International Journal of Renewable Energy Research-IJRER

The aim of this research is to develop and evaluate the solar powered catamaran for a response to low carbon destination and sustainable tourism for Ko Mak Island, Thailand. The development process includes ship design, PV system design and shipbuilding. Thus, it has designed that are the length with 7.5 Meters and the width with 3.5 meters. Similarly, it has installed 1.8 kWp photovoltaic generation system and 2 units of 3-hp induction motors. The performance evaluations have been accomplished in the open water in the designated route. The result showed that the uppermost speed of the catamaran was 9.18 km/h at 4,500 W. At normal cruise speed of 2,000 W, the catamaran speed was 7.77 km/h and maximum travel distance without charging at depth of discharge equally to 0.6 is 41.96 km. Therefore, the catamaran cruise distance would cover any common travel route of Ko Mak Island. Furthermore, the 19-km extended travel route has been guided for the boat cruise and monitoring. The cruise has been performed in calm weather condition, which insolation of the cruise was 27.18 kWh. The PV system could generate electricity equally to 4.1 kWh or with efficiency of 15.08 percent. However the total consumption was 5.7 kWh. The average cruise speed was 6.26 km/h and the average motors consumption was 1,889.37 W. Finally it turned out that the boat has good maneuver response and good throttle response, passengers can walk to several parts for doing activities conveniently.

J. O. Amaechi, T. C. Godstime, Automotive Exhausts Emissions and Its Implications for Environmental Sustainability, International of Advanced Academic Research - Engineering, Vol. 1 (2), November 2015, pp. 1-11.

L. J. Holmes, J. McWilliam, M. C. O. Ferrari, and M. I. Maccormick, “Juvenile damselfish are affected but desensitize to small motor boat noiseâ€, Journal of Experimental Marine Biology and Ecology, Vol. 494, pp. 63-68, September 2017.

C. Burt, X. Piao, F. Gaudi, B. Busch, and NFN. Taufik, Electric Motor Efficiency under Variable Frequencies and Loads. ITRC Report No.R06-004, California Polytechnic State University, 2006, pp. 2.

S. Minami, T. Hanada, N. Matsuda, K. Ishizu, J. Nishi, and T. Fujiwara, Performance of a Newly Developed Plug-in Hybrid Boat, Journal of Asian Electric Vehicles, Vol. 11(2), pp. 1653-1657, 2013.

G. S. Spagnolo, D. Papalillo, A. Martocchia, and G. Makary, Solar-Electric Boat, Journal of Transportation Technologies, Vol.2, pp. 144-149, 2012

H. Schneekluth and V. Bertram, Ship Design for Efficiency and Economy, 2nd ed., Butterworth-Heinemann, 1998.

R. Lukkanaworakul, M. Yutithum, T. Piekkoontod, and A. Satayavibul, and S. Tohmad, Study on Potential of Using Solar Powered Catamaran for Coral Reef Tourism, Report No.RDG5650017, The Thailand Research Fund, May 2016.

A. Rios, J. Guaman, C. Vargas, and M. Garcia, Design, Dimensioning, and Installation of Isolated Photovoltaic Solar Charging Station in Tungurahua, Ecuador, International Journal of Renewable Energy Research, Vol.7, No.1, 2017.