Present Address / Contact Details /
E-Wing flat no.201
New Noorjahan
pipe road
kurla (w) / Mobile: / 7208302106
Land Line No. / 8765404901
E-Mail: /
Career Objective: / To work in a organization
To work in a challenging and competitive environment so as to get an opportunity to learn new skills for personal growth and contribute to the organizational objectives.
Educational Qualifications: (Stream:-)
Exam / Year / College & Board / Main Subjects / Marks% / Remarks
B.Tech / 2015 / A.I.E.T, Lucknow / Mechanical / 70 / I division
Intermediate / 2011 / Abdul Usman inter college
Raypur paliya,Mau / English, Physics, Chemistry, Maths / 78 / I division
High school / 2008 / Adarsh inter college Bardiha,Azamgarh / English, Hindi, Maths, Physics, Chemistry, Biology, Geography, History / 56 / II division
Training:
Organization / Training Topic/Assignment / Duration / Remarks
Locomotive workshop charbagh,Lucknow / Rocker arms / 4 weeks / Good
Professional Skills:
Computer Proficiency: MS Office,Auto Cad
Projects:
Drastic wind turbine (Final year project)
Additional Information / Achievements:
Seminar attend by enterpreunership development officers
Participant of ROBOTRYST 2014
Zonal round winner (3rd position) of ROBOTRYST 2014
Coordinator Zonal Centre ROBOTRYST 2014
Personal Details / Permanent Address / Contact Details
Father's Name: / Zulkarnain / Vill-sone buzurg, Post-nainijor, Dist–azamgarh (U.P)
Pin-276122
D.O.B: / 21-12-1992
Language Proficiency: / English,Hindi,Urdu / Passport no:- L5864579
Marital Status: / Single
------Signature
Summer Training Details
TITLE WITH DISCRIPTION: ROCKERS ARM
COMPANY NAME: RAILWAYS LOCOMOTIVE CHARBAGH
TECHNIQUES & TECHNOLOGY LEARENED :
As a rocker arm is acted on by a camshaft lobe, it pushes open either an intake or exhaust valve [1][2]. This allows fuel and air to be drawn into the combustion chamber during the intake stroke or exhaust gases to be expelled during the exhaust stroke. Rocker arms were first invented in the 19th century and have changed little in function since then. Improvements have been made, however, in both efficiencies of operation and construction materials [1] [3] [4].
HISTORY
Jonathan "Rundle" Bacon created Rocker arms in the 19th century, rocker arms have been made with and without "rundle" roller tips that depress upon the valve, as well as many lightweight and high strength alloys and bearing configurations for the fulcrum, striving to increase the RPM limits higher and higher for high performance applications, eventually lending the benefits of these race bred technologies to more high-end production vehicles. Even the design aspects of the rocker arm's geometry has been studied and changed to maximize the cam information exchange to the valve which the rocker arm imposes, as set forth by the Miller US Patent, #4,365,785, issued to James Miller on December 28, 1982, often referred to as the MID-LIFT Patent. Previously, the specific pivot points with rocker arm design was based on older and less efficient theories of over-arching motion which increased wear on valve tips, valve guides and other valve train components, besides diluting the effective cam lobe information as it was transferred through the rocker arm's motion to the valve. Jim Miller's MID-LIFT Patent set a new standard of rocker arm geometrical precision which defined and duplicated each engine's specific push-rod to valve attack angles, then designing the rocker's pivot points so that an exact perpendicular relationship on both sides of the rocker arm was attained: with the valve and the pushrod, when the valve was at its "mid-lift" point of motion [5].
Throughout.
DURATION OF TRAINING: One Months
PROJECT:FINAL YEAR
PROJECT NAME:- DRASTIC WIND TURBINE
TECHNIQUES & TECHNOLOGY LEARENED:-
The aim of this paper is to give an overview of the history of wind power, an update on modern utilization of wind power, and an overview of the key literature in the area. During the recent years the history of wind power has been the object for many studies, and it is not the aim of this paper to add anything new to this history. In the literature several words are used, such as windmill and wind turbines. The word windmill indicates that wind power primarily has been used for grinding grain. The word mill is derived from the Latin word for a machine used for grinding grain: Molina. Though most European languages do have a separate word for such a machine, kværn in Danish, one also find derivations of Molina in many European languages today - French: Moulin, German: mühle, Danish: mølle, English: mill, etc. This word is used for both a grinding machine and for machines driven by wind or water used for other purposes normally referred to as windmills and watermills.
In modern time the term wind turbine is generally used in English. Turbine is derived from the Latin word for spinning top and whirlwind: turbo. In professional engineering literature one also use the abbreviation WECS - Wind Energy Conversion Systems. To co-ordinate the many terms derived from ancient Teutonic and Latin and modern technical terms used in wind power engineering a standard set of terms is recommended (Elliot, 1987).
Wind powered generation is the fastest growing energy source in the United States due to a combination of economic incentives, public preference for renewable energy as expressed in government policies, competitive costs, and the need to address global warming. The economic consequences of the relative variability and lower predictability of wind generation are not easily captured in standard economic analyses performed by utility planners. This book provides utility analysts and regulators a guide to analyzing the value of wind generation in the context of modern power systems. Guiding the reader through the steps to understanding and valuing wind generation on modern power systems, this book approaches the issue from the various, current perspectives in the US. These include utilities that are still primarily vertically integrated power providers and systems dominated by independent system operators (ISOs). Outlined here are the basic procedures in a wind valuation study, described with enough detail so that analysts spanning a range of resources and sophistication can reasonably undertake a competent study. Descriptions of studies performed by other utilities are also provided, explaining their specific approaches to the fundamentals. Finally, it includes a short section on power systems that utilize relatively large fractions of wind, and how operating procedures and valuing techniques may need alteration to accommodate them.