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PROJECT DOCUMENT Page 1 of 20
No. HMC4240 LKO 250 t 3000 m
Form-ID-Document-201011
Customer
Supplier MacGregor Norway AS Andøyfaret 15 NO-4623 Kristiansand NORWAY [email protected]
Project number, supplier 112xxxx Project name, customer Unknown P.O. number, customer [Insert text here]
Technical Tender
Equipment: MacGregor Offshore Knuckle Jib Crane
Type: HMC 4240 LKO 650-35 (2500-15) AHC 3000m
Active heave compensated 250t offshore knuckle jib crane with main winch on crane.
Revision Description Date Author Checked by
A Issued for Information 23.01.2013 LMA LAH
0 Issued for quotation 18.03.2013 FGR -
1 Updated according to VO´s 25.06.2014 DAL
2 Updated information on Class Society 27.10.2014 DAL
This document and all information and data herein or herewith is the confidential and proprietary property of MacGregor Norway AS and is not to be used, reproduced or disclosed in whole or in part by or to anyone without the written confirmation from MacGregor Norway AS. © Macgregor Norway AS www.Macgregor.com
PROJECT DOCUMENT Page 2 of 20
No.HMC4240 LKO 250 t 3000 m
CHANGE DESCRIPTION HISTORY
Revision Change Description
A Initial version
0 Issued for Quotation. Added options
1 Updated according to VOR´s
PROJECT DOCUMENT Page 3 of 20
No.HMC4240 LKO 250 t 3000 m
CONTENTS
1 SCOPE OF SUPPLY ............................................................................................................... 5
1.1 Project Management ......................................................................................................... 5
1.2 Engineering ...................................................................................................................... 5
1.3 Procurement ..................................................................................................................... 5
1.4 Manufacturing ................................................................................................................... 5
1.5 Testing .............................................................................................................................. 5
1.6 Installation ........................................................................................................................ 5
2 LIST OF ABBREVIATIONS ...................................................................................................... 6
3 TECHNICAL DESCRIPTION ................................................................................................... 7
3.1 250t AHC Offshore Knuckle Jib Crane .............................................................................. 7
3.2 Electro Hydraulic Power Unit (HPU) .................................................................................. 8
3.3 Active Heave Compensation System, (AHC/AT) ............................................................... 8
3.4 Dual Sensor System (Important Safety Function) ............................................................. 8
3.5 Operator Cabin ................................................................................................................. 9
3.6 Fully Integrated Automatic Grease Lubrication System ................................................... 10
3.7 Emergency Power System, EPS ..................................................................................... 10
3.8 Main Hook ...................................................................................................................... 10
3.9 Flood Lights .................................................................................................................... 10
3.10 Helicopter Warning Lights ............................................................................................... 10
3.11 Winch Camera Monitoring System .................................................................................. 10
3.12 SPM Nipples in Main Electric Motors .............................................................................. 10
3.13 Spare Slip Rings ............................................................................................................. 10
3.14 Remote Diagnostic Control system ................................................................................. 10
3.15 FMEA ............................................................................................................................. 10
4 EQUIPMENT DATA SHEET .................................................................................................. 11
4.1 Performance Data ........................................................................................................... 11
4.1.1 Main Hook Lifting Capacity, Shipboard Mode .......................................................... 11
4.1.2 Main Hook Lifting Capacity, Offshore Mode ............................................................. 11
4.1.3 Remaining Hook Pull Force vs. Depth ..................................................................... 11
4.1.4 Active Heave Compensation System, (AHC/AT) ...................................................... 12
4.2 Technical Specification ................................................................................................... 13
PROJECT DOCUMENT Page 4 of 20
No.HMC4240 LKO 250 t 3000 m
4.2.1 Design Data ............................................................................................................. 13
4.2.2 Approximate Weights ............................................................................................... 13
