Pushing the limits for wind tower construction: design matters

By Heinz-Gert Kessel11 August 2021

Pushing the limits for wind tower construction. Part two of the feature on tower cranes used for this niche application from contributor Heinz-Gert Kessel.

Making greater use of wind energy to generate electricity helps reduce carbon dioxide emission into the atmosphere. Developers are constantly striving to increase efficiency and therefore the viability of wind turbines as a means of production. Tower cranes can be a positive contributor helping to achieve this.

This second part of the report is a market overview of recently developed tower cranes for wind turbine installation. All of the cranes discussed are of the luffing jib type.

As demonstrated by the number of specialized cranes delivered for wind turbine installation, Krøll is the most experienced manufacturer after Liebherr. The Denmark-based manufacturer’s original K1500L design was quickly updated. It became the K1650L crane, which offers easier erection and transportation.

Two Krøll K1650Ls Krøll K1650L is an update of the K1500L design, making for easier erection and transportation

Most Chinese wind turbine installation tower cranes for their home market can be traced back to the basic Krøll design features as follows:

  • The luffing winch at the back of the A-frame allows luffing cables to remain installed to reduce rigging time;

  • A hydraulic bolted split deck design reduces lifting weight for installation, especially as the slewing unit remains connected to the slew ring support;

  • A foldable boom tip section increases clearance from the load at high under hook positions;

  • A separate winch for hoisting tower sections when climbing means that the boom only balances the crane at a fixed angle. New mast sections can be inserted without having to connect the slewing ring support, which saves time;

  • Krøll maintains the same outer size of the tower system from the base to the top, so the heavy upper can be installed at low height. The 3.3 x 3.3 metre monobloc tower system allows easy transport. Its 7.80 metre sections save time as there are fewer joints than the common 4 metre lengths;

  • The tower connecting bolts are stored onboard for easy fitting at each corner. Tubular tower section diagonals and legs reduce wind resistance for improved free-standing capacity;

  • The crane can be parked at a 12.5 metre radius where it can also weathervane. The 8.7 metre tail radius allows close rigging to the turbine tower, and;

  • Each corner of the undercarriage has integrated hydraulics for levelling the crane.

Capacity of the K1650L is 135 tonnes at a 12.5 metre radius with 179.5 metre free standing hook height.

XCMG XGL1800 XCMG XGL1800 can lift 136 tonnes to 170m free standing on a 3.5m x 3.5m monoblock tower system

The new XCMG XGL1800 follows similar design principles and offers 136 tonnes at 13 metres and 170 metres free standing hook height. Another similar design is the Jinli Heavy Industry JLD1700. It is claimed to lift 136 tonnes at 183.5 metres free standing.

Huadian Machinery Research Institute entered the market in August 2020 with the similar FZQ1650. It claimed a 180 metre free standing hook height with a 135 tonne capacity and has a larger tower system with shorter sections than the others.

Chinese heavy lift luffers developed for coal power station boiler house construction have also been put on wind work.

Without modification a 150 tonne FHFQ1700 built by Finehope was used for turbines below 140 metres. A modified FZQ2400 with more freestanding capacity, thanks to a new wider tower system, was used to raise 2.5 MW turbines with 140 metre hub heights.

New Krøll
The design is finished for a Krøll K1850L providing a 193 metre free standing under hook height with 130 tonne load.

Also on the drawing board at Krøll is a compact, erection friendly, transport-optimised hydraulic luffer. It is in the 1,400 tonne-metre class with a capacity of 150 tonnes and 205.5 metre hook height. It combines features of ram luffing jib cranes from the offshore industry with a climbing tower.

Japanese manufacturer Kitagawa proposed in 2018 an improved version of the JCL1000NK, its largest climbing luffer. With a 33 tonne capacity at 29 metres radius, this allows erection of turbines with components up to 75 tonnes at 13 metres radius and a freestanding hook height of 110 metres to comply with strict Japanese earthquake regulations.

Improvements promised with the new JCW1100K in Kitagawa’s K Series are claimed as follows:

A compact and strong tower system climbable through the slewing ring, right from the base level. Two tower sections can be inserted at a time, forming a 15.2 metre unit for speedier climbing.

  • Automatic hoist rope fall switch mechanism to quickly change the number of falls;

  • Compact design, including the shortest tail radius in each crane class;

  • Reduced component weight for lower shipping cost, and;

  • Simplified rope reeving for shorter installation time.

