WEEK 14: MY FINAL DRAWING PROJECT.

Objective:

      1)      To draw a final project

      2)   To ask my final design project to my supervisor Sir Ahmad Zaki Bin ABD. Karim.

Result:

1)My project design

2) My supervisor agreed with my final design for my Project

Conclusion:

After design my final project. my Supervisor agreed with this drawing project. this project will be build in next semester in FYP 2.

WEEK 13: FYP 1 PRESENTATION DAY.

Objective:

      1)      To present my project idea to assessor

      2)      To explain how my project work to assessor.

Result:

1) The present is going well

2) explain well about my project to my assessor

3) assessor give some advise about my project.

Conclusion:

the presentation was going well as the assessor give a green light to proceed my project to FYP2. some advise had been take from assessor about my project to improve it. The prentent going well until the end of the presentation.

WEEK 12: PREAPARE FOR THE FYP PRESENTATION.

Objective:

      1)     To prepare the slide for presentation.

      2)      To build a suitable block diagram introduction, methodology, Gantt chart, conclusion, abstract.

Result:

Conclusion:

The preparation of FYP 1 presentation was prepared well. All the requirement was well prepared in the slide. after that, same mistake had been clear by my supervisor.

WEEK 11: TAKE SOME ADVICE FROM MY SUPERVISOR ABOUT MY PROJECT DESIGN.

Objective:

      1)      To meet my supervisor Sir Ahmad Zaki to take same suggestion about my project design.

      2)      To ask some quition and problem about my project design.

Result:

        1)      An advise from my Supervisor about my project design that should make some changing that             was from the coolant to use a small motor just enough for the water to flow.

        2)      Some problem  had been solve and answered from my supervisor.

Conclusion:

Sometime the project had a problem that cant be solve. Thus, it time to meet supervisor to ask a problem regarding project. All problem and question all been solve 

WEEK 10: TO SEARCH ABOUT THE FRESNEL LENS

Objective:

      1)      To research how the frensel lens work. 

      2)      To make it suitable to install to my project.

Result:

      1)      To install this frensel lens into my project. Its need a very fix distance so that its can focus the sun light to the fiber optic.

      2)      The light from the fiber optic should have to DIVERGE so that the light will touch all the solar panel surface.

Conclusion:

     This frensel light is to diverve and concurve the light so that it can give the coefficient light to the fiber optic and into PV solar panel so that the solar panel can give a consistence output.

WEEK 9: TO SEARCH THE SUILTABLE TYPE OF FIBER OPTIC.

Objective:

    1)   To search the type of Fiber Optic that suitable for this Project

    2)   To know how much the fiber optic can transfer light.

Result:

    1)  There are many type of fiber optic such single core, multiple core and etc.

    2)  The more core the fiber optic inside the cable, the more it will transfer the light.

Conclusion

The choose the better fiber optic. It must have a good reflection of light. Thus, the ggod fiber optic is multimode fiber optic.

WEEK 8: TO DESIGN THE SUITABLE COOLENT FOR FIBER OPTIC

Objective:

     1)      To design the suitable coolant for fiber optic Photovoltaic

     2)      To choose material in built coolant.

Result:

     1)      The coolant system has motor to make the water flow.

     2)      The water will going through the water for filtering process.

Conclusion:

This coolant is for filtering process of fiber optic. Water will keep flow by using water pump. Then, the water will flow through the fiber optic for the filtering process. The filtering process is to expected to trap the IR ray from the sun.

WEEK 7: TO STUDY THE EFFICIENCY OF PV PANEL

Objective:

1) To study the efficiency of the PV solar panel.


Result:
1)Solar cell efficiency may be broken down into reflectance efficiency, thermodynamic efficiency, charge carrier separation efficiency and conductive efficiency. The overall efficiency is the product of these individual metrics.

2) the solar PV panel also will be effect by increase of the temperature at solar panel. this can be show at the Schematic data sheet of PV soar panel.

3) the graph below show the effect of the temperature to the output of solar panel.


Conclusion:
PV solar panel change the light into electricity. But there had a problem when the temperature is increasing, its will effect the output of this solar panel. Thus, this problem had to overcome to provide the efficiency of PV panel.

WEEK 6: To Study How Photovoltaic process.

Objective:

 1) To know how the system of photovoltaic.

2) To study how the photovoltaic can convert the Sun light into electricity.

Method:

1) Searching the info in the internet about the photovoltaic process.

2) Ask my supervisor about the photovoltaic.

3) Watch in youtube how the system of photovoltaic flow.

Result:

1)A photovoltaic system converts the sun's radiation into usable electricity. It comprises the solar array and the balance of system components. PV systems can be categorized by various aspects, such as, grid-connected vs. stand alone systems, building-integrated vs. rack-mounted systems, residential vs. utility systems, distributed vs. centralized systems, rooftop vs. ground-mounted systems, tracking vs. fixed-tilt systems, and new constructed vs. retrofitted systems. Other distinctions may include, systems with microinverters vs. central inverter, systems using crystalline silicon vs. thin-film technology.

2)Grid connected system is connected to a larger independent grid (typically the public electricity grid) and feeds energy directly into the grid. This energy may be shared by a residential or commercial building before or after the revenue measurement point. The difference being whether the credited energy production is calculated independently of the customer's energy consumption (feed-in tariff) or only on the difference of energy (net metering). Grid connected systems vary in size from residential (2–10 kW_p) to solar power stations (up to 10s of MW_p). This is a form of decentralized electricity generation. The feeding of electricity into the grid requires the transformation of DC into AC by a special, synchronising grid-tie inverter.

Conclusion:

1)The photovoltaic had many system such as Grid connection system, stand alone system and etc. there have their own specialities. Others system will be updated in next week.