| S.No | Name of the Faculty Member | Department | Univeristy (Ph.D Pursuing) | Name of the Guide | Status of Ph.D Work |
|---|---|---|---|---|---|
| 1. | M.Jawahar | MECH | JNTU Hyderabad | Dr.Sridhar Reddy & Dr.Ch.Srinivas | Course work completed |
| 2. | B.Sandeep | MECH | PRIST University | Dr.TTM Khanan Mahadevan | Course Work |
| 3. | Ch.Jeevan Reddy | MECH | PRIST University | Dr.TTM Khanan Mahadevan | Course Work |
ABSTRACT: The electric bicycle is an electrical-assisted device that is designed to deliver the electromagnetic momentums to a present bicycle therefore relieving the user of producing the energy essential to run the bicycle. It contains a strong motor and enough battery power that just needs charging to help in hill climbing, generate greater motoring speeds and provides completely free electric transportation. Now-a-days there are so many vehicles on road, which consumes more fuel and also hazards our environment. It is our responsibility to reduce the consumption of fuel and its hazardous emission products. Taking this into consideration it is our small step towards reducing the use of more fuel consuming vehicles and attracts the eye of people towards its alternatives i.e. Electric bike. So we intend to design a bike which would run on an alternative source and also reducing human efforts called as Battery Operated bike. In this project we design an alternative mode of transport for betterment of social and environment.
CONCEPT: 15 Student members are worked on Electric Two Wheeler Vehicle. They are designed and fabricated transmission system and modified a bike with gears attached to Electric Motor instead of IC Engine with same efficiency of conventional bike with Rs.30000/- budget. We need to charge the batteries with help of DC Power and solar energy. We can travel up to 120 kilometres once battery fully charged with 5 hours.
| NAME | Roll No. | G.Ashok | 16C45A0330 |
|---|---|
| D.Sai Kiran | 16C45A0337 |
| G.Raj Kumar | 15C41A0390 |
| R.Akhila | 16C45A0334 |
| B.Naresh | 15C41A0391 |
| A.Anil kumar | 16C45A0317 |
| V.Raju | 16C45A0318 |
| G.Aravindh | 15C41A0380 |
| B.Konesh | 16C45A0329 |
| G.Srujana | 16C45A0331 |
| G.Praveen | 16C45A0327 |
| E.Rajkumar | 16C45A0328 |
| P.Sudheer | 15C41A03B8 |
| M.Anil Kumar | 16C45A0333 |
| S.Vinay | 15C41A0394 |
ABSTRACT: The normal air cooler is device which produces the cooling effect based on the relative humidity in the air surrounding the cooler pads but in the case of high relative humidity the air cooler does not produce any considerable cooling effect. This defect of air cooler is rectified by placing the silica gel beds over the cooler pads which decreases the relative humidity of air surrounding the cooling pads and the defect of normal air cooler. The relative humidity of air coming out of air cooler with silica gel beds is very high and in order to reduce it the cooling coil is placed in front of it and the temperature of air and also its relative humidity are reduced which gives more cooling effect . The cooling effect produced by the normal air cooler is not so much, and is improved by this cooling coil with Silica gel beds as the velocity of air coming out will be reduced hence net cooling effect is improved. But, these additions to an air cooler make the cooler an alternative to the air conditioners in high humid regions and makes the air coolers work effectively.
CONCEPT: Four Students members are developed and fabricated a “low budget air conditioning system” for the intention of poor and middle class families can feel the experience of original AC Comfort in summer season with Rs.3000/- budget. In this system students are applied refrigeration and air conditioning principles for effective air cooling.
| Name | Roll No. |
|---|---|
| J.Bhargav | 16C45A0370 |
| G.Rajinikanth | 16C45A0387 |
| A.Pavan Kumar | 15C41A0374 |
| M.Mounikanjali | 16C45A0324 |
| M.Shivaprasad | 15C41A0384 |
ABSTRACT: India is a largest populated country, which contains 65% population depending on agriculture. Generally Indian farmer use to traditional way that is spray carry on backpack and weeding is done by bulls. Which become times consuming and costly this both problems over come by using multi nozzle pesticides sprayer machine. For better yield of crop multi nozzle spraying and simultaneous weeding is must this papers attends to design such a flexible sprayer. In This project, the suggest a model of manually operated multi nozzle spryer according to crop which will gives optimum results in less time. Pushing mechanism required less effort and three wheel mechanisms gives proper balancing of machine.
