Search results for: Vaishnavi G. N.
5 High-Speed Electrical Drives and Applications: A Review
Authors: Vaishnavi Patil, K. M. Kurundkar
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Electrical Drives play a vital role in industry development and applications. Drives have an inevitable part in the needs of various fields such as industry, commercial, and domestic applications. The development of material technology, Power Electronics devices, and accompanying applications led to the focus of industry and researchers on high-speed electrical drives. Numerous articles charted the applications of electrical machines and various converters for high-speed applications. The choice depends on the application under study. This paper goals to highlight high-speed applications, main challenges, and some applications of electrical drives in the field.Keywords: high-speed, electrical machines, drives, applications
Procedia PDF Downloads 684 E-Waste Facility Locator: Streamlining Disposal & Recycling
Authors: Vaishnavi G. N., Yogitha R., Spoorthi R.
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The Web-based E-Waste Facility Locator alleviates the burden of getting rid of e-waste and helps conduct e-waste disposal in a more responsible manner. The information offered permits us to find the nearest e-waste facilities and available drop-off options. Regular people and non-specialized engineering enterprises are trained even after the fact. The review of such huge levers as the dynamics of global research on e-waste prompts us to focus on the strategies for e-waste management, the impact on human health of such activity, the modern state of the art of waste recycling and recycling, and, finally, the future of e-waste and the philosophy of sustainable development and the principle of circular economy. It therefore embodies a perspective of alternative in reducing the effects of e-waste.Keywords: facility locators, drop-off options, collection events, recycling cost estimates, sustainability and circular economy.
Procedia PDF Downloads 03 Traffic Light Detection Using Image Segmentation
Authors: Vaishnavi Shivde, Shrishti Sinha, Trapti Mishra
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Traffic light detection from a moving vehicle is an important technology both for driver safety assistance functions as well as for autonomous driving in the city. This paper proposed a deep-learning-based traffic light recognition method that consists of a pixel-wise image segmentation technique and a fully convolutional network i.e., UNET architecture. This paper has used a method for detecting the position and recognizing the state of the traffic lights in video sequences is presented and evaluated using Traffic Light Dataset which contains masked traffic light image data. The first stage is the detection, which is accomplished through image processing (image segmentation) techniques such as image cropping, color transformation, segmentation of possible traffic lights. The second stage is the recognition, which means identifying the color of the traffic light or knowing the state of traffic light which is achieved by using a Convolutional Neural Network (UNET architecture).Keywords: traffic light detection, image segmentation, machine learning, classification, convolutional neural networks
Procedia PDF Downloads 1762 Indigo Production in a Fed Batch Bioreactor Using Aqueous-Solvent Two Phase System
Authors: Vaishnavi Unde, Srikanth Mutnuri
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Today dye stuff sector is one of the major chemical industries in India. Indigo is a blue coloured dye used all over the world in large quantity. The indigo dye produced and used in textile industries is synthetic having toxic effect, thus there is an increase in interest for natural dyes owing to the environmental concerns. The present study focuses on the use of a strain Pandoraea sp. isolated from garage soil, for the production of indigo in fed batch bioreactor. A comparative study between single phase and two phase production was carried out in this work. The blue colour produced during the experiments was analyzed using, TLC, UV-visible spectrophotometer and FTIR technique. The blue pigment was found to be indigo. The production of bio-indigo was done in a single phase fermentor carrying medium and substrate indole in dissolved form and was found to produce maximum of 0.041 g/L of indigo. Whereas there was an increase in production of indigo to 0.068 g/L in a two phase, water-silicone oil system. In this study the advantage of using second phase as silicone oil has enhanced the indigo production, as the second phase made the substrate available to the bacteria by increasing the surface area as well as it helped to prevent the inhibition effect of the high concentration of substrate, indole. The effect of single and two phases on the growth of bacteria was also studied.Keywords: dyes, fed batch reactor, indole, Indigo
Procedia PDF Downloads 4351 Polymerization of Epsilon-Caprolactone Using Lipase Enzyme for Medical Applications
Authors: Sukanya Devi Ramachandran, Vaishnavi Muralidharan, Kavya Chandrasekaran
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Polycaprolactone is polymer belonging to the polyester family that has noticeable characteristics of biodegradability and biocompatibility which is essential for medical applications. Polycaprolactone is produced by the ring opening polymerization of the monomer epsilon-Caprolactone (ε-CL) which is a closed ester, comprising of seven-membered ring. This process is normally catalysed by metallic components such as stannous octoate. It is difficult to remove the catalysts after the reaction, and they are also toxic to the human body. An alternate route of using enzymes as catalysts is being employed to reduce the toxicity. Lipase enzyme is a subclass of esterase that can easily attack the ester bonds of ε-CL. This research paper throws light on the extraction of lipase from germinating sunflower seeds and the activity of the biocatalyst in the polymerization of ε-CL. Germinating Sunflower seeds were crushed with fine sand in phosphate buffer of pH 6.5 into a fine paste which was centrifuged at 5000rpm for 10 minutes. The clear solution of the enzyme was tested for activity at various pH ranging from 5 to 7 and temperature ranging from 40oC to 70oC. The enzyme was active at pH6.0 and at 600C temperature. Polymerization of ε-CL was done using toluene as solvent with the catalysis of lipase enzyme, after which chloroform was added to terminate the reaction and was washed in cold methanol to obtain the polymer. The polymerization was done by varying the time from 72 hours to 6 days and tested for the molecular weight and the conversion of the monomer. The molecular weight obtained at 6 days is comparably higher. This method will be very effective, economical and eco-friendly to produce as the enzyme used can be regenerated as such at the end of the reaction and can be reused. The obtained polymers can be used for drug delivery and other medical applications.Keywords: lipase, monomer, polycaprolactone, polymerization
Procedia PDF Downloads 297