Ro-Pax Ferry B145-I Basic parameters

Similar documents
Feasibility of Electric Propulsion for Semi-submersible Heavy Lift Vessels

Case study -MARPOL emission standards ECA Compliance. Your Trusted Partner

Propulsion Options for the Modern Short Voyage Ferry. The Ferry. A vehicle and passenger ferry. Short. BMT Nigel Gee and Associates Ltd

Development of Direct Drive Marine Propulsion Dual Fuel Engine "Niigata 28AHX-DF" Zhide XU Niigata Power Systems Co., Ltd.

T24 T m3 Chemical and Oil Product Tanker

Table of content. Project Details Page 3. In General Page 4. Main Particulars Page 5. General Arrangement Page 6

IEA Bioenergy ExCo78 workshop Biofuel supply to Interislander

Vasilikos Power Station

Alf Kåre Ådnanes; ABB BU Marine & Cranes, 2010-November Energy efficiency and fuel consumption of marine and offshore vessels Technical possibilities

Laivanrakennuksen kilpailutekijät tulevaisuudessa- vanha toimiala, uudet kujeet Jari Anttila, STX Finland

Challenges for sustainable freight transport Maritime transport. Elena Seco Gª Valdecasas Director Spanish Shipowners Association - ANAVE

Efficient and flexible solution

The main purpose of the simulator is the practical preparation of the trainee for engine room operation, and more particularly:

Emerging Environmental Rules & ECA Compliance

End users perspective

OOC Jaguar. Opielok Offshore Carriers

CIRCULAR IMO FAQ on the sulphur limits in Emission Control Areas (ECAs)

Europe's approach to tackling shipping emissions The Mediterranean and beyond

GASEOUS FUELS SAFETY ASPECTS

KAWASAKI Environment-friendly New engine technology

HELGA II, a part of LNG in Baltic Sea Ports II

Global Greenship, September 2009 Low Sulfur Fuel and Emissions Advances

CIMAC NMA Norway 27 January 2010

Systems and Arrangement for Meeting Regulations in Emission Control Areas (ECA)

Development future marine fuels: what has been achieved what needs to be done

SHORE TO SHIP SYSTEM AN ALTERNATIVE ELECTRIC POWER SUPPLY IN PORT

Commercial Marine Presentation

"Exhaust Gas Scrubbers Abatement System as an Alternative under IMO MARPOL Annex VI''

Opening keynote: Setting the scene the shipowners and shipmanagers point of view

Baltic Sea Parliamentary Conference. MARPOL Annex VI TECHNOLOGY & COMPLIANCE. Ramona Zettelmaier Lloyd s Register

PureSO x. Exhaust gas cleaning. This document, and more, is available for download from Martin's Marine Engineering Page -

MARITIME GLOBAL SULPHUR CAP. Know the different choices and challenges for on-time compliance SAFER, SMARTER, GREENER

MAN Diesel & Turbo SE Exhaust gas emissions & solutions

MARTOB Application of low sulphur marine fuels New challenges for the Marine Industry. Kjell Olav Skjølsvik MARINTEK

Reducing Exhaust Emissions from Wärtsilä Marine Engines Moottoritekniikan seminaari Teknologiateollisuus ry 18 May 2010 Göran Hellén

Enforcement of low sulpher requirements in the low lands

T24C1 T24C m 3 Chemical & Product Tanker

The Nautical Institute

MARINE POWER PLANT POLLUTANT EMISSIONS

BC control options reduction technologies

SIEM MARLIN - MT 6017 MK II

The Reference in Silent Thrusters. Voith Rim-Drive Technology

Outline Specification. Of a 5,500 tons. IMO II Chemical Tanker

Abatement of emissions from ships A Baltic perspective

Gearless / full scantling cellular container vsl with poop, forecastle and open top cargo hold

White paper. MARPOL Annex VI fuel strategies and their influence on combustion in boilers

M/V OCEAN SUPPLIER. Vestland Marine Sp. z o.o. Chwarznieńska str 87E, Gdynia, PL. ME 303 Anchor Handling Tug Supply Vessel (AHTS), DPS-1

Alf Kåre Ådnanes Vice President Technology. A Concept of Environmentally Friendly Propulsion System

STUDY ON PROPULSION ALTERNATIVES FOR WINMOS ACTIVITY 2.2

Electric Propulsion Systems for Ships

Field experience with considerably reduced NOx and Smoke Emissions

Hydrodynamic Optimization of Ships

Future Marine Fuel Quality Changes: How might terminals prepare?

