Electrical Power & Protection


Using wind energy efficiently

March 2014 Electrical Power & Protection

To achieve change in energy policy, innovative technology for power generation is needed. Unfortunately, many alternative concepts are based on inventions that are more reminiscent of the steam engine era than of modern solutions. Without a doubt, this technology also works. However, like the steam locomotive, it rather contradicts an ecological approach.

A great amount of material is needed to construct windmills, since the rotor and the heavy generator act on the tower with bending moments and with enormous static loads. Overload events complicate the dilemma: a tower cannot simply be retracted in the event of a hurricane. To dissipate the forces, massive concrete or pile foundations, which are a major cost-factor and require a large amount of energy, are therefore needed. With respect to their size and expense, the subterranean structures look more like the 2 m thick steel domes of nuclear reactors than ecological structures. Off the coast, the manufacture of the foundations is particularly complex and expensive, and dismantling after use is rather doubtful.

Today, ecologically-generated power is a sought-after source of energy. But, how is ‘ecological’ defined? Does it refer only to the generation of power, or does the manufacture of the turbine flow into the calculation? Cement and steel plants are front and foremost when it comes to industrial energy consumption. Large foundations and giant steel towers have an ecological cost even before the first kWh flows. The EnerKite Company is therefore taking a new approach: it is using slim solutions that concentrate on the key components needed to utilise wind power. A steerable kite transfers the energy of the wind to a generator via a rope. A fully automatic control holds the functional component, ie, the kite, at high altitude in the best wind window – this ensures high efficiency. To be able to respond quickly to wind gusts, drives from Faulhaber aid in controlling the kite.

While the kites operate according to an ancient principle for utilising the wind, the method is refined through the use of modern material and control technology. In order to produce power, a generator is needed in which a magnetic field rotates in a coil. Conventionally, the rotational movement is transferred via heavy, rigid rods and shafts. The developers from Berlin instead use lightweight, high-performance ropes made of heavy-duty fibres for power transmission. Peter Kövesdi, design engineer and specialist for wind systems at EnerKite, offers a comparison: “Just like you can use thin spokes placed under tension to make a wheel that uses much less material than one which is solid, ropes can be used to transfer large forces with very little material.”

Focus on efficiency

With the EnerKite, a parafoil is brought to a height of approximately 100 m. There, unlike on the ground, the wind blows constantly, largely free of turbulence and at higher speed. One load rope and two control ropes transfer the pulling force of the kite to three generator drums. The kite is then pulled by the wind automatically from 100 m to 300 m, thereby generating the effective power. Once it has reached the maximum altitude, the kite is controlled in such a way so as to turn it out of the wind and the ropes are quickly drawn in. Very little energy is necessary for this purpose. Afterwards, the kite begins to climb, thereby generating power again.

Kövesdi compares the aerodynamic properties of the kite as follows: “The advantage of the kite over windmills is the better utilisation of the wind, as there is no turbulence caused by upwind rotor blades or by the tower. The kite is also always at an altitude in excess of 100 m and not, like the rotors, intermittently closer to the ground and intermittently higher than the tower. Thus, the technology can be designed for more uniform loading; in the event of a storm, the kite can be drawn in. This, too, reduces construction costs. The slow movement of the rope while the kite is close to the ground prevents collisions with birds, and the soft parafoil eliminates the risk of falling ice, as ice accumulations quickly flake off.”

At sea, simple anchor buoys suffice for securing the generator pontoon; on land the turbine can be both stationary as well as mobile. Large access aisles for giant rotor blades and tower elements are not necessary. A kite can simply be rolled up like a tent; the same applies to the ropes.

Exact control in the wind

In addition to the towing rope, two so-called steering ropes are attached to the kite. In the language of kite experts, the EnerKite is a three-liner. The fully automatic control was one of the main obstacles to making the new technology suitable for practical use. The experts now have a handle on the programming, but the best control is only as good as the executing actuator permits. Here, the microdrives from Faulhaber come into play. Ropes can only be precisely wound on rope drums while under tension. Since, the wind is a dynamic system with short term fluctuations, so-called negative gusts can allow the control rope to sag at short notice. This is not a problem for the flight characteristics, but a no-go for the rope drums. The developers therefore placed a rope tensioner in front of the winding drum that always ensures a defined rope tension at the drum. At winding speeds of 20 to 30 m/s, the tension motor needs to operate at speeds that can exceed 10 000 rpm and must be able to respond to demands for changes in speed. An electronically commutated standard motor with an output power of approximately 200 W was able to deliver the required performance. The motor is connected to a robust planetary gear-head and the high torque to maintain pressure is thus ensured. A motion controller matched to the motors relieves the EnerKite control of motor management and allows the dynamics of the microdrives to be used optimally.