4.2.3 Power Consumption ................................................................................................ 13
4.2.4 Main Crane Data ...................................................................................................... 13
4.2.5 Main Winch Data ..................................................................................................... 14
4.2.6 Surface Treatment ................................................................................................... 14
4.2.7 Hydraulic Oil Piping ................................................................................................. 14
5 OPTIONS .............................................................................................................................. 15
5.1 List of Options ................................................................................................................. 15
5.2 Description of Options ..................................................................................................... 16
5.2.1 Whip Winch ............................................................................................................. 16
5.2.2 Power Management System .................................................................................... 16
5.2.3 Tugger Winches ....................................................................................................... 16
5.2.4 Personnel Lift ........................................................................................................... 16
5.2.5 Bolted Counter Foundation Incl. Bolt Set HMC 4240 – ECO specification................ 16
5.2.6 Transportation Crib .................................................................................................. 16
6 TESTING AND INSTALLATION ............................................................................................. 18
6.1 Installation and Start-up .................................................................................................. 18
6.2 HAT (Harbour Acceptance Test) ..................................................................................... 18
6.3 SAT (Sea Acceptance Test) ............................................................................................ 19
6.4 Installation Times ............................................................................................................ 19
7 MISCELLANEOUS INFORMATION ....................................................................................... 20
PROJECT DOCUMENT Page 5 of 20
No.HMC4240 LKO 250 t 3000 m
1 SCOPE OF SUPPLY
One active heave compensated offshore crane with main winch on crane. The work to be performed includes
all project management, engineering, supervision, equipment and materials necessary to perform the work
outlined below.
All images/pictures are for illustration purposes only. The actual equipment may vary.
1.1 Project Management
• Project management and planning to ensure delivery of the product in accordance with the
customer’s requirements.
• Project reporting forecasting completion of the product to the customer.
• Project completion and close out with customer.
1.2 Engineering
• Determine and confirm the final detailed design.
• Produce detailed manufacturing procedures.
• Prepare the user and operating manuals as well as the data book.
• Update As built documentation.
1.3 Procurement
• Purchase all material and components necessary to complete and deliver the product as per customer
requirements.
1.4 Manufacturing
• Manufacturing and assembly of the equipment/structure and all ancillary components.
• Manufacturing supervision by Cargotec personnel and any required third party .i.e. classification
society.
1.5 Testing
• FAT - Factory Acceptance Test at Macgregor’s test facilities in Kristiansand.
• HAT - Harbour Acceptance Test (Work scope ref section 6.2).
• SAT - Sea Acceptance Test (Work scope ref section 6.3).
1.6 Installation
• Installation of the crane on the vessel at Macgregor’s facilities or other designated location. (Work
scope ref section 6.1).
PROJECT DOCUMENT Page 6 of 20
No.HMC4240 LKO 250 t 3000 m
2 LIST OF ABBREVIATIONS
AHC - Active Heave Compensation
AHC/AT - Active Heave Compensation/ Auto Tension
CT - Constant Tension
DAF - Dynamic Amplification Factor
EPS - Emergency Power System
FAT - Factory Acceptance Test
GA - General Arrangement
HAT - Harbour Acceptance Test
HPU - Hydraulic Power Unit
HSE - Health Safety Environment
LK - Luffing Knuckle Jib Crane
LKO - Luffing Knuckle Jib Offshore Crane
m - Metres
MW - Main Winch
SAT - Sea Acceptance Test
SWL - Safe Working Load
t - Metric Tonnes
UDLS - Ultra Deep Lifting System
WW - Whip Winch
WUD - Winch Under Deck
PROJECT DOCUMENT Page 7 of 20
No.HMC4240 LKO 250 t 3000 m
3 TECHNICAL DESCRIPTION
3.1 250t AHC Offshore Knuckle Jib Crane
A complete Active Heave Compensated electro-hydraulically operated MacGregor crane designed for
efficient and safe load handling, offshore lifting operations and subsea load handling. Other features include
ship to ship mode and personnel lift all depending on which options are declared upon purchase.
This crane is delivered and mounted on a circular foundation which, depending upon design, can be welded
or bolted to the vessel’s crane foundation. All main operational functions i.e. hydraulic luffing cylinders,
slew drive system, main, auxiliary and tugger winches are all controlled from a spacious fully equipped
operator cabin with good operating views to the vessels’ main deck and lifting zones.
