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University of Auckland, New Zealand uses ADAM & IEC-61499 to test economic dispatch in distributed energy grids

2013/02/07

Market: Power & Energy
Application: Smart Grid Research
Product: ADAM-6600
Location: New Zealand
Customer: University of Auckland

Project Introduction:
Traditional electricity grids are pretty ‘dumb’, they continuously send out specific amounts of electricity until some engineers tweak that amount to meet the needs of the users. Smart grids, on the other hand are designed to monitor electrical supply and usage at any time, so they can adjust the creation and consumption of power, manage storage of surplus electricity, and so save energy, reduce waste and improve reliability of the power supply. If some of these functions are still in the future, researchers are already building smart grids in the laboratories.

Advantech integrates the advanced technologies of industrial computing, networking, data acquisition and automation, and provides solutions to implement real time monitoring control and data analysis of power generation, transmission, storage and distribution. Advantech works with the traditional power generators, such as fossil fuels, nuclear and renewable energies such as hydro, as well as distributed energy sources like solar, wind, gensets and geothermal which are often integrated into city grids.

System Requirements:
At the University of Auckland in New Zealand, Professor Valeriy Vyatkin and his team set about trying to find a solution to one of Smart Grids’ inherent problems, that is, economic dispatch. Economic dispatch is the allocation of demand to individual generating units on line to effect the most economical production of electricity, based on their actual or offered pricing. Nuclear, coal, gas, oil, wind, solar all have a unique cost based on their capital costs and their operating costs. Suppliers will offer energy on a daily basis to the deregulated markets, and distributors and wholesalers have to order it based on their estimations of usage. They then have to manage their supply and their demand to avoid penalties for over or under-usage, and they try to minimize load shedding, which is always possible but results in lost revenue and irate customers.

To implement economic dispatch, the eggheads at Auckland wrote an algorithm using the function block language of IEC 61499. This algorithm is set up in a number of intelligent “agents” each independently working towards the common objective - minimizing the total cost of operation of generators. The use of IEC 61499 enables system level design and testing of the entiresystem. The system level design simplifies distribution and deployment and allows for easy re-configurability and maintenance of multi-agent software. The developed industrial agentsare platform independent and interoperable.

To test this algorithm they programmed five Advantech ADAM-6600 pico-controllers each with an “agent” as if each was connected to a different type of power generator. The cost of generation from each agent is then monitored, and depending on the consumer demand a decision is made on sourcing.

System Diagram:

There are already more than a million ADAMs installed around the world, monitoring a huge range of devices; now, with the ADAM-6600, the information that they receive from these devices can be used to make decisions and takeactions – take control. Advantech is leading the development of low-cost, distributed control systems with its ADAM-6600 range of Ethernet-based, ARM Cortex powered pico-controllers. Each is programmed with the IEC 61499 control software, which enabled the team at Auckland to simply drop their function blocks onto the appropriate ADAM. The links between each ADAM were already programmed in the function blocks.

The latest technology enables a powerful but small controller to make many local decisions in real-time. Placing intelligent control systems at remote nodes in the network has many advantages, avoiding the problems of communication network breakdown, the inevitable latency, and of course the cost of a large, centralised system with all the problems associated with a too-big-to-fail single point. The inherent strength of a distributed energy supply is here enhanced with an inherently strong distributed control system.

Benefits:
With energy supply becoming ever more complex, all involved in the supply chain can take advantage of the latest technologies to deliver power in the most efficient manner. The research being carried out at Auckland University is an important step in that direction and by using AdvantechADAM-6600 distributed controller with IEC-61499 to test their theories their research can be tested using real-world devices.

The ADAM-6600 series product mentioned in article is exclusive for Europe, if you need any detailed information please call our toll free number 00800-2426-8080