8,707 dwt Geared Roro/Cargo Vessel for Sale Listing ID:

Effect of SOx and NOx Regulation Implementation, ECA s and NOx Tier III Current Developments in General

Clipper Ranger (1998) IMO Call Sign 2GFG4 Official number

COMPACT PROPULSION CONCEPTS FOR DOUBLE ENDED FERRIES. Roland Schwandt, Vancouver, CA, CFOA September 2015

METHODS OF REDUCTION OF FUEL CONSUMPTION AS MEANS FOR CO2 EMITTED BY SEAGOING SHIPS MINIMISING

Latest Ships built in Japan

ULSFO (0.10) and RM (VLSFO) Category Potential future trends

Reliable, Silent, Efficient. Voith Linear Jet

EMISSION ABATEMENT TECHNOLOGIES

Design: Aker OSCV 06L DSV Built: 2009 IMO No: Call sign: C6XW3 SKANDI ARCTIC DSV

Global Sulfur Cap

Medium Voltage Soft Starters MOTOR CONTROL IS OUR NATURE

Fuel Efficient Power Plant Featuring Variable Speed Generation Systems for DP Drilling Units

ABB Marine and Ports, 2016 HH Ferries Zero Emission operation ABB Offering

GEARBOXES CUSTOM PROPELLERS, SHAFTS AND RUDDERS TUNNEL THRUSTERS AZIMUTH THRUSTERS CONTROLLABLE PITCH PROPELLER SYSTEMS

YN TSHD MAIN FUNCTIONS

LNG: Legal and regulatory framework. Canepa Monica World Maritime University

voith.com The reference in silent thrusters Voith Rim-Drive technology in yachts

CHARACTERISTICS OF POLLUTION RESPONSE VESSELS FOR THE GULF OF FINLAND

Introduction to LNG Fueled Cargo Vessels and Bunkering Issues

Methanol a marine fuel for the future. International Methanol Conference Copenhagen May 8-10

Electrification and alternative fuels in Stena Line. Presentation for Zero and Maritime Clean Tech, Oslo 10 April 2018

Fishery Research Vessel Solea for Federal Office of Agriculture and Food

Alternative fuels and abatement technology for future shipping an overview

WÄRTSILÄ DF: PRESENT AND FUTURE OF THE LNG FUELLED VESSELS

News & Updates on MAN Dual Fuel Engines. Colin Peesel Sales Manager Engine & Marine Systems Inspectors Day Bremen,

Electric Propulsion and Power Generation for ships Indian perspective. By R S. Mahajan Larsen & Toubro

UECC M/V AUTO ECO. Driving cleaner PCTC operations

TYPE APPROVED CEMS GREEN EFFICIENCY ON BOARD

METHANOL AS A MARINE FUEL A SAFE, COST EFFECTIVE, CLEAN-BURNING, WIDELY AVAILABLE MARINE FUEL FOR TODAY AND THE FUTURE

copyright c 2014 Hyundai Heavy Industries A Jan. 2014

COMPRESSED GAS, EXPANDED OPPORTUNITIES.

ECA Compliance & PM. Thomas Kirk Director of Environmental Programs. Ottawa, Canada 9 September 2014

OPERATIONS SEAFARER CERTIFICATION GUIDANCE NOTE SA MARITIME QUALIFICATIONS CODE. Deck: Ship s Power Plants

Looking to the Future: Operating in an Emissions Control Area (ECA)

Going the Dual Fuel Route

HYBRID & LNG SOLUTIONS FOR FERRIES

German Weisser WÄRTSILÄ SWITZERLAND LTD. 3rd Technical Meeting 2013/14 of The Greek Section of The Society of Naval Architects and Marine Engineers

Fuel handling. in Emission Controlled Areas

Wärtsilä NO X Reducer. Environmental Efficiency

Turning the page in ship propulsion, by switching to LNG

Residual Fuel Market Issues

V-POD electric propulsion & maneuvering system

GUIDELINES FOR USE OF LOW SULPHUR FUEL OILS IN SHIPS

USE OF MDO BY SHIPS THE RATIONAL BEHIND THE PROPOSAL

Outlook for Marine Bunkers and Fuel Oil to A key to understanding the future of marine bunkers and fuel oil markets

Challenges to achieve existing and upcoming environmental regulation. Khalid Tachi EICB/EIBIP

Transcription:

Basic parameters

Operating parameters LORRIES - min. 165 pcs CARS - min. 50 pcs

Operating parameters AREA OF OPERATION BALTIC SEA EMISSION CONTROL AREA UNDER IMO/MARPOL: SOx-ECA (since 2005) - MARPOL, ANNEX VI, Reg. 14, NOx-ECA (since 2021) - MARPOL, ANNEX VI, Reg. 13. CURRENT CONNECTIONS OPERATED BY PŻB S.A.: Świnoujście Ystad, Gdańsk Nynäshamn.

