TAKING ADVANTAGE OF LARGE VOLUMES OF DATA
The more prominent challenges within the energy industry is to prove satisfactory levels of accessibility and the reliability in the output of energy
Governments and enterprises around the world are becoming increasingly alerted to the effects of the continuing use of fossil fuels in our societies. Ocean-based energy sources including wave and tidal-based technologies, seem to be the most environmentally friendly and sustainable energy alternatives to turn to. To be successful in an increasingly competitive market, manufacturers of these technologies have to overcome a multitude of challenges.
A possible solution to achieving a basis for measuring these performance factors is the collection of performance
Learning from other industries In the automotive industry manufacturers have for many
data, diagnostic data and statistics. Since the volumes of data collected from equipment using telematics services can be very high, it is important to design a system and framework in a way that is highly scalable and efficient.
The challenge in the design of the system is to ensure high enough reliability and cost-efficiency to motivate the manufacturer and to make the system a part of knowledge-driven product development, since the source of the data collected comes from equipment in work and online. Additional benefits for the system owner is the possibility to monitor the condition of the equipment and predict maintenance intervals based on real data as a contrast to theoretical facts.
SPOTLIGHT ON SWEDEN
years embraced the possibilities of the connected car for using Big Data technologies for conducting intensive knowledge-driven product development. The knowledge from the automotive industry is applicable to the problems facing the offshore energy product manufacturers. Tools from the Hadoop portfolio are available and can be adopted to be part of the solution.
Knowledge driven product development Alkit Communications AB is an R&D company in ICT, based on the west coast of Sweden. The company is heavily involved in the development of a platform for knowledge-driven product development for the Volvo Car Corporation.
The company is a partner in the Ocean Era Net project “RiaSor II” and is also a partner in the Offshore West Consortium and the West Sweden SubSea network.
A pioneer in renewable energy solutions
The development of marine energy is an important factor when it comes to minimising the environmental impact. Bosch Rexroth provides solutions that use the motion energy found in waves and currents.
The global company Bosch Rexroth has several production and customising sites in Sweden. The company is a specialist at various drive technologies.
For wave energy plants hydraulics is the key factor. With it comes the possibility to transform linear oscillation into a controlled rotation (for driving a generator) efficiently and with a minimum on mechanics. In addition very high transmission ratios can be achieved in an economical way, i.e. the conversion of high forces respectively torques at the input of a wave energy converter (WEC) into considerably lower torques at high rotational speeds at the generator shaft.
The widely known force density of hydraulics allows a very compact design. The small inertial forces and good damping properties typical for hydraulics ease the handling with a highly varying power input.
The maximum forces that occur during extreme situations can be kept away from sensitive parts of the device with the help of hydraulic elements.
“At wave energy plants all over the world, Bosch Rexroth’s solutions are a contributing factor of their efficiency leading the way to sustainable energy production,” says Thomas Ekfeldt, Engineering Manager at Bosch Rexroth in the Nordic Region.
POWER PLANTS WITH MORE EFFICIENCY Bosch Rexroth also provide solutions for tidal- and continuous current power plants. These have several advantages
compared to wind turbines.
“For example it is possible without costly and comparably fault-prone power electronics and mechanical gearbox, to optimally adapt the rotor speed to the current water flow velocity. Additionally, due to a low moment of inertia and good damping properties of a hydrostatic transmission, this allows to filter load peaks close to their origin,” concludes Thomas.
By use of the distributed design of the hydraulics it is possible to reduce the number of components under water. Merely the robust rotor pump for generating hydraulic flow is placed in direct proximity of the rotor, whereas the hydro motor generator set can be installed in a machine house easier to access.
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