PROJECT NAME-ANTI-THEFT BIKE SECURITY SYSTEM

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SALIENT FEATURE
 Installation is easy.
 We can leave the bike at any place without fear.
 Bike can’t be start until we will not want.
 This system cannot be broken easily by ant theft.
 The cost of the system is low. Everyone can purchase and installed in their bike.
 It can be used in any bike.
 Anti- theft security system is to provide high security to Bike from thefts.
 After installing this system in Bike other person cannot start the bike without our permission.

PROJECT NAME-FABRICATION OF CHAINLESS CYCLE

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SALIENT FEATURE

  • No harmful emission.
    Safe and easy to operate.
    Exercise is optional.
    No noise pollution because no noise while running.
    Smooth riding.
    Low maintenance
    Can be used for short traveling distance
    Can be used for morning walk
    Working with less efforts as compare to chainless cycle

PROJECT NAME- DESIGN AND FABRICATION OF COIL ENGINE


SALIENT FEATURE
Salient Features:
 Use of 4 solenoid coils to produce power cycle
 Use of fuel is eradicated
 Use of motor is eradicated
 Simple design
 Ecofriendly Engine
 Uses 1/4th power at a time
 High RPM
 Economic Cost at small scale
 Efficient at small scale
 Prototype model

PROJECT NAME- ELECTRONIC SOLAR PORTABLE BIKE

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SALIENT FEATURE
 Our idea is to make a bike which operates on battery without any manual force and can also be easily folded so that it can be easily carried wherever we want.
 We will also be providing an option to charge the batteries with solar energy with the help of solar panel.
 No harmful emission.
 Safe and easy to operate.
 Exercise is optional.
 No noise pollution because no noise while running.
 Portable electronic solar bike use rechargeable batteries and can travel up to 30 to 35 Km/h
 Travelling cost per kilometre = Rs. 0.30

PROJECT NAME-ELECTROMAGNETIC SHOCK ABSORBER

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SALIENT FEATURES

 Improved fuel economy
 Reduce of Weight
 Continuous Supply of energy
 Increased life of alternator
 Better Handling and comfort
 When we in an electric vehicle or hybrid car it increase battery life
 No heat generation due to friction
 It can harvest energy in both expansion and compression
 Possible to implement in vehicle suspension
 It can be installed in the vehicles with less modification in the conventional suspension system
 In non electric vehicles it can be used to power accessories such as air conditioning
 It is regenerative process.
 Produce electricity with the help of electromagnetic field

PROJECT NAME-FOUR WHEEL STEERING SYSTEM

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SALIENT FEATURES
 Superior cornering stability
 Improved steering response
 High speed straight line stability
 Improved rapid lane-changing makeovers
 Smaller turning radius
 Controlling
 Ultimate cornering ability
 Smallest turning circle possible.
 Better stability of the vehicle.
 The intensity of four wheel steering can be adjusted by the driver according to personal preference.
 Better handling in dry conditions
 More predictable steering in low traction conditions
 Less costly and easier maintenance
 No torque steer.
 Even weight distribution
 Steering radius
 Weight transfer during acceleration

PROJECT NAME-HYBRID ELECTRICAL VEHICLE

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SAILENT FEATURES
 Used four types of energy- Wind energy, solar energy, Sound energy, Shock energy.
 All these energies are renewable source of energy.
 Ecofriendly.
 It can work in all seasons.
 It have low maintenance cost.
 It is pollutant free.
 Easy to design.

PROJECT NAME-PARAMETRIC OPTIMIZATION OF EDM ON EN-31 BY USING TAGUCHI METHOD

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SALIENT FEATURES
 Analysis using ‘Taguchi method’ for product or process design that focuses on minimizing variation or sensitivity to noise.
 Taguchi designs provide a powerful and efficient method for designing products that operate consistently and optimally over a variety of conditions.
 The methods that we are using, utilize two-, three-, four-, five-, and mixed-level fractional factorial designs.
 It can also calculate the Analysis Of Variance or ANOVA table which helps in minimizing variance and performing experiment in a much stable manner.
 This method has a variety of tools which can be used to determine whether the predictors or factors are significant related to the response in this case MRR and TWR.
 Taguchi method of Design of Experiment in MINITAB calculates response tables and generates main effects and interaction plots for: Signal-to-noise ratios (S/N ratios) vs. the control factors and Means vs. Control Factors.
 In this Experiment, only S/N ratio vs. Control Factors is used.
 It helps in determining what different variables have a combined effect on the responses, in short it makes the comparison quite easy and efficient.
 MINITAB also offers various tools to portray all the significant mathematical data in the form of Graphs and Plots.
 In this experiment the representation of analysis is done using CONTOUR PLOTS and 3D SURFACE PLOTS.
 Gave optimal setting to the worker

PROJECT NAME-SOLAR CAR

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SALIENT FEATURES
 Unlike regular cars, solar energy powered cars are able to utilize their full power at any speed.
 Solar powered cars do not require any expense for running.
 Solar cars are quite.
 Solar cars require very low maintenance.
 Solar cars produces no harmful emissions
 Also the main advantage of our model is that we are able to modified some of compact size cars in electric cars(solar car)
 Achieve a speed of 25 km/h
 Low travelling coat approx.-0.5paisa/km.

PROJECT NAME-WIND+SOLAR ENERGY BIKE

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SALIENT FEATURES
 Wind energy
 Solar energy
 Less input and more output
 Environment Friendly
 Renewable promise and problems
 Overcoming barriers to wind and solar electricity.
 High wind and solar future
 Components of solar bike