Knuckle jib cranes were originally designed to keep the jib end, including the load, as low as possible to
reduce the pendulum motion caused by movement of the vessel. However, when these cranes are used to lift
the large and heavy objects, it is at times necessary to have more free-hook height to provide increased space
for lifting arrangements, slings etc.
HAT 250t crane
All our knuckle jib cranes are designed to lift the high loads with an extended knuckle jib. This includes
strengthen structure and cylinder system to deal with these forces. This feature provides operators with a
great flexibility during the planning of lifting operations.
When the crane is in the over-side working position, with the active heave-compensation (AHC) activated
and with the crane hook in the water, it is still possible to operate the jib and slew crane functions. This
makes load positioning possible and optimizes other crane functions without shutting down the AHC mode
or moving the vessel.
PROJECT DOCUMENT Page 8 of 20
No.HMC4240 LKO 250 t 3000 m
On all larger MacGregor cranes the slew drive system components, including drive gears and motors, are
located inside the crane’s king. This simplifies the maintenance and inspections throughout the entire
lifetime of the crane and protects the components from the harsh environment/surroundings.
3.2 Electro Hydraulic Power Unit (HPU)
Complete electro hydraulic power unit for all the crane’s hydraulic functions. The HPU is a totally enclosed
unit mounted in the crane king. The hydraulic oil tank is built-in in the crane king structure. The oil pumps
are submerged in the oil reservoir. El.powered air fan coolers of sufficient capacity are supplied to avoid
overheating of the hydraulic oil.
3.3 Active Heave Compensation System, (AHC/AT)
By using the finest and most reliable motion sensors, position sensors and control system components,
MacGregor cranes provide the best possible active heave compensation performance on the market.
Accuracy measured to a few centimetres is achievable even under extreme heave conditions.
3.4 Dual Sensor System (Important Safety Function)
In our expert opinion, regulation sensors used in AHC/AT mode are of critical importance and are therefore
specifically focused on during the product design stage. A fail-safe sensor system with dual sensors has been
developed, tested and implemented in our products. This system with auto-takeover ensures unique winch
function reliability when operating in AHC/AT mode. The load cell is one of these sensors which have a
dual output (two channels). This enables the AHC/AT to continue (without stop) in case of a failure in one of
these channels. Another sensor is the winch position encoder which is original a Profibus sensor, while a
secondary independent analogue sensor operates without the Profibus system. If a failure in the default
sensor occurs, the secondary sensor takes over immediately, without shutting down AHC/AT mode. These
new features significantly increase the system reliability. The crane jib system is also equipped with dual-
sensors giving important feedback to the system in AHC/AT mode. The control system will automatically
switch to the second sensor if there is a failure in the primary one. All dual sensors will generate alarms if
there is deviation between them. This is to warn the operator at an early stage that one of the sensors is not
sending a correct value. The operator can easily switch between the sensors, unless one of them has totally
failed.
PROJECT DOCUMENT Page 9 of 20
No.HMC4240 LKO 250 t 3000 m
3.5 Operator Cabin
The crane is equipped with a spacious operator cabin presenting a comfortable work place for the crane
operator. The operator cabin is equipped with an ergonomic and shock absorbed operator chair providing all
main crane operations via joysticks located on armrests either side of the operator’s chair.
Full operational status of the crane can be monitored and operational modes changed via the operators
control touch screen. The display shows various critical operational information such as: load in hook, load
vs. radius, operating temperatures, alarms etc.
The cabin is also fully sound insulated and equipped with an air conditioning system, close circuit TV
monitors (from main and aux winches) window wipers, signal horn, window sun-blinds, FM radio/CD
player, VHF / UHF radio and general instrumentation.
The standard cabin design provides a comfortable and user friendly environment to allow all types of lifts to
be performed in a safe and proper manner. The cabin can be upgraded according to customer’s requirements.