CONCEPT: Five Student members are done their own design and fabrication of Manually Operated Multi Nozzle Pesticide Sprayer Pump with Rs.5000/- budget. With help of this equipment we can spray the pesticide liquids on 2 rows crops and 4 rows crops at time in the filed by simply moving the equipment.
| Name | Roll No. |
|---|---|
| R.Suman | 15C41A0340 |
| P.Sai Krishna | 15C41A0346 |
| D.Mahender | 15C41A0326 |
| V.Shiva Kumar | 15C41A0359 |
| K.Deekshith | 15C41A0365 |
ABSTRACT: Now-a-days safety is become important aspects of automobile industries. And automation is the key which keep the safety at our fingers. In other words, an unskilled or less exampled can handle the automobile vehicle with greater with safety. Various accidents happen with the automobile vehicles which cause serious injury, and inefficient braking is most probable reason. It is incontestable, statistically proved fact, that year on year incidents involving a reversing vehicle account for between 20-30% of all reported work related serious injuries or fatalities. While parking or taking reverse turn, driver unable to see what is behind the vehicle and obviously up to what distance, eventually vehicle strike with the obstacle behind. Presently, cars have the alarm system where when the car gets too close to an object an alarm is triggered which warns the driver about an object close by. But this feature has produced lot of problems and is prone to human error. We have enhanced the facility by using the same system but we have altered it so that the car brakes automatically when an obstacle is close by. This project introduces a control systems based on electronically controlled automotive braking system is called “Intelligent Reverse Braking System”. A Sensor Operated Pneumatic Brake consists of IR transmitter and Receiver circuit, Control Unit, Pneumatic breaking system. The IR sensor is used to detect the obstacle. There is any obstacle in the path, the IR sensor senses the obstacle and giving the control signal to the breaking system. The pneumatic breaking system is used to brake the system. So basically here the car brakes on its own by determining the distance from the object.
CONCEPT: Student Members are done their own design and fabrication of prototype setup for “Intelligence Braking System”. By using this setup in automobile applications we can avoid the accidents and damages of the vehicles. This setup can sense obstacles coming towards the vehicle and applies the brakes automatically during running condition and reverse parking of the vehicle.
| Name | Roll No. |
|---|---|
| M.Sai Teja | 16C45A0308 |
| K.Sai Varun | 16C45A0306 |
| K.Kartheek | 16C45A0301 |
| M.Arun | 15C41A0337 |
| M. Raj Kumar | 16C45A0303 |
Abstract: Go-kart is a simple four-wheeled, small engine, single sealed racing car it is a Go-kart, by definition, no differential. They are usually raced on scaled down tracks, but are sometimes driven as entertainment or as a hobby by non-professionals. Karting is commonly perceived as the stepping shone to the higher and more expensive ranks of motor sports. Kart racing is generally accepted as the most economic form of motor sport available. As a free-time activity, it can be performed by almost anybody and permitting licensed racing for anyone from the age of 8 onwards. Kart racing is usually used as a low-cost and relatively safe way to introduce drivers to motor racing. Many people associate it with young drivers, but adults are also very active in karting. Karting is considered as the first step in any serious racer’s career. It can prepare the driver for highs-speed wheel-to-wheel racing by helping develop guide reflexes, precision car control and decision-making skills. In addition, it brings an awareness of the various parameters that can be altered to try to improve the competitiveness of the kart that also exist in other forms of motor racing.