Operating parameters WHY THE NEW RO-PAX? TRANSPORTATION CORRIDOR BALTIC-ADRIATIC BAC, AN IMPORTANT PILLAR OF THE TRANS-EUROPEAN TRANSPORT NETWORK TEN-T: SZCZECIN CORRIDOR AXIS SZCZECIN / ŚWINOUJŚCIE-POZNAŃ - WROCŁAW - OSTRAWA IS A PART OF THE BAC. (Source: http://regionybac.pl/)

Operating parameters TYPE OF FERRY TRANSPORTATION PASSENGERS CARS BUSES LORRIES

Operating parameters LOADING AND UNLOADING OF THE FERRY (1/5) RO-RO CARGO (1/4) LAND RAMP WIDTH abt 4.0 m ENTRY/DEPARTURE TO/FROM DK NO. 3 FROM THE AFT SIDE STERN DOOR-RAMP DK NO. 2 DK NO. 3 WIDTH abt 15 m ENTRY/DEPARTURE TO/FROM DK NO. 2 FROM/TO LAND 2 LORRIES SIMULTANEOUSLY

Operating parameters LOADING AND UNLOADING OF THE FERRY (2/5) RO-RO CARGO (2/4) BOW UPPER DOOR + RAMP/FLAP + LAND RAMP WIDTH abt 4.0 m ENTRY/DEPARTURE TO/FROM DK NO. 3 FROM/TO LAND BOW LOWER DOOR + DOOR-RAMP WIDTH abt 6.0 m ENTRY/DEPARTURE TO/FROM DK NO. 2 FROM/TO LAND DK NO. 3 DK NO. 2 ========= LAND RAMP

Operating parameters LOADING AND UNLOADING OF THE FERRY (3/5) RO-RO CARGO (3/4) TWO-WAY TILTABLE RAMP WIDTH abt 3.6 m ENTRY FROM CAR DK NO. 2 TO DK NO. 3 / DEPARTURE FROM DK NO. 3 TO DK NO. 2 TRAILER LIFT LENGTH X WIDTH : 18 m x 3.5 m TRANSPORT BETWEEN CAR DK NO. 1 AND DK NO. 2 TILTABLE RAMP DK NO. 3 DK NO. 2 DK NO. 1 TRAILER LIFT

SIDE DOOR Ro-Pax Ferry B145-I Operating parameters LOADING AND UNLOADING OF THE FERRY (4/5) RO-RO CARGO (4/4) SIDE DOOR SB + LAND RAMP WIDTH abt 5.0 m ENTRY/DEPARTURE FROM DK NO. 3 FROM/TO LAND ŚWINOUJŚCIE, STAND NO. 1 DK NO. 3 DK NO. 2 SIDE DOOR

Operating parameters LOADING AND UNLOADING OF THE FERRY (5/5) PASSENGERS PASSENGER DOOR - PS WIDTH abt 2.2 m ENTRANCE/EXIT TO/FROM PASSENGER DK (DK NO. 4) FROM/TO COMMUNICATION BRIDGES PASSENGER DOOR - SB WIDTH abt 2.2 m ENTRANCE/EXIT TO/FROM PASSENGER DK (DK NO. 4) FROM/TO COMMUNICATION BRIDGES PASS. DOOR SB DK NO. 4 PASS. DOOR PS PASS. DOOR SB

OPERATING SPEED OF THE FERRY Ro-Pax Ferry B145-I Operating parameters

Operating parameters ENDURANCE OF THE FERRY AMOUNTS OF CONSUMABLES FOR 3 DAYS ENDURANCE OF THE VESSEL LS MDO (LOW SULPHUR MARINE DIESEL OIL) 200 m³ LNG (LIQUEFIED NATURAL GAS) 2 x 140 m³ LO (LUBRICATING OIL) 18.0 m³ TECHNICAL WATER 300 m³ GREY WATER 340 m³ SEWAGE 230 m³ POTABLE WATER 500 m³

Technical parameters MAIN DIMENSIONS Length, overall : 202.50 m Length, b. p. : 189.00 m Breadth, moulded : 30.20 m Breadth, max. : 30.80 m Draught, design : 6.30 m Depth to Main Deck : 9.20 m Lane length : abt 3000 m

