24-09-2016, 02:52 PM
1456106119-36I20IJAET0520963v7iss2589595.pdf (Size: 637.4 KB / Downloads: 20)
ABSTRACT
In this paper we are trying to utilize one such source. Electricity is generated by replacing the traditional speed
breakers with some simple mechanism. As vehicles pass over the speed breakers, they spin the rollers which are
connected to a generator which in turn generate electricity. This method is an effective way to produce
electricity as the numbers of vehicles on the road are ever increasing. Also the cost of fabrication of the model is
low. It can be effectively placed near traffic lights, at the entrance of parking lots and any other place where the
traffic density is high. Rollers are fixed on a wooden ramp on which vehicle passes. As vehicle passes over it, it
starts moving. A chain drive mechanism is provided which transfer the motion to a DC motor/generator for
electricity generation. This method provides an efficient way to generate electricity from the kinetic energy of
moving vehicles in roads, highways, parking lots etc.
INTRODUCTION
This paper attempts to show how energy can be tapped and used at a commonly used system, the road
speed breakers. The number of vehicles passing over the speed breaker in roads is increasing day by
day. A large amount of energy is wasted at the speed breakers through the dissipation of heat and also
through friction, every time a vehicle passes over it. There is great possibility of tapping this energy
and generating power by making the speed-breaker as a power generation unit. The generated power
can be used for the lamps, near the speed breakers.
The present work an attempt has been made to fabricate a ramp, which can utilize the kinetic energy
of vehicles in power generation. This type of ramp is best suited for the places where the speed
breaker is a necessity. The places like Toll bridges or on vehicle parking stands are best for its
utilization. The work also discusses the shortcomings of existing methods and the ways it is countered
by this method.
The paper is organized as following. Section II describes the scope of the project. Section III
discusses the recent works in the same field. Section IV gives an in-depth explanation of each part and
then the assembly as a whole with theoretical analysis using ANSYS. Section V explains the working
principle of power generation in this setup. Section VI includes the data collected during the
experiment. Section VII describes the conclusion of our approach. Section VIII contains information
to improve the method and discusses future work.
II. SCOPE OF THE PAPER
The utilization of energy is an indication of the growth of a nation. For example, the per capita energy
consumption in USA is 9000 KWh (Kilo Watt hour) per year, whereas the consumption in India is
1200 KWh (Kilo Watt hour). One might conclude that to be materially rich and prosperous, a human
being needs to consume more and more energy. A recent survey on the energy consumption in India
had published a pathetic report that 85,000 villages in India do not still have electricity. Supply of power in most part of the country is poor according to the study by Priyadharshini.M in “Every Speed
Breaker Is Now A Source of Power” [2]. Hence more research and development and
commercialization of technologies are needed in this field. India, unlike the top developed countries
has very poor roads. Talking about a particular road itself includes a number of speed breakers. By
just placing a unit like the “Power Generation Unit from Speed Breakers”, so much of energy can be
tapped. This energy can be used for the lights on the either sides of the roads and thus much power
that is consumed by these lights can be utilized to send power to these villages.
III. RELATED WORK
Recently several attempts and models have been suggested and tested for harnessing kinetic energy of
vehicles via a speed bump. Mechanisms which include springs by A.K. Singh, Deepak S.,
Madhawendra K. and V. Pandit [1], Rack and Pinion by Aswathaman. V and Priyadharshini.M in
“Every Speed Breaker Is Now A Source of Power” [2]; by Shakun Srivastava , Ankit Asthana in
“Produce electricity by the use of speed Breakers”[3] and by Ankit Gupta, Kuldeep Chaudhary & B.N
Agrawal in “An Experimental study of Generation of Electricity using Speed Breaker”[4] and slider
crank by Noor Fatima and Jiyaul Mustafa in “Production of electricity by the method of road power
generation” [5] have been suggested for producing electricity. Electrodynamics based models by
Ankita and Meenu Bala in ”Power generation from speed breaker” [6] have also been suggested, but
are not only expensive to fabricate but involve complicated calculations and can’t be used a large
scale very easily. Totaram [7] uses a platform plate which is kept inclined on a raised base level to
allow vehicles to pass over the raised surface. This system will not work till a vehicle passes on road
way.