Concept: 16 student members are done their own design and fabrication of “Racing car ( Go Kart)” with 1.5 lakhs and participated in “Jappiaar Racing carting Competitions 2019” at Chennai during 7th to 9th March 2019 held on Jappiaar Engineering college and bagged 2nd Prize in “ Endurance test” with Rs.7000/- Cash prize and “Best Budget Vehicle Award”.
| Name | Roll No. |
|---|---|
| B.Rupesh | 15C41A0361 |
| Md.Hasmathulla | 15C41A0305 |
| K.Prudviraj | 15C41A0321 |
| D.Deepak | 15C41A0363 |
| D.Prashanth | 15C41A0351 |
| J.Srikanth | 15C41A0344 |
| K.Akhil | 15C41A0330 |
| D.Rajendar | 15C41A0345 |
| Khaja fazaluddin | 15C41A0357 |
| S.Shiva Reddy | 15C41A0312 |
| Md.Tajuddin | 15C41A0355 |
| K.Murahari | 15C41A0315 |
| K.Venkatesh | 15C41A0308 |
| G.Suresh | 15C41A0354 |
| K.Veman | 15C41A0348 |
JUSTIFICATION:In this project we have done design and fabrication for solar and battery based energy operated car. By using this car we can reduce environment pollution and sound pollution. Its mileage is 50 paisa for km means 10 times lesser than conventional petrol operated cars. In this project we reduced car weight 3times lesser than other cars. Total 90% of car material used is Aluminum 6061 material. In this work first we have done the chassis design and modeling by using CATIA V5 Modeling software and also done the structural static and model analysis for validating design for the given boundary conditions. Applied load on design are 500 kg. In this analysis we got the stress and displacement with in the design limit. In next stage we have done the fabrication based on the design. In fabrication TIG welding is used to join the Al components. The materials used for chassis are 30m.m diameter and 3mm wall thickness pipes. For other structure 25m.m diameter and 2mm wall thickness pipes. Driving motor are 250w, 48V, 20A current input. Batteries are 4 Numbers 12V output for each battery. Chain driven mechanism are used for moving car. Rack and pinion steering mechanism is used for driving.
Abstract: Presently, small land holding farmers use work bulls mostly for land preparation. Their use can be increased and made more economical by using them for other farm operations such as ploughing, harrowing, fertilizer application, sowing and weeding. Improved hand tools will also facilitate farm work. Oxen can be used to pull a cart throughout the year which keeps them in training. Ploughs, ridgers, seeders and weeders are all seasonal implements. Generally cultivation of any crop involves various steps like seed selection, field preparation, fertilizing, sowing, irrigation, germination, thinning and filling, weed removal, vegetative stage, flowering stage, pesticide spraying, fruit or pod formation stage, harvesting and threshing. Farmer has to use various agricultural equipments and labours for caring out those steps, our purpose is to combine all the individual tools to provide farmers with multipurpose equipment which implements all the scientific farming techniques and specifications and suitable for all type of seed to seed cultivation with as minimum cost as possible. This project work is focused on the design and fabrication of multipurpose equipment which is used for ploughing, seeding sawing, and cutting process.
Concept: Five Student members are done their own design and fabrication of “Solar Multiporpuse Agricultur Equipment” for Agriculture utilities with Rs.20,000/- budget. With help of this Equipment we can cut the gross, and we can do ploughing, seeding and levelling of sand operation at time during cultivation by using unconventional energy source as a solar energy.
| Name | Roll No. |
|---|---|
| A.Kiran | 16C45A0305 |
| E.Nagaraju | 15C41A0302 |
| P.Avinash | 16C45A0306 |
| V.Sai Ram | 16C45A0312 |
| A.Nagender | 16C45A0310 |
First time in India – Engineering students entering the industry will be equipped with practical knowledge and design experience. Prepares the students to be effective professional engineers.
Tractor Design Competition tasks the students to think, analyze, design, develop, build, test and present a tractor in series of event.
Unique Engineering Design Competition for Students with a realistic 360-degree workplace experience.
Students gain practical technical experience in the areas
Students develop skills in
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