The Strategy of Simulation of Powered LED Lamp System (Solar Cell + Diesel Engine) For Traditional Fishing Vessels in Makassar

This paper deals with explaining the importance of higher education research that is directed to the design the strategy of simulation of powered LED lamp system solar cell in future fishing vessels. The principal aim of this research is the utilization of renewable energy with the use of solar cell technology as a driver of lux system on fishing vessels. This research was a panel solar cell yields its power is 100 WP. It is applied to implement LED lamp with its power 100 WP. This wind energy is environmentally (clean energy), economically (cheapest), easy to operate and easy to maintain, also renewable energy. The method of analysis is quantitative approach using one way classification (analysis of variance or design of experiments). The finding of this research is accepted the null hypothesis or not differ significantly at 5% from each independent variable. The scenario and the parameters during the strategy simulation powered LED, solar cell as a power generated by The F-count is higher than Ftable (3635,27 > 5,77), so H0 is rejected, it means at least there is one light intensity mean value that is produced by the different sun panel significantly on the real stage of 5%. It is expected to encourage and motivate the fisherman public in developing and applying this technology, so that it can upgrade the fish production quality and increase the economic value of fishermen society.

In Indonesia, industry Energy has an important role in the attainment of social, economic, and environmental goals for sustainable development, and is a supporter of national economic activities. The usage of energy in Indonesia is increasing rapidly in line with the economic growth and resident increase; to fulfill requirement of energy that is increasing, develop various kinds of alternative energies, including renewable energy (solar cell), which until now has not been widely exploited.
Solar cell is one of the energies currently being developed today by the Government of Indonesia because as tropical state, the solar energy potency is big enough. Based on irradiation, data of the sun mustered out of 18 locations in Indonesia, solar radiation in Indonesia can be classified as follows: for occidental area and Eastern Indonesia with distribution of irradiation in KBI around 4.5 kwh/m 2 /day with monthly variation about 10%; and in KTI around 5.1 kwh/m 2 /day with a monthly variation of about 9%.
Fishery potency of deconvolution in Indonesia spreads over all part of water territories of the Indonesia Sea such as in territorial sea waters, marine waters of the archipelago and marine waters Exclusive Economic Zone (ZEE). The width of water territory of Indonesia sea is estimated 5.8 million km2 with the longest coastline in world of 81,000 km and islands bunch of 17.508, having fish potency estimated at 6.26 million tons/year which can be managed everlastingly with details of 4.4 million tons can be caught in water territory of Indonesia and 1.86 million obtainable tons from water territory ZEEI.
The problems of traditional fisherman, especially fieldsman, still use hold with ice block media as haul fish preservative media. Besides applying big cost, it also requires big storage space. While on the ship itself, it is very possible to install solar panels on the roof. So it enables scheme and making of hybrid power refrigerator. Energy yielded by solar cell hardly depends on weather and absorption time of energy which only happened in the day time. Therefore, it is necessary to conduct hybrid power research (solar cell + diesel engine) as energy for refrigerator on traditional fisherman ship (Ariawan, 2008).

LITERATURE REVIEW
The Sun Energy Electric Revival (SEER) is the revival that uses the sunshine as the electric producer source. The main tool is to catch, change and result the electric is Photovoltaic (PV) or it is generally called Module/Panel Solar Cell. By PV, sun shine is changed into the negative and positive electron flowing process in PV because of the electron difference. The result of these electron flowing is the direct current electric energy that can be used to fill the battery/accumulator according to the needed tension and ampere ( Figure 1).
The set capacity total in the sun energy conversion nowadays is less than 0,008 GW (8 MW). The national sun energy reached 4,8 kWh/m 2 /day (www.anekasurya.com). The advantage of SEER can be developed in the isolated region, especially in the unreachable region by the electric net/ state electric revival, hospitality environment, cheap operation cost and treatment.
The electric energy cost per kWh by using the earth heat energy is USD 0,08 (Rp. 800) and the electric selling price by PT PLN is USD 0,06 or around Rp. 650 per kWh. The electric energy cost per kWh for electric revival using motor fuel is USD 0,12 (Rp. 1.200). The coal usage is cheap, but it produces the high pollution and emission.
Several SEER main components are as follows: Solar Panel; Solar Charge Controller; Battery; Inverter.   Battery is the tool to save the energy. The kind of battery nowadays is used for the need of SEER is AGM battery, Deep Cycle VRLA, GEL Battery, and Lithium. While the kind of battery based on the electric tension that often used on SEER is: battery with the tension 12 V and 24 V. Inverter is the tool that functions to change from DC tension into AC tension. The learning based project (PBL) is the learning method that used the problem as the early step in collecting and integrating the new knowledge based its experience and real activity. PBL is designed to be used in the complex problem that needed learning in do investigation and understand it.
Simulation is an imitation process from something that is real and its state of affairs. The action of conducting this simulation describes the key characteristic qualities from the physical system behavior or certain abstract system (http://artikata.com).
Because F count (5%,3,37) is higher than Ftable (5%,3,37), so zero hypothesis is rejected, it means that the time difference against the light intensity mean is on the real stage of 5%.  It can be concluded that because Fcount is higher than Ftable (6,68 > 2,87), so H0 is rejected, it means that at least, there is one light intensity mean that had been produced by the significantly different sun panel on the real stage of 5%. The counting is continued to analyze the difference by using Newman-Keuls range test (Charles R Hicks, 1983: 51). Because fcount is higher than Ftable (3635,9027 > 5,77), so the zero hypothesis is rejected, it means at leastthere is one significantly different wind velocity mean value against the electric power of KASV on the real stage of 5%. The counting is continued to analyze the difference by using Newman-Keuls range test (Charles R Hicks, 1983: 51-54). PBL is comprehensive approach for teaching and learning that is designed so the learners do the research against the real problem. Where the educated participants in the complex problems, real world problems, wherever the educated participants can choose and decide the meaningful problem.
The educated participants are given chance to practice various skills that are needed for their adult life and career (how to allocate time, how to be responsible individual, private skill and learn through experience or experimentation).

CONCLUSION
Because F count is higher than Ftable (3635,9027 > 5,77), so H0 is rejected, it means there is one significantly sun panel light intensity on the real stage of 5%. The highest sun panel light intensity value of LED are (23,467 and 7,35 lux). The stage that is done for PBL are socialization, practice of teaching aids making, teaching aids trial, participate in the competition and practice of PBL in the classroom and finally get gift as the first winner on the energy field on the Innovation and Technology competition (INOTEK) of 2017 that is hold by Malang city government and is participated on the national exhibition.
The F ratio is higher than Ftable. It means the zero hypothesis is accepted or is not different significantly at 5% from each independent variable. (3635,9027 > 5,77), so zero hypothesis is rejected, it means at leastthere is one significantly different wind velocity mean value against the electric power mean of KASV on the real stage of 5%.

SUGGESTIONS
 The additional effort of watt peak on the sun panel that is expected in order to increase the light intensity and operation time;  The additional effort of the additional tool on the sun panel that is expected can increase the light intensity;  The way and practicing of PBL need to be socialized in front of the student.