate frameworks for parallel data and making it easy for customers to access these. However, the processing frameworks which are currently used have been designed for static, homogeneous cluster setups and disregard the particular nature of a cloud. Consequently, the allocated compute resources may be inadequate for big parts of the submitted job and unnecessarily increase processing time and cost. In this project the data processing framework to explicitly exploit the dynamic resource allocation offered by today’s IAAS clouds for both, task scheduling and execution is constructed. Particular tasks of a processing job can be assigned to different types of virtual machines which are automatically instantiated and terminated during the job execution.

Heat pipe is a device which absorbs heat from hot junction and transfer heat to other junction. If space available is more than straight heat pipes are used but when space availability is problem in electronic circuits or cards bend heat pipes are used. According to investigation it is found that bend heat pipes of angle 90 and 120 degree are most suitable in electronic systems. Experimental analysis of bend copper heat pipes for different orientations which are suitable in electronic circuits mostly are taken for study and effect of bend Angle and heat transfer rate is calculated on a test rig by using methanol as a working fluid . Study is done on bend copper Heat pipe having 8 mm diameter and length 180 mm long and find out most suitable bend heat pipe and maximum heat transfer rate.

Heat pipes are heat transfer devices that enhances large amount of heat which works on the principle of evaporation and condensation of a working fluid. Inspite of wide application of heat pipe in microelectronics cooling system the trend of the chips performance and power utilization has been increased each year and a complete understanding of mechanism has not yet been completed even though it has the ability to operate against gravity and a greater maximum heat transport capability. This paper gives you a detailed literature review about the various parameters that affect the operational characteristics of circular heat pipe. Moreover the thermal resistance and heat transfer capability are affected by the choice of working fluid, the tilt angle, the fill ratio, thermal properties, angle of inclination and heat input.

Gearboxes are widely applied in power transmission lines, so their health monitoring has a great impact in industrial applications. In this study we present fault diagnosis and classification method for intelligence condition monitoring of MF285 final drive. Broken and worn tooth face of ring gear of gearbox as two common faults of gears are studied. The vibration signal was collected by an accelerometer type VMI102 from the experimental setup that was built for this the research. Each class had 150 samples that divided in two parts. 105and 45 samples for training and test data were considered. These signals were processed by Fast Fourier Transform (FFT) signal processor for made better decomposition to feed the feature extraction and feature selection method. 30 features were extracted from frequency domain of vibration signals. Stepwise Backward Selection was employed as feature selection technique for select the better features for the best fault detection result and increases the accuracy degree of fault detection and classification. 9 features selected were used as input to Support Vector Machine (SVM) for fault classification. Least Square Support Vector Machine (LS-SVM) was applied for SVM. Results showed that the accuracy for train and test data was about 99.05% and 95.56% that greater than 85% so that’s acceptable. Also results show the ability and high quality of this procedure for planter gearbox health monitoring.

Explosion welding (EXW) is a solid state (solid-phase) process where welding is accomplished by accelerating one of the components at extremely high velocity through the use of chemical explosives. This process is most commonly utilized to clad carbon steel plate with a thin layer of corrosion resistant material (stainless steel, nickel alloy, titanium, or zirconium). Due to the nature of this process, producible geometries are very limited. They must be simple. Typical geometries produced include plates, tubing and tube sheets. Explosion welding or bonding is a solid-state welding process that is used for the metallurgical joining of dissimilar metals. The process uses the forces of controlled detonations to accelerate one metal plate into another creating an atomic bond. Explosion bonding can introduce thin, diffusion inhibiting interlayer such as tantalum and titanium, which allow conventional weld-up installation. In addition, explosive welding is considered a cold-welding process, which allows metals to be joined without losing their pre-bonded properties.

The FTIR and FT-Raman spectra of 5-bromo-o-anisaldehyde (BOA) and 3-fluoro-p-anisaldehyde (FPA)have been recorded in the region 4000-400 cm-1 and 3500-50 cm-1, respectively.The structural and spectroscopic data of the molecule in the ground state were calculated by using density functional theory (DFT) employing B3LYP 6-31+G(d,p) basis set.The geometry of the molecule was fully optimized, vibrational spectra were calculated and fundamental vibration were assigned on the basis of potential energy distribution (TED) of the vibrational modes calculated with scaled quantum mechanical (SQM) method.

Entire world is leading towards development in the phase of globalization. Progressive nations are busy in striving to attain a better wellbeing and achieving more equitable distribution of wealth within and among generations but this development had raised issues like global warming, deforestation, changing weather and exhaustion of natural resources. To endure a sustainable wellbeing and a superior equitable distribution of wealth through time, the political will, social attitude, and well-defined economic goals have to be effectively integrated. Hence framing those practices which would endeavor sustainable economic growth but not at the cost of exhaustion of natural resources and environment. Therefore, the purpose of this study is to implement green marketing practices for achieving sustainable environment and economic growth. In other words, achieving sustainability is not possible, and will not be successful over the long run unless it takes into account all the relevant factors, including the environment. The area of study is Dal Lake. Dal Lake is a Himalayan urban lake, famous for its pristine beauty which attracts thousands of tourists every year. The Dal Lake is also one of only very few water bodies in the world having permanent human settlements within its confines. It is an important source of livelihood for above 60,000 local people residing in 125 hamlets, 602 houseboats and 272 doongas (smaller boats for ferrying people and goods) though the services like tourism, water sports, fishery, cultivation of vegetables on the ‘floating gardens, providing a variety of products like lotus seeds and rhizomes, vegetables and fruits etc. Dal Lake has historically been the center of Kashmiri civilization and has played a major role in the economy of Kashmir through its attraction of tourists as well as its utilization as a source of food and water. Preservation of world famous Dal Lake hence, is need of period. Thus incorporating green marketing practices with in the vicinity of Dal Lake can function as cradle for its conservation and sustainable environment.

In this study aqueous extract of the leaves of Aerva lanata Linn., Calotropis gigantea Linn. and Elaeocarpus ganitrus Roxb were screened for the haemolytic activity towards human erythrocytes. The haemolytic activity was performed by modified spectroscopic method at four different concentrations (125, 250, 500, 1000 ?g/ml). The haemolytic activity of the different extracts was found in the following order: C. gigantea > A. lanata : C. gigantea (1 :1) > C. gigantea: E. ganitrus (1 : 1) > A. lanata : C. gigantea : E. ganitrus (1 : 1 : 1) > A. lanata : E. ganitrus (1 : 1) > A. lanata. However, all the extracts alone and in combination with each other exhibited very low haemolytic activity. E. ganitrus did not exhibit any haemolytic activity at any dilution. Hence, they can be considered as safe to human erythrocytes.