Table of Contents
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Table of Contents
Related Manuals for WÄRTSILÄ 6L34DF
Summarization of Contents
Main Data and Outputs
Technical Main Data
Provides key technical specifications like bore, stroke, displacement, valve configuration, and cylinder arrangements.
Maximum Continuous Output
Details engine and generator output ratings for different configurations (in-line, V-engines) and speeds.
Derating of Output in Gas Mode
Explains how methane number and charge air receiver temperature affect engine output derating.
Reference Conditions
Specifies ambient conditions and coolant temperatures for performance data evaluation.
Operation in Inclined Position
Details maximum permissible inclination angles for satisfactory engine operation.
Principal Dimensions and Weights
Provides physical dimensions and weights for main engines and generating sets.
Operating Ranges
Engine Operating Range
Defines limits for engine parameters to maintain acceptable operation within defined ranges.
Controllable Pitch Propellers
Details automatic load control for propeller pitch to protect the engine from overload.
Loading Capacity
Explains controlled load increase importance for supercharged engines and specific loading ramps.
Mechanical Propulsion, Controllable Pitch Propeller (CPP)
Describes maximum load increase rates for variable speed engines with CPP.
Electric Propulsion
Illustrates increasing load successively for electric propulsion systems.
Maximum Instant Load Steps
Discusses electrical system design for handling load steps and engine load acceptance.
Start-up
Details the engine start-up sequence, including generator synchronization and fuel selection.
Operation at Low Load and Idling
Specifies operational limits and restrictions for low load and idling conditions.
Low Air Temperature
Outlines minimum inlet air temperatures required for gas and diesel modes in cold conditions.
Technical Data
Wärtsilä 6L34DF
Presents detailed technical data for the Wärtsilä 6L34DF engine across different emission standards.
Wärtsilä 9L34DF
Details technical specifications for the Wärtsilä 9L34DF engine across different emission standards.
Wärtsilä 12V34DF
Lists technical data for the Wärtsilä 12V34DF engine in various configurations and emission standards.
Wärtsilä 16V34DF
Provides detailed technical data for the Wärtsilä 16V34DF engine, including emission standards.
Description of the Engine
Definitions
Provides definitions and visual aids for engine component identification in diagrams.
Main Components and Systems
Introduces the main engine components and systems, referencing dimensions and weights.
Engine Block
Describes the engine block construction, bearing caps, and oil sump design.
Crankshaft
Details the crankshaft design, forging, and mounting in V-engines.
Connection Rod
Explains the three-piece connecting rod design and its lubrication.
Main Bearings and Big End Bearings
Describes the tri-metal design and corrosion protection of main and big end bearings.
Cylinder Liner
Details the cylinder liner material, cooling, and anti-polishing ring.
Piston
Describes the composite piston design, lubrication, and cooling.
Piston Rings
Specifies the types of piston rings used (compression and oil scraper).
Cylinder Head
Describes the cylinder head construction, valves, and cooling system.
Camshaft and Valve Mechanism
Explains the camshaft design, bearing pieces, and flange connections.
Camshaft Drive
Describes how the camshaft is driven by a gear train from the crankshaft.
Fuel System
Introduces the dual fuel engine's fuel system, covering gas and main fuel oil injection.
Main Fuel Oil Injection System
Explains the main fuel oil injection system for diesel mode and instant transfer.
Pilot Fuel Injection System
Describes the pilot fuel system used for igniting the gas-air mixture in gas mode.
Exhaust Pipes
Details the construction and material of the exhaust manifold pipes.
Lubricating Oil System
Outlines the engine's internal lubricating oil system components.
Cooling System
Explains the division of the fresh water cooling system into HT and LT circuits.
Turbocharging and Charge Air Cooling
Describes the turbocharging system and the charge air cooler.
Automation System
Introduces the UNIC automation system for engine management, control, and communication.
Cross Section of the Engine
Presents a cross-section diagram of the in-line engine for component visualization.
Overhaul Intervals and Expected Life Times
Provides guidance on overhaul intervals and expected component lifetimes based on operation.
Piping Design, Treatment and Installation
Pipe Dimensions
Lists factors to consider when selecting pipe dimensions for various systems.
Trace Heating
Specifies which pipes require trace heating (steam, thermal oil, or electrical).
Pressure Class
Explains how to determine the correct pressure class for piping systems.
Pipe Class
Details how classification societies categorize piping systems based on pressure, temperature, and media.
