A PROJECT PLAN ON EFFICYCLE SUBMITTED TO AMITY UNIVERSITY (U.P) In partial fulfilment of the requirements for the award of the degree of Bachelor of Technology In Mechanical and automation engineering Name of Discipline by Jaivardhan Singh-A2305411137 Arpit Sachdeva -A230541114084 Vaibhav Sharma –A2305411146 Siddhant Dhawan-A2305410 Under guidance of Mr. SUMIT SHARMA Department Of MAE AMITY SCHOOL OF ENGINEERING AND TECHNOLOGY NOIDA (U.P) NOVEMBER 2014 DECLARATION We Jaivardhan Singh, Vaibhav Sharma, Arpit Sachdeva, Siddhant Dhawan student(s) of B.Tech(7MAE3,7MAE2) hereby declare that the project titled “EFFICYCLE” which is submitted by us to Department of MAE (Amity School of Engineering and Technology), Amity University Uttar Pradesh, Noida, in partial fulfillment of requirement for the award of the degree of Bachelor of Technology in MAE, has not been previously formed the basis for the award of any degree, diploma or other similar title or recognition. NOIDA DATE: Name and Signature of Students Jaivardhan Singh Arpit Sachdeva Vaibhav Sharma Siddhant Dhawan
The main tasks for an auto mechanic for light vehicles is to search, find and repair faults on the vehicle's mechanical, electrical and electronic systems. This work is performed on both older and newer vehicles.
The three laws, Law I: A robot may not injure a human being or, through inaction, allow a human being to come to harm. Law II: A robot must obey orders given by human beings except where such orders would conflict with the First Law. Law III: A robot must protect its own existence as long as such protection does not conflict with the First or Second Laws. This is the very essence of I, Robot (2004) by Alex Proyas a world created to co-exist with robots. Man-made robots which signifies the result of a creative and innovative fast paced world full of greed and consumption. What appears as utopia is really a dystopia and not unlike the world we live in today. Just because something is attractive doesn’t mean that there isn’t something unattractive
My project is a machine that dispenses a letter card to everyone. The machine will follow a certain color and dispense a letter card if someone presses on the button. Me and my partner use a color sensor to make the robot follow a certain line and used a touch sensor to dispense the card. We chose to do this as our final project because it is a machine that can share joy with people, if a person starts their day in a pessimistic way and they get a card that says something hopeful from the machine, the person might be more optimistic after reading the card.
Mechanical Engineering is a field that requires constant updating. With the advent of new technology, growing fields, and an unpredictable global market, it takes a lot of divisive planning in order to "engineer" a career path for myself that is suitable for any number of growing fields. I plan on acquiring my master's degree in mechanical engineering next semester, so a career plan is what I need. Choosing the right career takes a lot of careful timing, and it takes a lot of careful and precise plans in order to create a suitable job prospect. I think that a career in computer manufacturing and hardware is probably the best choice for me. Since computer hardware is constantly evolving, it's something that you can count on to stay busy.
Since the first robot was constructed, programming and technology has been enhanced, and more and more robots are used around the world for hazardous jobs too tough or dangerous for a human to achieve. Now more and more engineers are building robots to do certain tasks. The task was to make the robot do a service for a group of people or animals. The task chosen for the robot was to program it to feed dogs and cats at the VBSPCA. The robot can assist the dogs and cats at the VBSPCA well because it is providing a service, improving life quality, and helping in economic and social ways.
The need for cheap and efficient means of travel coupled with the development of motor vehicles has seen a rapid growth in the automotive industry. The automotive industry encompasses all the companies and activities involved in the manufacture of motor vehicles, including most components, such as engines and bodies (Encyclopædia Britannica, 2014). Even though much of the manufacturing nowadays is done by robots, computers and machines, the strongest and most luxurious vehicles are still considered to be the ones that have had the most human involvement and effort applied on them. This makes simple tools such as the cordless hand drill necessitous in the entire process because of their wide range of uses and applications which will be further discussed in this report. Hand drills today, are used in almost every industry that involves assembling individual components to make a complete structure however, this report will focus on the design of a cordless hand drill specifically for the automotive industry.