With this application, the motto is ‘small but efficient’, as the microdrives perform a substantial part of the work in controlling the new wind power generator. They ensure that the kite can respond quickly to changes in the wind and that the new material saving system safely functions in practical operation. Drives right off the shelf could be used to implement the specifications, and in difficult situations, small changes to components facilitate optimum operation. The use of microdrives is limited more by imagination than by technology. The application described here illustrates practically that even unusual ideas can be implemented.

For more information contact David Horne, Horne Technologies, +27 (0)76 563 2084, [email protected], www.hornet.cc



Credit(s)



Share this article:
Share via emailShare via LinkedInPrint this page

Further reading:

Solar energy reimagined
Electrical Power & Protection
As the global energy sector races to meet net-zero commitments, utility-scale solar is undergoing a fundamental transformation. No longer defined by megawatt capacity alone, solar projects are now being evaluated on their ability to deliver dispatchable power, enhance grid stability, and provide critical ancillary services.

Read more...
Schneider launches new Breaker Status and Communication Module
Schneider Electric South Africa Electrical Power & Protection
Schneider Electric has launched its new Breaker Status and Communication Module Modbus SL/ULP, which delivers enhanced performance, improved connectivity and simplified integration for power distribution systems.

Read more...
Battery energy storage is critical to stabilise SA’s grid
Electrical Power & Protection
As the global energy transition accelerates, South Africa is quietly becoming a major player in one of the sector’s fastest-growing energy segments: battery energy storage systems.

Read more...
Reliable redundancy with the Mibbo
Conical Technologies Electrical Power & Protection
In industrial automation and control systems, uninterrupted power isn’t a luxury, it’s essential. The Mibbo M3DN Series Redundant Module steps in as the perfect solution when you need reliable 24 V DC power without the risk of single-point failure

Read more...
Rugged, industrial-Grade DIN rail
Conical Technologies Electrical Power & Protection
The Mibbo MTR960W from Conical Technologies is a high-powered, compact and reliable industrial power supply. It delivers a solid 960 watts of output power at 24 or 48?V DC, and is reliable and cost-effective.

Read more...
Schneider Electric’s microgrid enables optimised energy operations
Schneider Electric South Africa Electrical Power & Protection
Schneider Electric has launched its EcoStruxure Microgrid Flex product.

Read more...
Energy management pays off
Electrical Power & Protection
Onsite energy utilities such as boilers must be independently managed to achieve meaningful performance outcomes.

Read more...
Integration of power and energy management with industrial
Schneider Electric South Africa Electrical Power & Protection
Water and power management form the backbone of society and the country’s industrial landscape. With infrastructure challenges, stricter environmental regulations and the need for greater operational efficiency, water and wastewater operators need to optimise their systems. This is where the integration of power and energy management and industrial automation can alleviate some of these operational challenges.

Read more...
Maintenance and health of battery storage systems
Comtest Electrical Power & Protection
How to maintain batteries.

Read more...
Software for designing high-tech
Electrical Power & Protection
Siemens Digital Industries Software has announced that Arc Boat Company (Arc), a startup on a mission to electrify the marine industry, has adopted the Siemens Xcelerator portfolio of industry software to design and manufacture their high-performance, fully electric boats.

Read more...









While every effort has been made to ensure the accuracy of the information contained herein, the publisher and its agents cannot be held responsible for any errors contained, or any loss incurred as a result. Articles published do not necessarily reflect the views of the publishers. The editor reserves the right to alter or cut copy. Articles submitted are deemed to have been cleared for publication. Advertisements and company contact details are published as provided by the advertiser. Technews Publishing (Pty) Ltd cannot be held responsible for the accuracy or veracity of supplied material.




© Technews Publishing (Pty) Ltd | All Rights Reserved