Ship science & technology (60 documentos)


41.-
   
42.-
43.-
44.-
45.-
46.-
Navantia’s Shipyard 4.0 model overview
Recamán Rivas, Angel1
1NAVANTIA, Madrid. España
[Ship science & technology, Colombia, 2018 Vol. 11 Núm. 22 Ene, Pág. 77-85]

   
47.-
48.-
An interference risk–based approach for naval vessels
van der Ven, Cornelis J.J1; Leferink, Frank2
1RH Marine, Product Management and Innovation, Rotterdam, Zuid Holland. Países Bajos; 2University of Twente, Telecommunication Engineering & EMC, Enschede, Overijssel. Países Bajos
[Ship science & technology, Colombia, 2017 Vol. 11 Núm. 21 Jul, Pág. 65-73]

   
49.-
50.-
51.-
52.-
53.-
54.-
55.-
56.-
Calculations of the Hydrodynamic Characteristics of a Ducted Propeller Operating in Oblique Flow
Ghassemi, Hassan1; Majdfar, Sohrab2; Forouzan, Hamid2
1Amirkabir University of Technology, Department of Maritime Engineering, Teherán. Irán; 2Imam Khomeini University, Department of Marine Engineering, Nowshahr. Irán
[Ship science & technology, Colombia, 2017 Vol. 10 Núm. 20 Ene, Pág. 31-40]

57.-
58.-
59.-
60.-
Onshore Reception Facilities for ballast water
Pereira, Newton Narciso1; Brinati, Hernani Luiz2; Antunes, Rodrigo Pereira3
1Escola de Engenharia Industrial e Metalurgica de Volta Redonda, Departamento da Engenharia de Producao, Volta Redonda, Rio de Janeiro. Brasil; 2Universidade de Sao Paulo, Escola de Engenharia, Sao Paulo. Brasil; 3University of Florida, Engineering School of Sustainable Infrastructure & Environment, Gainesville, Florida. Estados Unidos de América
[Ship science & technology, Colombia, 2017 Vol. 10 Núm. 20 Ene, Pág. 41-57]