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3D PRINTED SOLAR CATAMARAN MODEL DESIGN AND EMBEDDED SENSING SYSTEM

Year 2018, Volume: 2 Issue: 3, 12 - 21, 30.12.2018

Abstract



Technology,
energy shortage and maintainability are placed emphasis on global energy
policy. Solar energy gives solutions to all around the world. Nowadays, all energy
forms are counted as solar origin. In the long term, unmanned and remotely
controlled ships will be significant on marine applications. For this reason, remote
controlled, solar powered, model catamaran design and embedded sensing system
have become important aspect for onboard maritime applications.



 



In
this paper, remote controlled model catamaran was designed and printed with
additive manufacturing technology. Various type sensor modules were installed
on the catamaran. Weather prediction is the most important aspect in maritime
transportation. Thereby, aim of the study was determined as predicting weather
conditions of the environment such as temperature, absolute pressure, humidity
of the air and solar energy power. Furthermore, voltage and current of the ship
motors were measured, sensor data were saved, and measurements were
demonstrated with graphical charts.



 



Ultimately,
model ship design can constitute basis following patent studies with its
intermediate and final outputs.  On the
other hand, 3D printed catamaran model saves energy by using renewable energy,
and creates nearly zero emission.

References

  • Reisner M. G. A., Modals of ships and boats, Le Caire, Egypt,1913, p. 10
  • Williams G. R., The world of model ships and boat, Chartwell Books, 1971, p.29
  • Wikipedia, Ship model. https://en.wikipedia.org/wiki/ship_model, Accessed January 22, 2018
  • Nancy S. Giges, Top 10 materials for 3D printing. https://www.asme.org/engineering-topics/articles/manufacturing-processing/top-10-materials-3d-printing, Accessed January 23, 2018.
  • Lee J-Y, An J, Chua CK. Fundamentals and applications of 3D printing for novel materials. Appl Mater Today 2017;7:120–33.
  • Angjellari M, Tamburri E, Montaina L, Natali M, Passeri D, Rossi M, et al. Beyond the concepts of nanocomposite and 3D printing: PVA and nanodiamonds for layer-by-layer additive manufacturing. Mater Des 2017;119:12–21.
  • Berman B. 3-D printing: The new industrial revolution. Bus Horiz 2012;55:155–62.
  • Yilmaz S, Bayramoglu K. Remotely Operated Vehicle ( ROV ) Design and Fuel Cell Applicability. World Electro Mobil Conference 2017:114–8.
  • Devaraju JT, Suhas KR, Mohana HK, Patil VA. Wireless Portable Microcontroller based Weather Monitoring Station. Measurement 2015;76:189–200.

3 BOYUTLU YAZICI İLE ÜRETİLEN, GÜNEŞ ENERJİLİ KATAMARAN MODEL TASARIMI VE GÖMÜLÜ ALGILAYICI SİSTEM UYGULAMASI

Year 2018, Volume: 2 Issue: 3, 12 - 21, 30.12.2018

Abstract



Teknoloji, enerji kıtlığı ve sürdürülebilirlik güncel
küresel enerji politikalarında önemli ölçüde vurgulanmaktadır. Güneş enerjisi
dünya genelinde enerji problemlerine çözümler getirmektedir. Günümüzde güneş
enerjisi bütün enerji formlarının özü olarak Kabul edilmektedir. Uzun vadede
denizcilik uygulamalarında insansız ve uzaktan kontrollü deniz araçlarının önem
kazanacağı öngörülmektedir. Bu sebeple denizcilik operasyonlarında uzaktan
kontrollü güneş enerjili model katamaran tasarımı ve gömülü algılayıcı
sistemler önemli bir çalışma konusudur.



Bu çalışmada bir uzaktan kontrollü model katamaranın
tasarımı ve çok katmanlı üretim teknolojisi ile imalatı gerçekleştirilmiştir. Katamaran
üzerine çeşitli sensör modüllerinin kurulumu yapılmıştır. Deniz taşımacılığında
hava durumu tahmini önem arz eden bir konudur. Bu sebeple sıcaklık mutlak
basınç ve nem gibi hava durumu parametrelerinin tahmini bu çalışmanının ana
konusu olarak belirlenmiştir. Bununla beraber katamaran motorlarının voltaj ve
akım değerleri ölçülmüş sensör verileri kaydedilmiş ve ölçüm sonuçları
grafiksel tablolarla ifade edilmiştir.