Insulation
Lists pipes that require insulation, including exhaust gas and exposed hot pipes.
Local Gauges
Specifies where to install local thermometers and pressure gauges.
Cleaning Procedures
Provides instructions for cleaning piping systems during installation.
Flexible Pipe Connections
Outlines guidelines for proper installation of flexible pipe connections to prevent damage.
Clamping of Pipes
Provides guidelines for fixing pipes to rigid structures to prevent vibration damage.
Fuel System
Acceptable Fuel Characteristics
Lists quality requirements for gas fuel to ensure continuous operation in gas mode.
Gas Fuel Specification
Details the specific properties required for natural gas used as fuel.
Liquid Fuel Specification
Outlines specifications for Marine Diesel Fuel (MDF) based on ISO 8217.
Liquid Bio Fuels
Covers specifications for liquid bio fuels and their use as pilot fuel.
Operating Principles
Explains the engine's operating modes: Gas, Diesel, and Backup.
Gas Mode Operation
Explains how the engine operates using natural gas as the main fuel, ignited by pilot diesel.
Diesel Mode Operation
Describes operation using liquid fuel oil (MDF or HFO) with a conventional injection system.
Backup Mode Operation
Details the engine's operation in backup mode, particularly concerning pilot fuel injection.
Internal Fuel Gas System
Illustrates the internal fuel gas system for in-line engines, showing components and connections.
External Fuel Gas System
Explains the external fuel gas feed system, including typical containment and piping requirements.
Double Wall Gas Piping and the Ventilation of the Piping
Describes the ventilation of double wall gas piping for safety and system integrity.
Gas Valve Unit (10N05)
Details the Gas Valve Unit (GVU) components, function, and safety features.
Master Fuel Gas Valve
Discusses the requirement for a master gas fuel valve in LNG carriers according to IMO IGC code.
Fuel Gas Venting
Explains safe ventilation procedures for fuel gas piping during normal operation and stops.
Purging by Inert Gas
Details the process of purging fuel gas piping with inert gas before maintenance work.
Gas Feed Pressure
Covers the required fuel gas feed pressure based on LHV and system losses.
Internal Fuel Oil System
Illustrates the internal fuel oil system for in-line engines, showing components and connections.
Leak Fuel System
Describes the collection and reuse of clean leak fuel from injection valves and pumps.
External Fuel Oil System
Outlines requirements for external fuel oil systems, including cleaning, viscosity, and pressure.
Fuel Tanks
Describes the fuel oil transfer from bunker tanks to settling and day tanks.
Settling Tank, HFO (1T02) and MDF (1T10)
Details requirements for HFO and MDF settling tanks, including capacity and temperature.
Day Tank, HFO (1T03) and MDF (1T06)
Covers requirements for HFO and MDF day tanks, including capacity and heating.
Leak Fuel Tank, Clean Fuel (1T04)
Explains the clean leak fuel tank system for collecting and reusing fuel.
Leak Fuel Tank, Dirty Fuel (1T07)
Describes the dirty leak fuel tank for collecting spills and draining to a sludge tank.
Fuel Treatment
Outlines the need for efficient centrifugal separation of heavy fuel before transfer to day tank.
Separator Unit (1N02/1N05)
Lists the components typically equipped in lubricating oil separator units.
Separator Feed Pumps (1P02)
Details the selection criteria for separator feed pumps based on fuel quality and throughput.
Separator Preheater (1E01)
Explains the dimensioning and requirements for separator pre-heaters.
Separator (1S01/1S02)
Describes the types of separators and how to estimate service throughput.
MDF Separator in HFO Installations (1S02)
Recommends MDF separators for installations primarily operating on HFO.
Sludge Tank (1T05)
Specifies location and piping for the sludge tank.
Renovating Oil Tank (2T04)
Describes the renovating oil tank for oil replacement after separation.
Fuel Feed System - MDF Installations
Shows an example of a fuel oil system layout for MDF installations.
Circulation Pump, MDF (1P03)
Explains the function of the MDF circulation pump for maintaining injection pump pressure.
Fine Filter, MDF (1F05)
Describes the MDF fine filter, its installation, and pressure drop limits.
MDF Cooler (1E04)
Details the MDF cooler's function and design data.
Return Fuel Tank (1T13)
Specifies requirements for the return fuel tank, including vent valve and volume.
Black Out Start
Explains how engines resume operation during a blackout situation using stored energy.