Technical parameters PROPULSION SYSTEM (1/5) DIESEL-ELECTRIC (D-E) TYPE PROPULSION SYSTEM (1/2) MDG 1 ALTERNATORS MDG 2 MDG 3 SUPPLY TRANSFORMERS MDG 4 HDG MAIN SWBDS MAIN SWBDS DIESEL ENGINES AZIMUTH THRUSTERS COMPLETE WITH PM E-MOTOR FREQUENCY CONVERTERS (Source: MAN)

Technical parameters PROPULSION SYSTEM (2/5) D-E PROPULSION SYSTEM (2/2) POSSIBILITY TO OPTIMIZE LOADING OF DIESEL ENGINES OPERATION WITH MAX. EFFICIENCY => LOWER FUEL CONSUMPTION AND POLLUTANT EMISSIONS HIGH RELIABILITY MULTIPLE ENGINE REDUNDANCY (EVEN AN ENGINE MULFUNCTION, THERE WILL STILL BE SUFFICIENT POWER TO OPERATE THE VESSEL SAFELY D-E SYSTEM TAKES LESS SPACE COMPARE TO DIESEL-MECHANIC TYPE SYSTEM FLEXIBILITY IN LOCATION OF PROPULSORS SUPPLIED WITH ELECTRIC POWER THROUGH CABLES, THEY DO NOT NEED TO BE ADJACENT TO THE PRIME MOVER LOWER PROPULSION NOISE AND REDUCED VIBRATIONS (NO REDUCTION GEARS) EFFECTIVE PERFORMANCE IN ICY CONDITIONS THE SYSTEM CAN PROVIDE MAX. TORQUE AT LOW SPEED

Technical parameters PROPULSION SYSTEM (3/5) MAIN PROPULSORS (1/2) AZIMUTH THRUSTERS 2 PCS COMPLETE WITH PM (PERMANENT MAGNET) TYPE E-MOTOR LOCATED IN UNDERWATER PART OF THRUSTER NO TRANSMISSION GEAR BETWEEN E-MOTOR AND FIXED PITCH PROPELLER HEAT LOSSES DIRECTLY TO OUTSIDE COOLING SEAWATER MAX. STEERING RATE 6 deg/s (Source: ABB)

Technical parameters PROPULSION SYSTEM (4/5) MAIN PROPULSORS (2/2) EXCELLENT MANEUVERABILITY SAFETY & TIME/FUEL SAVINGS Azimuth Thruster vs Shaftline-Rudder (2 x 10.5 MW) Time saving for Azimuth propulsion is abt 35 % (6 min.) for the example port approach and berthing (Source: ABB / Ship Simulator)

Technical parameters PROPULSION SYSTEM (5/5) BOW THRUSTERS PROVIDED FOR MANOEUVRING SERVICES TRANSVERSE TUNNEL THRUSTERS 2 PCS COMPLETE WITH ASYNCHRONOUS TYPE E-MOTOR, FW COOLED COMPLETE WITH LV-PWM-CONVERTER DRIVE, FW COOLED COMPLETE WITH CONVERTER TRANSFORMER, FW COOLED FIXED PITCH PROPELLER, NiAl BRONZE DIRECTION OF ROTATION OF INPUT SHAFT: BI-DIRECTIONAL (Source: www.ksb.com) COMPLETE WITH AN HOLDING BRAKE

Technical parameters POWER GENERATION SYSTEM (1/2) SHIP PROPULSION POWER AND ELECTRIC POWER FOR GENERAL DEMANDS OF THE VESSEL MAIN DIESEL GENERATORS (MDG) - 4 PCS Consists of: Dual Fuel, 4-stroke, medium-speed, non-reversible, turbocharged and inter-cooled diesel engine with direct injection of liquid fuel and indirect injection of gas fuel, an alternator; the engine can be operated in gas mode or in diesel mode HARBOUR DIESEL GENERATOR (HDG) - 1 PCE Consists of: Dual Fuel, 4-stroke, medium-speed, non-reversible, turbocharged and inter-cooled diesel engine with direct injection of liquid fuel and indirect injection of gas fuel, an alternator; the engine can be operated in gas mode or in diesel mode (Source: www.wartsila.com)

Technical parameters POWER GENERATION SYSTEM (2/2) ELECTRIC POWER FOR EMERGENCY PURPOSES EMERGENCY DIESEL GENERATOR (EDG) - 1 PCE Consists of: 4-stroke, high-speed, non-reversible, turbocharged and radiator air-cooled diesel engine, an alternator; the engine can be operated in diesel mode (Source: www.cat.com)