Typical interior of an offshore operator cabin with touch screen display
PROJECT DOCUMENT Page 10 of 20
No.HMC4240 LKO 250 t 3000 m
3.6 Fully Integrated Automatic Grease Lubrication System
A fully automatic grease lubrication system supplies necessary and correct lubrication to various points on
the crane. This system significantly simplifies the maintenance of the crane. The advantage of the central
lubrication system is that it provides grease to points on the crane that may have difficult access and requires
additional equipment i.e. lift hire and working at height trained personnel. It also ensures that it releases “a
little grease frequently” as opposed to “too much grease infrequently”.
3.7 Emergency Power System, EPS
An emergency power system, consisting of a totally-independent pump/motor system with a separate remote
control panel, ensures a safe operation of the crane, even if the main power supply (and aux. 230V power
supply) fails. All crane and winch functions (not AHC/AT mode) can be operated at full load at reduced
speed.
3.8 Main Hook
Subsea swivel hook for single line lift.
3.9 Flood Lights
2 x Pendulum suspended 400W marine floodlight protected for marine environments. The lights are fitted on
both sides of the jib end.
3.10 Helicopter Warning Lights
2 x helicopter warning lights in marine enclosures. One mounted on top of the king/main winch and one in
front on the main jib.
3.11 Winch Camera Monitoring System
Complete camera monitoring system for all crane winches. LCD flat screen monitor mounted in the crane
cabin.
3.12 SPM Nipples in Main Electric Motors
All main electric motors are fitted with SPM nipples for condition monitoring.
3.13 Spare Slip Rings
6 available single rings for signal.
3.14 Remote Diagnostic Control system
Satellite communication based remote control system that gives service personnel immediate access to the
crane control system anywhere in the world. The remote diagnostic control system is free of charge in the
warranty period. After that, a yearly fee will apply.
3.15 FMEA
An FMEA analysis will also be provided as part of the final documentation.
PROJECT DOCUMENT Page 11 of 20
No.HMC4240 LKO 250 t 3000 m
4 EQUIPMENT DATA SHEET
4.1 Performance Data
4.1.1 Main Hook Lifting Capacity, Shipboard Mode
Crane lifting capacity is an automatic stepless function of the crane outreach. (Lifting capacity on outer
layer, full drum)
Lifting capacity, single line arrangement SWL 650 kN (65 t) at 35 m outreach
Lifting capacity, single line arrangement SWL 2500 kN (250 t) at 15 m outreach
4.1.2 Main Hook Lifting Capacity, Offshore Mode
Crane lifting capacity is an automatic step less function of the crane outreach. (Lifting capacity on outer
layer, full drum)
Lifting capacity, single line arrangement SWL 500 kN (50 t) at 35 m outreach
Lifting capacity, single line arrangement SWL 2500 kN (250 t) at 12.5 m outreach
Ship to ship capacity Derating curves will be issued
Subsea lift capacity Reduce SWL described above with the weight of
submerged rope and DAF due to hydrodynamic
forces and add buoyancy of the load.
Auto tension system (AT) High speed auto-tension function included
Auto tension force setting 0-250t, set from operator’s cabin
Emergency pay out function MOPS and AOPS
4.1.3 Remaining Hook Pull Force vs. Depth
Depth (m) Remaining hook lifting
capacity (t)
Estimated deployment
capacity (dry t)
0 250 250
500 229 250
1000 207 234
1500 187 211
2000 165 186
2500 144 163
3000 123 152
Hydrodynamic forces etc. are not considered in this table.
Data used in table above:
Max hook pull 250 t
Wire diameter TBC 100 mm
Wire weight dry/wet 48.6/42.2 kg/m
Density of seawater 1025 Kg/m3
PROJECT DOCUMENT Page 12 of 20
No.HMC4240 LKO 250 t 3000 m
Remaining hook lifting capacity is the SWL in air from deck which is reduced by the weight of the paid
out wire at the operational depth. No buoyancy effect acting on the lifted object is included.
Estimated deployment capacity (EDC) is the remaining hook lifting capacity with the buoyancy of the
lifted object included. The lifted object is estimated to have a density of 7.85t/m3, therefore by using the
following formula we can calculate the estimated deployment capacity (or dry weight of the lifted object).