Fuel Feed System - HFO Installations
Shows an example of a fuel oil system layout for HFO installations.
Feeder/Booster Unit (1N01)
Lists the equipment included in the feeder/booster unit for HFO fuel supply.
Fuel Feed Pump, Booster Unit (1P04)
Details the design data for the fuel feed pump in the booster unit.
Pressure Control Valve, Booster Unit (1V03)
Explains the function of the pressure control valve in the booster unit.
Automatic Filter, Booster Unit (1F08)
Describes the automatic filter installation and design data.
Flow Meter, Booster Unit (1I01)
Covers the requirements for fuel consumption monitoring using flow meters.
De-aeration Tank, Booster Unit (1T08)
Specifies requirements for the de-aeration tank, including alarms and heating.
Circulation Pump, Booster Unit (1P06)
Explains the purpose of the circulation pump in maintaining fuel quality and temperature.
Heater, Booster Unit (1E02)
Details the design data and function of the heater in the booster unit.
Viscosimeter, Booster Unit (1I02)
Describes the viscosimeter's role in controlling the heater and its design data.
Pump and Filter Unit (1N03)
Explains the combined pump and filter unit for individual engines.
Circulation Pump (1P12)
Details the purpose of the circulation pump for ensuring fuel flow to all engines.
Safety Filter (1F03)
Describes the safety filter's function, fineness, and installation location.
Overflow Valve, HFO (1V05)
Explains the dimensioning and function of overflow valves in HFO systems.
Pilot Fuel Feed Pump, MDF (1P13)
Details the MDF pilot fuel feed pump requirements for HFO installations.
Lubricating Oil System
Lubricating Oil Requirements
Outlines requirements for engine lubricating oil, including viscosity and Base Number (BN).
Engine Lubricating Oil
Specifies SAE viscosity class, VI, and BN tied to fuel grades for gas and MDF operation.
Oil in Speed Governor or Actuator
Recommends oil viscosity for speed governors, suggesting multigrade oil for low temperatures.
Oil in Turning Device
Recommends EP-gear oils and viscosity for the turning device.
Pilot Fuel Pump
Recommends lithium soap based EP-greases for pilot fuel pumps.
Internal Lubricating Oil System
Illustrates the internal lubricating oil system for in-line engines, showing components and connections.
External Lubricating Oil System
Shows an example of an external lubricating oil system for wet oil sumps.
Separation System
Details the lubricating oil separation system requirements for continuous or intermittent separating.
Separator Unit (2N01)
Lists the components typically equipped in lubricating oil separator units.
Separator Feed Pump (2P03)
Explains how to select the separator feed pump to match separator throughput.
Separator Preheater (2E02)
Details the dimensioning and requirements for separator pre-heaters.
Separator (2S01)
Describes the types of separators and how to estimate service throughput.
Sludge Tank (2T06)
Specifies location and piping for the sludge tank.
Renovating Oil Tank (2T04)
Describes the renovating oil tank for oil replacement after separation.
System Oil Tank (2T01)
Details the recommended oil tank volume, location, and flexible connections.
New Oil Tank (2T03)
Explains how new oil is filled into the engine and the need to measure the volume.
Suction Strainers (2F01, 2F04, 2F06)
Recommends installing suction strainers before pumps and their design data.
Lubricating Oil Pump, Stand-by (2P04)
Details the stand-by lubricating oil pump, its type, and design data.
Crankcase Ventilation System
Explains the purpose of crankcase ventilation and its piping requirements.
Compressed Air System
Instrument Air Quality
Specifies the quality requirements for instrument air used in safety and control devices.
Internal Compressed Air System
Describes the internal compressed air system for engine starting and control functions.
External Compressed Air System
Outlines the design of the starting air system, including receivers and compressors.
Starting Air Compressor Unit (3N02)
Specifies requirements for starting air compressors, including capacity and filling time.
Oil and Water Separator (3S01)
Stresses the importance of installing oil and water separators in the air system.
Starting Air Vessel (3T01)
Details the dimensioning and requirements for starting air vessels, including condensate drain.
Starting Air Filter (3F02)
Recommends installing a starting air filter to prevent particles from entering the system.
Cooling Water System
Water Quality
Lists the required fresh water quality parameters for the engine's cooling water system.
Corrosion Inhibitors
States that the use of approved cooling water additive is mandatory for all installations.
Glycol
Advises against using glycol unless necessary, noting potential de-rating impact.