Technical parameters SHORE POWER CONNECTION SYSTEM THE ELECTRIC POWER FROM THE SHORE NO EXHAUST EMISSIONS OR NOISE POLLUTION FROM THE SHIP SHORE CONNECTIONS 2 SETS SC SWBD 10.7 kv / 60 Hz, 3-phases, Panel 1 x Circuit Breaker, 1 x Connector Panel, short circuit current 16 ka/1s, rated power 2875 kva, IP32 Control Box for communication between shore side and MV SWBD THE WAY OF COMPLYING WITH PORT EMISSION REQUIREMENTS SHORE INTERFACE ACC. TO SPECIFICATION FOR YSTAD AND ŚWINOUJŚCIE PORTS FUTURE EU DIRECTIVES WILL OBLIGE MEMBER STATES TO IMPLEMENT ALTERNATIVE INFRASTRUCTURE NETWORKS, INCLUDING SHORE POWER, BY 2025

Technical parameters HEATING POWER GENERATION SYSTEM (1/2) LS MDO/GAS-FIRED THERMAL OIL HEATERS - 2 PCS ONE (1) HEATER IN EACH ENGINE ROOM HORIZONTAL EXECUTION THREE-PASS FLUE GAS CONFIGURATION RESULTING IN HIGH EFFICIENCY REMOVABLE PLATE PROVIDES ACCESS FOR INSPECTION AND CLEANING OF THE COILS LOW THERMAL OIL PRESSURE DROP HEAVY THERMAL INSULATION JACKET COMPLETE WITH BURNER (Source: www.alfalaval.com)

Technical parameters HEATING POWER GENERATION SYSTEM (2/2) HEAT RECOVERY FROM DIESEL ENGINES EXHAUST GASES EXHAUST GAS THERMAL OIL HEATERS / ECONOMISERS - 4 PCS INSTALLED IN THE MDG EXHAUST GAS PIPELINES FORCED CIRCULATION VERTICAL EXHAUST GAS HEATER FOR RECOVERING HEAT FROM EXHAUST GASES DESIGNED SPECIFICALLY FOR PARTICULAR DIESEL ENGINE DESIGNED WITH LOW PRESSURE LOSS INTEGRATED NOZZLES AT INLET FOR SOOT CLEANING DURING OPERATION TOP-MOUNTED NOZZLE SYSTEM FOR FIRE FIGHTING (Source: www.alfalaval.com)

Technical parameters FUEL SYSTEM (1/2) MAIN FUEL FOR THE VESSEL LNG SYSTEM FUNCTIONAL CONFIGURATION LNG (LIQUEFIED NATURAL GAS) NO PROBLEM WITH POLLUTANT EMISSIONS CLEAN BURNING, SOx, PARTICULATE AND NOx LIMITS CAN BE ACHIEVED WITHOUT ANY ADDITIONAL EQUIPMENT EMISSIONS ARE COMPLIANT WITH CURRENT AND FUTURE ECA REGULATIONS LNG HAS LOWER PRICE TODAY THAN DIESEL FUEL

Technical parameters FUEL SYSTEM (2/2) ALTERNATIVE FUELS FOR THE VESSEL LS MDO (LOW-SULPHUR MARINE DIESEL OIL) LS MGO (LOW-SULPHUR MARINE GAS OIL) LS MDO / LS MGO MARINE DISTILLATE FUELS OF CATEGORY ISO-F-DMA, DMZ OR DMB ACC. TO ISO 8217:2012(E) WITH SULPHUR CONTENT OF MAX. 0.1 % (m/m) FUEL SUPPLIED EQUIPMENT MAIN DIESEL GENERATORS HARBOUR DIESEL GENERATOR FUEL-FIRED THERMAL OIL HEATERS EMERGENCY DIESEL GENERATORS FUEL TYPE LNG + PILOT FUEL (LS MDO/MGO) LS MDO LS MGO LS MDO LS MGO

POWER PLANT EMISSIONS Ro-Pax Ferry B145-I Technical parameters

Technical parameters FIN STABILIZERS SB PS SAFETY OF THE CARGO AND VESSEL COMFORT FOR PASSENGERS

Ro-Pax (1) Plan Ferry Ogólny B145-I General Promu Arrangement (1/2)

General Arrangement (2/2)

Thank you! Ro-Pax Ferry B145-I

2024 © autodocbox.com Privacy Policy | Terms of Service | Feedback