4.1.4 Active Heave Compensation System, (AHC/AT)
Max top wire tension, during AHC operation 2500 kN (250 t single line)
Reference system MRU in crane control system
Performance case AHC/AT, 0-50% of max SWL
Heave period 10 sec.
Nominal displacement +/- 3.2 m (6.4 m total motion)
Max compensation speed 120 m/min (2.0 m/s)
Performance case AHC/AT, 0-100% of max SWL
Heave period 12 sec.
Nominal displacement +/-1.9 m (3.8 m total motion)
Max compensation speed 60 m/min (1.0 m/s)
Re-generation of power to the electric system: (Semi-active system only)
Estimated re-generated power 600 kW
The electrical systems onboard should have the ability to withstand possible re-generated power from main
motors. The estimated re-generated power is calculated as an approximate max. value that occurs during the
lowering of max. load, and as a peak value in AHC/AT at max. load and speed.
PROJECT DOCUMENT Page 13 of 20
No.HMC4240 LKO 250 t 3000 m
4.2 Technical Specification
4.2.1 Design Data
1. Type of operation General load handling up to 250t in harbour and
offshore.
Subsea load handling, both deployment and
retrieval.
2. Area classification Safe zone
3. Environment Harsh environment / Temperate
4. Wind speed in boom stored/out of service 44 m/s
5. Wind speed operational 25 m/s
6. Design temperature (°Celsius) -20 °C to + 45 °C
7. List + Trim 5° + 2°
8. Design life 20 years
9. Safety devices - Emergency stop
- Spring centred control valves
- Overload protection
- Hook stop system
- Luffing cylinder limitation
- Load holding brakes
- Fail safe brakes
10. Design code DNV Rules for lifting appliances
11. Additional rules Lifting Appliances No 2.22 June 2013
12. Certifying authority DNV 4.2.2 Approximate Weights
1. Total weight, incl. wire 560t 4.2.3 Power Consumption
1. Power supply connection location To terminals inside pedestal
2. Main power supply 690V/60Hz/3ph
3. Required power, main motors 3x870 kW S6-40%
4. Required power, aux motors 61 kW S6-40%
5. Required power, aux motors 63 kW S1-100% 6. Required power, emergency system 75 kW S1-100%
7. Secondary power supply 230V/60Hz/1ph
8. Required power, control system, lights etc. 5 kW 4.2.4 Main Crane Data
1. Max reach, main hook 35 m from centre of pedestal
2. Max reach, whip line 36 m from centre of pedestal 3. Min reach 8 m from centre of pedestal
4. Pedestal height 5 m
5. Slewing speed 0-1rpm (Rmin-15m), 0-0.5 rpm (20m-Rmax)
6. Slewing angle 360 degrees- endless
7. Dynamic factor ψ = 1,3 for working load (WL) 10 kN<WL<2 500
kN and ψ = 1,1 for WL > 5 000kN.
PROJECT DOCUMENT Page 14 of 20
No.HMC4240 LKO 250 t 3000 m
Linear interpolation shall be used for intermediate
values of W between 2 500kN and 5 000kN.
For the slew system/foundation an extra safety
factor (SF1) is required when the operator cabin is
attached above the slew bearing.
SF1 = 1,3 for WL < 2 500 kN
SF1 = 1,1 for WL ≥ 2 500 kN
SF1 is a global safety factor which shall be applied
to all load components. 4.2.5 Main Winch Data
1. Hook travel distance 3000 meters
2. Wire type and dimension OD Ø100mm, galvanized, non rotating type
3. Normal mode, single line, 0-62.5t Max speed = 0-80 m/min, step less variable
(Nominal speed = 0-40 m/min)
4. Normal mode, single line, 0-125t Max speed = 0-40 m/min, step less variable
(Nominal speed = 0-20 m/min)
5. Normal mode, single line, 0-250t Max speed = 0-20 m/min, step less variable
(Nominal speed = 0-10 m/min) 4.2.6 Surface Treatment
1.
Surface treatment The external surfaces are sandblasted to Sa 2,5
• International Interspec System 1, or equivalent for general purpose.
• International Interspec System 6, for application on non-ferrous metals.