Internal Cooling Water System
Illustrates the internal cooling water system for in-line engines.
Engine Driven Circulating Pumps
Explains that LT and HT cooling water pumps are engine driven and located at the free end.
External Cooling Water System
Shows an example of an external cooling water system for in-line engines.
Stand-by Circulation Pumps (4P03, 4P05)
Recommends electrically driven centrifugal stand-by pumps and mentions classification society requirements.
Sea Water Pump (4P11)
Details the separate, engine-driven sea water pumps and factors affecting capacity.
Temperature Control Valve, HT-System (4V01)
Describes the external HT temperature control valve for V-engines and its set point.
Temperature Control Valve for Central Cooler (4V08)
Explains the common LT temperature control valve for external equipment cooling.
Charge Air Temperature Control Valve (4V09)
Details the electrically actuated temperature control valve for the charge air cooler.
Temperature Control Valve for Heat Recovery (4V02)
Describes the temperature control valve for heat recovery and its set point.
Coolers for Other Equipment and MDF Coolers
Discusses the use of LT circulating pumps for cooling external equipment or MDF coolers.
Fresh Water Central Cooler (4E08)
Provides design data for the fresh water central cooler, including flow and pressure drop.
Waste Heat Recovery
Explains how waste heat from the HT cooling water can be utilized for various purposes.
Air Venting
Details the engine's vent pipes for evacuating air from cooling water circuits.
Expansion Tank (4T05)
Describes the function and design data of the expansion tank for coolant compensation and venting.
Drain Tank (4T04)
Recommends collecting cooling water with additives in a drain tank for maintenance.
Preheating
Emphasizes the requirement for preheating cooling water, especially for heavy fuel operation.
Heater (4E05)
Details the design data and formula for calculating the required heating power of the heater.
Circulation Pump for Preheater (4P04)
Describes the circulation pump's start/stop logic for the preheater.
Preheating Unit (4N01)
Lists the components included in a complete preheating unit.
Throttles
Explains the purpose of throttles (orifices) in balancing flow and temperature control valves.
Thermometers and Pressure Gauges
Specifies the installation locations for local thermometers and pressure gauges.
Combustion Air System
Engine Room Ventilation
Discusses requirements for engine room ventilation and combustion air supply.
Combustion Air Quality
Specifies the required air temperature at the turbocharger inlet.
Combustion Air System Design
Details the design of the combustion air system, including fans and ducts.
Charge Air Shut-off Valve, "Rigsaver" (Optional)
Describes the optional charge air shut-off valve for combustible gas environments.
Condensation in Charge Air Coolers
Addresses condensation in charge air coolers, especially in tropical conditions.
Exhaust Gas System
Internal Exhaust Gas System
Illustrates the internal exhaust gas system for in-line engines, showing components and connections.
Exhaust Gas Outlet
Shows exhaust pipe connections and dimensions for in-line and V-engines.
External Exhaust Gas System
Outlines the external exhaust gas system design, considering backpressure and thermal expansion.
System Design - Safety Aspects
Covers safety aspects for external exhaust systems, focusing on explosion prevention and gas accumulation.
Exhaust Gas Ventilation Unit (5N01)
Details the exhaust gas ventilation system required for purging after engine shutdown in gas mode.
Relief Devices - Rupture Discs
Explains the installation of explosion relief devices like rupture discs in the exhaust system.
Piping
Provides guidelines for exhaust pipe bends, expansions, and diameter increases.
Supporting
Details the importance of proper exhaust pipe support and mounting.
Back Pressure
Discusses the maximum permissible exhaust gas back pressure and its calculation.
Exhaust Gas Bellows (5H01, 5H03)
Explains the use of flexible bellows for thermal expansion and vibration isolation.
SCR-Unit (11N03)
Mentions SCR unit requirements and its placement relative to exhaust gas boilers.
Exhaust Gas Boiler
Discusses the installation and dimensioning of separate or common exhaust gas boilers.
Exhaust Gas Silencer (5R09)
Provides details on exhaust gas silencer dimensions, attenuation, and mounting.
Turbocharger Cleaning
Turbine Cleaning System
Describes the dosing unit and water supply for turbine cleaning.
Compressor Cleaning System
States that the compressor side is cleaned using the same equipment as the turbine.
Exhaust Emissions
Dual Fuel Engine Exhaust Components
Explains exhaust emissions from dual fuel engines, focusing on low NOx and CO2.