Son olarak, model gemi tasarımı sahip olduğu orta ve uzun
vadeli çıktıları ile ilerleyen dönemde yapılması planlanan patent çalışmaları
için model gemi tasarımının bir temel oluşturabileceği öngörülmektedir. Öte yandan
katmanlı üretim teknolojisi ile üretilmiş olan katamaran modeli yenilenebilir
enerji kullanması sebebiyle enerji tasarrufu yapmaktadır ve sıfıra yakın bir
onda emisyon üretmektedir.




References

  • Reisner M. G. A., Modals of ships and boats, Le Caire, Egypt,1913, p. 10
  • Williams G. R., The world of model ships and boat, Chartwell Books, 1971, p.29
  • Wikipedia, Ship model. https://en.wikipedia.org/wiki/ship_model, Accessed January 22, 2018
  • Nancy S. Giges, Top 10 materials for 3D printing. https://www.asme.org/engineering-topics/articles/manufacturing-processing/top-10-materials-3d-printing, Accessed January 23, 2018.
  • Lee J-Y, An J, Chua CK. Fundamentals and applications of 3D printing for novel materials. Appl Mater Today 2017;7:120–33.
  • Angjellari M, Tamburri E, Montaina L, Natali M, Passeri D, Rossi M, et al. Beyond the concepts of nanocomposite and 3D printing: PVA and nanodiamonds for layer-by-layer additive manufacturing. Mater Des 2017;119:12–21.
  • Berman B. 3-D printing: The new industrial revolution. Bus Horiz 2012;55:155–62.
  • Yilmaz S, Bayramoglu K. Remotely Operated Vehicle ( ROV ) Design and Fuel Cell Applicability. World Electro Mobil Conference 2017:114–8.
  • Devaraju JT, Suhas KR, Mohana HK, Patil VA. Wireless Portable Microcontroller based Weather Monitoring Station. Measurement 2015;76:189–200.
There are 9 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Kubilay Bayramoğlu 0000-0002-5838-6132

Semih Yılmaz 0000-0002-0791-4476

Kerim Deniz Kaya This is me 0000-0002-0985-2280

Publication Date December 30, 2018
Submission Date July 4, 2018
Published in Issue Year 2018 Volume: 2 Issue: 3

Cite

APA Bayramoğlu, K., Yılmaz, S., & Kaya, K. D. (2018). 3D PRINTED SOLAR CATAMARAN MODEL DESIGN AND EMBEDDED SENSING SYSTEM. International Journal of 3D Printing Technologies and Digital Industry, 2(3), 12-21.
AMA Bayramoğlu K, Yılmaz S, Kaya KD. 3D PRINTED SOLAR CATAMARAN MODEL DESIGN AND EMBEDDED SENSING SYSTEM. IJ3DPTDI. December 2018;2(3):12-21.
Chicago Bayramoğlu, Kubilay, Semih Yılmaz, and Kerim Deniz Kaya. “3D PRINTED SOLAR CATAMARAN MODEL DESIGN AND EMBEDDED SENSING SYSTEM”. International Journal of 3D Printing Technologies and Digital Industry 2, no. 3 (December 2018): 12-21.
EndNote Bayramoğlu K, Yılmaz S, Kaya KD (December 1, 2018) 3D PRINTED SOLAR CATAMARAN MODEL DESIGN AND EMBEDDED SENSING SYSTEM. International Journal of 3D Printing Technologies and Digital Industry 2 3 12–21.
IEEE K. Bayramoğlu, S. Yılmaz, and K. D. Kaya, “3D PRINTED SOLAR CATAMARAN MODEL DESIGN AND EMBEDDED SENSING SYSTEM”, IJ3DPTDI, vol. 2, no. 3, pp. 12–21, 2018.
ISNAD Bayramoğlu, Kubilay et al. “3D PRINTED SOLAR CATAMARAN MODEL DESIGN AND EMBEDDED SENSING SYSTEM”. International Journal of 3D Printing Technologies and Digital Industry 2/3 (December 2018), 12-21.
JAMA Bayramoğlu K, Yılmaz S, Kaya KD. 3D PRINTED SOLAR CATAMARAN MODEL DESIGN AND EMBEDDED SENSING SYSTEM. IJ3DPTDI. 2018;2:12–21.
MLA Bayramoğlu, Kubilay et al. “3D PRINTED SOLAR CATAMARAN MODEL DESIGN AND EMBEDDED SENSING SYSTEM”. International Journal of 3D Printing Technologies and Digital Industry, vol. 2, no. 3, 2018, pp. 12-21.
Vancouver Bayramoğlu K, Yılmaz S, Kaya KD. 3D PRINTED SOLAR CATAMARAN MODEL DESIGN AND EMBEDDED SENSING SYSTEM. IJ3DPTDI. 2018;2(3):12-21.

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