• International Interspec for Hydraulic Tank, for oil reservoir on the inside.
2. Colour White (RAL 9010) 4.2.7 Hydraulic Oil Piping
1. Pipes ISO 8434-1 (DIN 2353) standards
2. Pipes, Nuts and Locking Rings Stainless steel AISI 316
3. External pipe material: OD up to Ø50mm AISI 316 stainless steel
4. External pipe material: OD above Ø50mm Mild steel
5. Fittings ISO 8434-1 (DIN 2353) el. zinc coated steel
6. Fitting system <Ø38mm pipes Walform
DIN 2353
Body- yellow chromate steel
7. Fitting system >Ø38mm pipes Flange syst.
SAE J518 and ISO 6164
Yellow chromate steel
8. Hoses EN 856 (SAR R13/12)/EN 857 (SAE R2T)
9. Hose couplings Regular steel coated with ”Tuff Coat”
10. Non corrosive protection for couplings, fittings Denso tape
PROJECT DOCUMENT Page 15 of 20
No.HMC4240 LKO 250 t 3000 m
5 OPTIONS
5.1 List of Options
NUMBER CODE/TYPE OPTION INCLUDED NOT
INCLUDED
1. AO820T150 Whip winch X
2. AO9.1 Camera at boom tip X
3. AO11.1 Power management system X
4. AO12.2 Bridge monitor X
5. AO14.3 ABS certification for large cranes X
6. AO15.1 2 x Tugger winch (4t) X
7. AO15.2 2 x Tugger winch (10t) X
8. AO17.1 Personnel lift, whip line X
9. AO19.2 Water cooling, pedestal X
10. AO22.2 Bolted counter foundation, incl. bolt set
HMC 4240.
X
11. AO23.3 Arctic package, large cranes X
12. AO12.5 Wire Rope integrity calculator X
13. AO12.6 Load calculator X
14. AO820T2000AHC 20t Whip winch, AHC, 2000m X
15. Transportation Crib excl Crane Pedestal X
PROJECT DOCUMENT Page 16 of 20
No.HMC4240 LKO 250 t 3000 m
5.2 Description of Options
5.2.1 Whip Winch
A complete whip line winch mounted on the main jib. Separate wire sheave bracket on the knuckle jib.
Whip winch type AO020T150
Safe working load (SWL) 200 kN (20 t)
Hook travel 150 m
Hoisting speed 60 m/min
Weight, incl. wire sheaves and wire 15 t (approximately)
Spooling device NA
Personnel lift 5t
Max top wire tension, during AHC operation NA
Reference system NA
5.2.2 Power Management System
Code: AO11.1
A crane control system with interface for control of power management.
5.2.3 Tugger Winches
Code: AO15.2
2 x 10t hydraulic tugger winches, side-tiltable +/- 15 degrees. Both winches are foot operated from crane
cabin. Winches are located on side of crane king, just below main jib cylinders. The feature of constant
tension is included and adjustable range is 0-10t.
5.2.4 Personnel Lift
Code: AO17.1
The crane and control system is designed for personnel lifting. Personnel lift mode ensures two means of
braking: lift safety factor of 10, deadhip retrieval and blocking of AHC/AT and emergency release functions.
5.2.5 Bolted Counter Foundation Incl. Bolt Set HMC 4240 – ECO specification
Code: AO22.2
The lower end of the crane foundation is designed and manufactured with a flange for bolting to a counter
flange on the deck mounted pedestal. The deck mounted pedestal must be at least 400mm above the deck
surface to provide a sufficient workspace for the torque tools. Bolts are supplied by Cargotec. The
counterflanges follows the ECO specification with inner flanges.
5.2.6 Transportation Crib
Transportation Crib excluding Crane Pedestal.
PROJECT DOCUMENT Page 17 of 20
No.HMC4240 LKO 250 t 3000 m
Remaining hook pull force vs. depth
Depth (m) Remaining hook lifting
capacity (t)
Estimated deployment
capacity (dry t)
0 20.0 20.0
500 17.8 20.0
1000 15.7 17.7
1500 13.5 15.3
2000 11.4 12.8
2500 9.2 10.4
3000 7.0 8.0
3500 5.0 6.0
Hydrodynamic forces etc. are not considered in this table.