Marine Exhaust Emissions Legislation
Covers IMO regulations, MARPOL Annex VI, and NOx emission standards.
International Maritime Organization (IMO)
Details IMO's role in exhaust emission controls and MARPOL Annex VI.
MARPOL Annex VI - Air Pollution
Summarizes MARPOL Annex VI's limits on NOx, SOx, and VOCs, and prohibits ozone depleters.
Nitrogen Oxides, NOx Emissions
Explains MARPOL Annex VI regulation 13 for NOx emissions and EIAPP certification.
EIAPP Certification
Describes the EIAPP certificate issued to engines complying with NOx regulations.
IMO NOx Emission Standards
Outlines IMO Tier 1, Tier 2, and Tier 3 NOx emission standards and their applicability.
Engine Family/Group
Explains the NOx Technical Code's allowance for organizing engines into families or groups.
Technical File
Describes the requirement for a Technical File containing NOx-affecting component information.
Sulphur Oxides, SOx Emissions
Explains Marpol Annex VI's global and SECA sulphur limits for marine fuels.
Other Legislations
Mentions that other local legislations may be in force in specific regions.
Methods to Reduce Exhaust Emissions
Discusses primary and secondary methods for reducing diesel engine exhaust emissions.
Automation System
UNIC C3
Introduces the UNIC C3 system for engine management, control, and communication.
IOM, CCM
Describes the Input/Output Module (IOM) and Cylinder Control Module (CCM).
External Equipment
Mentions external equipment like power units and their protection classes.
Local Control Panel and Local Display Unit
Explains the operational functions and available parameters for the LCP and LDU.
Engine Safety System
Details the engine safety system's hardwired logic for critical functions like overspeed protection.
Power Unit
Describes the engine power unit supplying DC power and providing isolation.
Cabling and System Overview
Provides a diagram and table illustrating the UNIC C3 system's cabling and overview.
Functions
Explains the engine's operating modes: Gas, Diesel, and Backup.
Engine Operating Modes
Explains the two main operating modes: Gas and Diesel, plus Backup mode.
Start
Explains start blocking conditions and the automatic sequence for starting in gas mode.
Gas/Diesel Transfer Control
Describes the transfer process between gas and diesel operating modes, including timings.
Stop, Shutdown and Emergency Stop
Explains the procedures for stopping, shutting down, and emergency stopping the engine.
Speed Control
Details electronic speed control for main engines (mechanical propulsion) and generating sets.
Alarm and Monitoring Signals
Mentions the variability of sensors and signals and refers to project-specific documentation.
Electrical Consumers
Discusses motor starters and electrically driven pumps, noting availability as optional items.
Motor Starters and Operation of Electrically Driven Pumps
Covers motor starters for pumps, their sizing, and availability.
Engine Turning Device (9N15)
Describes the engine turning device for slow rotation during maintenance.
Pre-lubricating Oil Pump
Explains the pre-lubricating oil pump's operation and recommended backup power.
Exhaust Gas Ventilation Unit
Refers to the exhaust gas ventilation unit details in the Exhaust Gas System chapter.
Gas Valve Unit (GVU)
Refers to the gas valve unit details in the Fuel System chapter.
Stand-by Pump, Lubricating Oil (if installed) (2P04)
Explains the automatic start of the lubricating oil stand-by pump based on pressure.
Stand-by Pump, HT Cooling Water (if installed) (4P03)
Describes the automatic start of the HT cooling water stand-by pump based on pressure.
Stand-by Pump, LT Cooling Water (if installed) (4P05)
Explains the automatic start of the LT cooling water stand-by pump based on pressure.
Circulating Pump for Preheater (4P04)
Details the start/stop logic for the circulating pump for the preheater.
Sea Water Pumps (4P11)
Mentions that sea water pumps can be stopped when engines are stopped and cooling is not needed.
Lubricating Oil Separator (2N01)
States that the lubricating oil separator operates continuously.
Feeder/Booster Unit (1N01)
States that the feeder/booster unit operates continuously.
Foundation
Steel Structure Design
Covers the design of the steel structure for the engine foundation, including oil tank placement.
Mounting of Main Engines
Details the methods for mounting main engines, including rigid and resilient options.
Rigid Mounting
Explains rigid mounting using steel or resin chocks, including bolt specifications and alignment.
Steel Chocks
Details the dimensions, inclination, and machining requirements for steel chocks.
Steel Chocks with Adjustable Height
Discusses the use of adjustable steel chocks as an alternative mounting method.