Demand for a capacity of 140 tonnes to build current and future turbines in Japan saw Kitagawa test the largest heavy lift tower crane in Japan, the JCW1800K in May 2020. It offers a 140 metre freestanding hook height and lifts 140 tonnes at a 12.5 metre radius.

Under a lower earthquake resistance code of PGA 0.1G, freestanding height could be extended another 15.2 metres on the same 2.05 x 2.05 metre mast. On test with the 88.4 metre freestanding mast it showed a 1.4 metre deflection when lifting the full 140 tonnes at 12.5 metres radius.

The crane lends itself for most turbine installations and for infrastructure, industrial jobs or ultra-high skyscraper projects above 300 metres. The same basic crane can be transformed as follows:

  • JCW1400K with 70 tonnes capacity up to 20 metres radius on 4 falls and 30 tonnes for fast lifting on two falls;

  • JCW1600K lifting 95 tonnes to 17 metres radius on 6 falls or 30 tonnes for fast lifting in 2 fall mode;

  • JCW1800K with 140 tonnes capacity to a 12.5 metre radius on 8 falls, and 30 tonnes capacity for fast lifting in 2 fall mode, and;

  • JCW2000K with 100 tonne capacity to 24 metre radius on 6 falls, or 65 tonnes to 32 metres radius on 4 falls for general heavy construction.
JCW1800K The jib end section of the JCW1800K has a remote control switching mechanism to alter the number of falls

The JCW1400K to JCW1800K model range was developed with wind turbine installation in mind. They are supposed to be installed on a modular cruciform base of 16 x 16 metres or 19 x 19 metres, depending on the required free standing tower height.

There are 2.3 x 6 metre outrigger pads that carry standard mobile crane steel ballast slabs. For example, using the 10 tonne Liebherr LR 1400 or LTM 1450 ballast blocks reduces overall investment and transport cost.

Thanks to missing diagonals the basic installation height of the JCW1800K, with its A-frame, can be reduced to 39.4 metres, even with the 10 metre conical M72j base tower section to raise free standing tower height (made up of 2.49 x 2.49 metre sections) to 66.25 metres.

To achieve the maximum freestanding tower height of 91.45 metres one additional special 3.18 x 3.18 metre by 10 metre long base section is used, which cannot be climbed. Even then the Kitagawa’s A-frame head installation height is just 49.4 metres.

Outside Japan, where there is less earthquake risk, there would be no need for the extra-large base tower sections. Initial installation height before climbing is then reduced by 20 metres.

The heaviest component on the JCW1800K is the pre-installed winch unit weighing 40 tonnes. It can be lifted into place using a 220 tonne capacity telescopic assist crane. After two days of erection time the tower crane can be ready for work.

Thanks to the open A-frame design and its typically Japanese climbing system, the complete crane upper can move down the crane tower and be secured to withstand typhoons.

Jib lengths on the JCW cranes can be adapted by adding sections from 42 to 51 to 60 metres. The jib head section is always the same so there are no extra costs to transform the crane from wind turbine construction to a general construction crane.

For smaller wind turbines, where required capacity is under 100 tonnes, crane installation time can be reduced. With a 74.6 metre boom the hook height can be increased to 105 metres on just four tower sections.

A clear view of the turbine installation site is essential. With a saddle jib crane the operator always has a bird’s view.

A benefit of a luffing jib design is reduced tower height. In addition to a suitable load view camera system, a special large cabin roof window should be considered. This is because, unlike general construction work, most of the critical work is done above slewing ring level.

Strict Japanese road regulations mean none of the JCW crane components are wider than 3.18 metres, taller than 3.53 metres, longer than 12 metres or heavier than 40 tonnes.

Time-saving features include a cruciform base, folding A-frame design and pre-reeving assist winch with fibre pilot rope for fast rope installation. No need for ballast on the upper crane further speeds up installation time. The crane can be installed at a 13 metre radius from the turbine and still be set to free-slew, thanks to its wide machinery deck and the 8m tail swing radius.

A JCW1400K version with 70 tonnes capacity at 20 metres was the first tower crane in Japan employed for wind turbine installation, this came into use in late 2020. It raised 120 metre tall, 2 MW wind turbines in the ecologically sensitive hilly woodlands of the Yamagata Prefecture.

Click here to read the first half of the article | An overview of requirements for the next development of onshore wind turbines

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