Data used in table above:
Max hook pull 20 t
Wire diameter 32 mm
Wire weight dry/wet 4.97/4.32 kg/m
Density of seawater 1025 Kg/m3
Remaining hook lifting capacity is the SWL in air from deck which is reduced by the weight of the paid
out wire at the operational depth. No buoyancy effect acting on the lifted object is included.
Estimated deployment capacity (EDC) is the remaining hook lifting capacity with the buoyancy of the
lifted object included. The lifted object is estimated to have a density of 7.85t/m3, therefore by using the
following formula we can calculate the estimated deployment capacity (or dry weight of the lifted object).
PROJECT DOCUMENT Page 18 of 20
No.HMC4240 LKO 250 t 3000 m
6 TESTING AND INSTALLATION
6.1 Installation and Start-up
Installation shall be performed onboard at Cargotec facilities in Kristiansand or at the designated shipyard for
installation of equipment below deck.
This is not included in the total project cost. Cargotec’s service rates apply for this option.
Prerequisites:
• Anti-heeling and ballast systems must be operational before start-up. When power is available to electric motors, start-up procedures may commence.
• At Macgregor facilities - Free access for vessel during installation period
• At designated yard - Free access for vessel during installation period
Cargotec Norway AS provides:
• One (1) supervisor during the installation of the crane.
• Necessary personnel and equipment needed to perform the installation and start-up.
The customer provides:
• Other necessary personnel and equipment to assist in the installation and start-up.
6.2 HAT (Harbour Acceptance Test)
HAT can be performed at Macgregor Facilities in Kristiansand.
This is not included in the total project cost. Macgregor’s service rates apply for this option.
Function and over load test according to HAT procedure.
Cargotec Norway AS provides:
• Two (2) service engineers during the HAT test.
• Certified ILO crane competent person.
• Test loads.
• Class representative, if needed.
The customer provides:
• A certified crane operator.
• Other necessary personnel and equipment.
PROJECT DOCUMENT Page 19 of 20
No.HMC4240 LKO 250 t 3000 m
6.3 SAT (Sea Acceptance Test)
SAT must be performed offshore a vessel.
(Tuning of AHC/Auto tension at sea)
This is not included in the total project cost. Macgregor’s service rates apply for this option.
Macgregor Norway AS provides:
• Necessary service engineers during the test.
• Test loads.
The customer provides:
• A certified crane operator.
• Other necessary personnel and equipment.
Acceptable weather conditions are needed to complete the test. Macgregor Norway AS reserves the right to
postpone the test if the weather conditions are unacceptable
6.4 Installation Times
250T AHC crane:
Installation, testing and sea trial of crane at Macgregor Yard in Kristiansand is expected to take 3-4 weeks.
PROJECT DOCUMENT Page 20 of 20
No.HMC4240 LKO 250 t 3000 m
7 MISCELLANEOUS INFORMATION
The delivery of the crane includes:
DNV approval of crane pedestal:
Design review and manufacturing control of the crane pedestal.
FAT:
FAT test carried out at Macgregor’s facilities. FAT invitation to be sent to the customer.
Documentation:
Crane load diagrams:
Full set of load diagrams covering normal offshore operation modes. The diagrams cover internal lifting on
the vessel, ship to ship operation and ship to sea bed operations.
The diagrams will be calculated and included in the user manual. The diagrams will also be used as a basis
for programming the crane computer in the cabin.
Derating table; Ship to ship operation:
Derating table for ship to ship lifting is included in scope. The table specifies the crane’s capacity during the
loading/offloading operations between a mother vessel and another vessel in a specified sea state condition.
The key element in these calculations is the expected max relative speed between the crane hook and the
load at time of pick up.
User Manual
A part of the delivery is a standard documentation package (User Manual). Contains all required user
information such as installation, first start up, operation, maintenance and preservation, including all required
drawings, diagrams and certificates.
Language: English
Copies: Three hard copies.
For additional documents or copies contact the sales department.