Resin Chocks
Specifies recommended dimensions, resin type, and pressure limits for resin chocks.
Resilient Mounting
Explains resilient mounting on rubber elements to reduce vibrations and noise.
Mounting of Generating Sets
Details the mounting of generating sets on common base frames to reduce structure-borne noise.
Generator Feet Design
Provides dimensions for generator fixing bolts and mounting arrangements for in-line and V-engines.
Resilient Mounting
Provides notes on data required from the shipyard for induced oscillation avoidance.
Rubber Mounts
Describes the conical resilient mounts designed for compression and shear loads.
Flexible Pipe Connections
Emphasizes the importance of flexible pipe connections for resiliently installed sets and proper installation.
Vibration and Noise
External Forces and Couples
Lists external forces and couples produced by different engine configurations for ship designer reference.
Torque Variations
Presents torque variations at 100% load for different engine types and speeds.
Mass Moments of Inertia
Provides typical mass moments of inertia for main engines, including the flywheel.
Air Borne Noise
Describes airborne noise measurement according to ISO 9614-2 and presents results.
Exhaust Noise
Presents typical sound power levels for exhaust noise (W L34DF).
Power Transmission
Flexible Coupling
Discusses flexible couplings for power transmission and torsional vibration calculations.
Connection to Generator
Shows the connection details between the engine and the generator via a flexible coupling.
Torque Flange
Mentions the installation of a torque meter using a torque flange for absorbed power measurement.
Clutch
Recommends multiple plate clutches for separating the propeller shaft from the engine.
Shaft Locking Device
Explains the need for a shaft locking device to secure the propeller shaft and prevent wind milling.
Power-Take-Off from the Free End
Details power take-off options from the engine's free end for in-line and V-engines.
Input Data for Torsional Vibration Calculations
Lists the required data for performing torsional vibration calculations for each installation.
Turning Gear
Mentions that the engine is equipped with an electrical driven turning gear for flywheel rotation.
Engine Room Layout
Crankshaft Distances
Specifies minimum crankshaft distances for in-line engines to ensure maintenance and operation space.
Main Engines
Provides crankshaft distances for in-line engines (W 6L34DF, W 9L34DF).
Generating Sets
Shows crankshaft distances for generating sets, in-line engines (W 6L34DF, W 9L34DF).
Father-and-Son Arrangement
Gives general guidelines for crankshaft distance in father-and-son engine arrangements.
Distance from Adjacent Intermediate/Propeller Shaft
Addresses the need for free space around adjacent shafts for maintenance and inspection.
Main Engine Arrangement, In-line Engines
Illustrates main engine arrangements for in-line engines, showing dimensions.
Main Engine Arrangement, V-Engines
Illustrates main engine arrangements for V-engines, showing dimensions.
Space Requirements for Maintenance
Specifies recommended working space around the engine for dismounting and tool usage.
Working Space Around the Engine
Specifies recommended working space around the engine for dismounting and tool usage.
Engine Room Height and Lifting Equipment
Discusses engine room height requirements and necessary lifting equipment for overhaul.
Maintenance Platforms
Advises building maintenance platforms at recommended elevations for efficient work.
Transportation and Storage of Spare Parts and Tools
Covers arrangements for transporting and storing heavy engine components and spare parts.
Required Deck Area for Service Work
Addresses the need for deck area for cleaning and storing dismantled components during overhaul.
Service Space Requirement for the In-line Engine
Illustrates service space requirements around the engine, focusing on turbocharger access.
Service Space Requirement for the V-Engine
Shows service space requirements for the V-engine, detailing access to components.
Transport Dimensions and Weights
Lifting of Main Engines
Provides lifting dimensions for main engines, in-line configurations.
Lifting of Generating Sets
Shows lifting dimensions for generating sets in both L34DF and V34DF configurations.
Engine Components
Lists dimensions and weights for major engine components like lubricating oil inserts and charge air coolers.
Major Spare Parts
Lists major spare parts with their weights for maintenance and inventory.
Product Guide Attachments
Product Guide Attachments
Provides information on accessing product guides and drawings online via the Business Online Portal.
ANNEX
Unit Conversion Tables
Contains tables for converting units used in the product guide to other common units.
The Most Common Prefix Multipliers
Lists common scientific prefixes and their corresponding symbols and factors.
Collection of Drawing Symbols Used in Drawings
Provides a list and explanation of drawing symbols used throughout the manual.
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