IV. EXPERIMENTAL MODELING
The proposed model has been modelled using Solidworks software and analysed using ANSYS. The
system comprises of a base and two ramps (1and 14 in figure 1), made of plywood to make the model
portable. Two pieces of plywood (20 and 21 in figure 2) with dimensions 82x875 mm were cut which
support the ramps. Two more side supports of dimensions 446x157 mm were cut which acts as
bearing supports (22 in figure 2). Figure 1 shows the complete ramp and base assembly. Three MS
shafts (2,3 and 4 in figure 1) 1m in length, 28.5mm OD and 3mm thickness are fitted between the two
side supports with the help of six journal bearings. On each shaft one MS Roller (11, 12 and 13 in
figure 1) of 78mm OD and 2mm thickness was welded using MS plates of 2mm thickness. On each
sides of shaft, 15 cm CI sprockets of 24 teeth. Also two SS bearings were attached 7cm from each
end. Fig shows the final assembly of the invention. The three MS rollers are connected to each other
via chains inside the ramps. The outer parts of the end rollers have CI sprockets (5, 6, 7, 8 and 9 in
figure 1) with 40 teeth. This is turn is connected to a smaller sprocket (15 in figure 2) with 18 teeth.
That in turn is connected to the shaft of the generator. The rollers are joined by chains so as to provide
a uniform movement in all the rollers. The distances between the rollers were calculated on the basis
of standard chains available in the market. The rollers are connected via chains so as to give them
uniform rotation at all times. The end roller is connected via a chain to a smaller sprocket which is
joined to the shaft of the generator. The system completely eliminates the use of springs which get
worn down due to rapid expansion and compression.
WORKING PRINCIPLE
This project explains the mechanism of electricity generation from speed breakers. The friction force
due to vehicle movement acted upon the speed breaker system is transmitted to chain sprocket
arrangements. The sprocket arrangement is made of two sprockets. One of the sprocket is larger in
dimension than the other sprocket. Both the sprockets are connected with chain which transmits the
power from the larger sprocket to the smaller sprocket. As the power is transmitted from the larger
sprocket to the smaller sprocket, the speed that is available at the larger sprocket is relatively
multiplied at the rotation of the smaller sprocket. The axis of the smaller sprocket is coupled to a gear
arrangement. Here we have two gears with different dimensions. The gear wheel with the larger
diameter is coupled to the axis of the smaller sprocket. Hence, the speed that has been increased at the
smaller sprocket wheel is passed on to this gear wheel of larger diameter. The smaller gear is coupled to the larger gear. Therefore, as the larger gear rotates it increases the speed of the smaller gear which
is following the larger gear and multiplies the speed to more intensity. Though the speed due to the
rotary motion achieved at the larger sprocket wheel is less, as the power is transmitted to gears, the
final speed achieved is high. This speed is sufficient to rotate the rotor of a generator and is fed into
the rotor of a generator. The rotor which rotates within a static magnetic stator cuts the magnetic flux
surrounding it, thus producing the electric motive force (emf). This generated emf is then sent to an
inverter, where the generated emf is regulated. This regulated emf is now sent to the storage battery
where it is stored during the day time and can be used in night time for providing power to street
lights.
VI. RESULT AND DISCUSSION
For testing the above setup, a two-wheeler was run over the model at different speeds to get the
reading of current and voltage generated under different conditions. Table 1 shows the results of the
experiments conducted on the prototype invention. It is observed that on moving a small vehicle over
the roller, the speed varies from 10-15 km/hour, the voltage produced is in the range of 3-4 volts.
CONCLUSION
For a vehicular flow of 40400 per day, which includes 2/3/4/6/8 wheelers, the energy produced will
be much more significant compared to the experimental results obtained, thus making it a good
energy producing setup as energy of vehicles on impact with the speed breakers is anyway lost. This
is lost to heat and sound. This energy can be tapped, stored and used as back up or for small
applications. Improvements have to be made in the setup to increase the efficiency which is discussed
in following section. In this study a new technique has been proposed to gate electricity from speed
breakers. This technique will help to conserve our natural resources.