Browsing by Author "Khatik, Tanveer Husain"
Now showing 1 - 4 of 4
Results Per Page
Sort Options
Item Arduino based three phase automatic fault detection alaysis(AIKTC, 2021-05) Khatik, Tanveer Husain; Khan, Mohammed Saif (18DEE13); Shaikh, Danish (18DEE27); Ansari, Shamoil (18DEE03); Mulla, Musab (18DEE18)Till last decades, a million miles of cables are threaded in the air across the country. But currently it is laid in the underground, which is larger to an earlier method. Because, underground cables are not affected by any adverse weather condition like pollution, heavy rainfall, snow and storm, etc. But, when any problem occurs in cable. it is very difficult to find the exact locati()n of the fault due to not knowing the exact location of the cable. Day by day, the world is becoming digitized so the project is proposed to find the location of fault in digital way. When the fault occurs, the process of repairing related to that pa1ticular cable is very difficult. The fault of the cable mainly occurs due to many reasons. They are inconsistent, any defect, weakness of the cable, insulation failure and breaking of the conductor. To overcome this problem, here is a project namely underground cable fault distance locator, used to find the location of the fault for underground cable. Before attempting to find undergrouDd cable faults on direct bidden cable, it is essential to know where the cable is situated and what direction it takes. Since it is extremely difficult to find a cable fault without knowing where the cable is. it makes sense to master cable locating and tracking before start the fault locating process .The success of fault tracking and locating of an underground cable is mainly depends on the skill, knowledge and experience of that person. Although tracing of the cable can be an intricate job, it will very likely become even more complex as more underground plant is installed. It is just as important to understand how the equipment works.Item Auto intensity control of street light using arduino(AIKTC, 2020-05) Khatik, Tanveer Husain; Ansari, Mohammed Adil (16EE09); Fitwala, Asad Ahmed (16EE13); Khan, Aquib Irshad (16EE17); Khan, Usaid Minsar (16EE20)Our aim is to develop a system which will lead to least energy consumption, the proposed work will be accomplished by using Arduino microcontroller and sensors that will control the electricity based on night and objection’s detection. We will use RTC (Real Time Clock) for perfect time operation of light. The beauty of this project is that the wastage of unused energy can be reduced, lifetime of the streetlights gets enhance because the lights do not stay ON during the whole night, and also helps to improve energy efficiency of the system, and will increase the product life.Item Dual axis solar tracker(AIKTC, 2021-05) Khatik, Tanveer Husain; Meer Sharique, Zakir Sultan (17EE16); Mohd. Shafique, (17EE24); Khan, Mohd. Faizan (17EE25); Pawaskar, Abdulmateen (17EE30)The goal of this thesis was to develop a laboratory prototype of a solar tracking system, which is able to enhance the performance of the photovoltaic modules in a solar energy system. The operating principle of the device is to keep the photovoltaic modules constantly aligned with the sunbeams, which maximizes the exposure of solar panel to the Sun’s radiation. As a result, more output power can be produced by the solar panel. The work of the project included hardware design and implementation, together with software programming for the microcontroller unit of the solar tracker. The system utilized an ATmega328P microcontroller to control motion of two servo motors, which rotate solar panel in two axes. The amount of rotation was determined by the microcontroller, based on inputs retrieved from four photo sensors located next to solar panel. At the end of the project, a functional solar tracking system was designed and implemented. It was able to keep the solar panel aligned with the sun, or any light source repetitively. Design of the solar tracker from this project is also a reference and a starting point for the development of more advanced systems in the future.Item Electric generation by spinning exercise(AIKTC, 2020-05) Khatik, Tanveer Husain; Sayyed, Farzeen (16EE03); Ansari, Anis (16EE07); Bargir, Tufail (16EE10); Shaikh, Altamash (16EE28)Pedal powered generator is a device that uses human energy to produce electricity for charging a battery. Here an alternator is used as the electricity generator. The alternator is coupled to a pulley which is rotated by a belt and chain- sprocket system of a bicycle structure. The power is given to the paddle and final rotational speed is achieved in the alternator rotor. Most components of the portable pedal power generator are based upon existing inventions, both recent and historic. The real innovation behind this power generator is portability. University groups often organize events around and off campus. Therefore, mobility of equipment is of great importance. This innovation brings together the resourcefulness of pedal power generation with the transportation feasibility of a bicycle frame. The integrated unit will generate needed electricity on-site, and transport it to the site with pedal power. During transportation, the unit can also capture energy used in braking and coasting. A photovoltaic panel could further the energy production while demonstrating the potable potential. We think our pedal powered device will inspire students and the public to think about the realities of energy production, which may spark new energy solution. In our country it can be used in the villages as useful electricity source for a small family where the family themselves charge the battery by paddling for a short period of time each. This will not only provide electricity when needed but also provide a useful way of physical exercise for them. And due to the low due to initial cost and very low maintenance cost, wide scale application of ‘Pedal Power Generator’ can be suitable source of renewable energy