Currently, most of the world’s energy is derived from fossil fuels (World Energy Resources 2013 Survey). Fossil fuels are a limited resource and might not be able to meet the future energy requirements of the world for too long (Shafiee and Topal 2009). Apart from being non-renewable, these are also significant contributors of greenhouse gases to the environment leading to air, water and land pollution (Marland and Rotty 1984). Due to the nature of these resources there is an urgent need to conserve these resources. It is also important to explore alternative energy sources for the future.To this end, multiple solutions have been proposed. One of the most
Scientist and researchers are finding new ways to help the world become more efficient, while saving the eco system and preserving the earth. The use of energy is an essential part of our day to day lives from heating, petroleum and electricity. In the same token we depend on energy to get through the day, the use of energy has increased along with the growing population and produced harmful effects. Finding new ways to preserve this treasure has been a topic of concern and finding new ways to make energy.
When it comes to auto maintenance, your tyres are one of, if not the most, vital components of your vehicle. You might be thinking, “Harjeev, everyone knows this already”, and you’re not wrong. Yet, despite this being largely common knowledge amongst drivers, a majority of auto owners across the world tend to delay or neglect their maintenance altogether. According to TyreSafe 's 2015 Tyre Safety Month study 65% of UK drivers (out of 102,000 tyres they surveyed) needed to check their treads more often.
We, Manish Sharma, Anmol Verma, Manthan Kumar And Utkarsh Srivastava, students of B.Tech (2011-15) hereby declare that the project titled “Turbulence modeling of vehicle’s exhaust system to reduce the exhaust emissions” which is submitted by us to Department of MECHANICAL AND AUTOMATION, Amity School of Engineering and Technology, Amity University Uttar Pradesh, Noida, in partial fulfillment of requirement for the award of the degree of Bachelor of Technology in Mechanical And Automation , has not been previously formed the basis for the award of any degree, diploma or other similar title or recognition.
SUBJECTS Engineering Team Project (ETP) DESCRIPTION This project entitled Intergrated Energy Saving System and consist of six member per team from different engineering discipline. This project successfully visualize the concept of environmentally office that use low consumption of electricity. This project has won silver medal at Engineering Design Exhibition (EDX). SOFTWARE USED Autodesk AutoCAD 2004 Microsoft Office (Word, Excel, Publisher & Powerpoint)
Manufacturing process is a process of making a raw material to be finished good or semi-finished good so that the materials will have added value. The product could be made by various ways, such as:
With nowadays increasing in energy require globally, especially for transportation industry, people are highly demanded for more sustainable energy resources. Traditionally, the energy resource for transportation has been petroleum based for over more than hundred years ago; however, it is not renewable and at certain times in the future, it is may be not accessible in abundant quantities or even totally disappeared on the Earth to support industries,
Surface roughness has become the most significant functional requirement and it is an index of the product quality. In order to increase the efficiency of hard to machine alloys like titanium and nickel alloys, an Electro Chemical Honing (ECH) process has been employed to achieve highest material removal rate with the best surface qualities. This extended abstract describes the design and fabrication of an indigenously developed tooling setup for ECH of external cylindrical surfaces of Titanium alloys (TI 6AL 4V) and also highlights the key process parameters and their affect on ECH process. The influence of the machining parameters on the surface finish has been investigated and optimized the process parameters for improving the surface roughness is also evaluated. Percentage improvements in surface roughness values Ra and other parameters like electrolyte temperature, composition and concentration were studied while changing the processing time (PT). And also the study of surface characteristics of micro and macro level and micro hardness too examined.
At the site and from the photographs I assessed the cracks. The cracks originated from the base till halfway to the height of the wall and were in vertical direction. The cracks were wider near the base and narrowed as it went upwards. Most of the cracks were through formwork tie holes. The construction schedule and daily progress reports revealed the following data: