Practical experience has shown that there is still considerable potential for reducing the operating costs of existing systems in primary industry. Particularly on continuous-flow machines such as pumps and compressors that operate at partial load, changing to high-efficiency motors and variable-speed drives can reduce energy consumption by as much as 50 %.

The payback period for a frequency converter can be as short as a few months. At ACHEMA 2009 which will take place from 11-15 May in Frankfurt am Main manufacturers of pumps, compressors and fittings will be the largest contingent of exhibitors once more. 950 from 4,000 exhibitors will be from this sector. For them and the 180,000 expected visitors surely energy efficiency will be one of the main themes again this year. Solutions that improve availability will also have top priority.

In response to rapidly increasing energy costs, more and more electronic components and sensors are being installed on rotating equipment (pumps, compressors, fans, etc.). Pumps in particular have evolved into mechatronic systems. Control software which is stored on the chips can be modified as needed to meet the specific needs of the customer or application.

For example, frequency converters are normally used to reduce pump speed so that flow or pressure matches actual demand, but the Danish pump manufacturer Grundfos uses them to increase pump speed as necessary. In supersynchronous mode under software control, the motor speeds up to an amazing 5800 min-1. At these speeds, pumps do not have to be very large to generate a lot of power (remember the affinity law: doubling the speed increases the pressure by a factor of four) and equipment manufacturers can save space.

The German pump manufacturer Wilo SE is taking a new approach, and the company has announced a paradigm change in heating systems. The central pump will be eliminated, and a mini pump will be installed on each radiator instead. Distributed mini pumps could be a viable alternative in other applications as well. The German KSB AG has added mini pumps to its portfolio in response to demand in the microprocess industry for centrifugal process pumps with a flow volume of only a few milliliters per hour.
At the other end of the scale, customers are continually pushing the capacity envelope in power generation applications and in production of basic chemicals at world-scale plants. The Sulzer AG (Switzerland) makes feedwater pumps with drives rated at an incredible 50 MW!

Functionality and availability are the critical factors
Regardless of whether the pumps are in the mini or maxi range, users are mainly interested in three things: rotating equipment has to offer the right functionality for the application, it has to deliver high availability and the costs must be as low as possible.

It is up to the individual manufacturer to figure out how to provide all three of these deliverables at the same time. Exotic solutions are probably not the best choice. Users in the chemical industry and particularly in the pharmaceutical industry tend to make conservative choices when they select equipment that plays a central role in the process such as pumps and compressors. A proven track record is more assuring than abstract claims.

How can manufacturers improve equipment availability? Besides optimizing materials and introducing new material combinations, producers continue to improve production quality and develop increasingly sophisticated early failure detection systems, because in the process industry, it is absolutely essential that the pumps and compressors keep running. Before looking at anything else, process engineers want to be sure that the equipment delivers high availability. However because users and maintenance teams are aware that moving mechanical parts are subject to wear (even if high-grade, durable parts are designed into the equipment), they rely on early failure detection features to flag problems before availability starts to degrade.

The solution is to detect degradation before major problems occur, and the correct interpretation of sensor signals plays a major role in the detection process.

ReMain: Reliability Centered Maintenance
Which signals provide an early indication of trouble? Researchers in the industrial and academic communities are investing a lot of effort in the development of intelligent pump diagnostic systems. The fact that companies from outside the industry offer special diagnostic systems for pumps is an indication of the perceived market potential. The systems use data from vibration, pressure, temperature or motor current sensors to assess process conditions and the current state of the pump.
However, none of the diagnostics systems which are currently available on the market is capable of predicting the remaining life of critical components. Existing predictive maintenance systems are simply unable to provide this information.

The ReMain project (Reliability Centered Maintenance) was launched to investigate techniques for predicting the remaining life of a pump. A special sensor set will be installed by 8 partners from industry and research and 14 further participating companies on 100 pumps which are used in production at Evonik Stockhausen to collect data which will then be summarized and analyzed.

The success of the ReMain project depends on having a good set of data for the models. The predictive failure model will be derived from a physical knowledge base, and empirical information from field trials will then be used to optimize the model in an iterative process. Accelerated time tests will be conducted on test beds to simulate individual failure mechanisms and identify characteristic wear patterns. Mutual interactions will be reflected in the final model when the two models are combined. The next step will be to make the technique available for online use and validate the model in practical application. At the same time, the new predictive tool is integrated into the maintenance process and cost effectiveness can be assessed.

The approach has enormous potential:

• Elimination of redundant pumps in the chemical industry alone would reduce annual investment costs in Germany by 9 %, which is equivalent to savings of 500 million euros.


• 25 % reduction in failures. This would save more than 16 million euros alone on the 100,000 pumps which are installed within the extended scope of the ReMain working group (and this figure does not even include the cost of production downtime!).


• Avoidance of environmental damage caused by cleaning, disposal and contaminants that escape when faults occur.

• low vacuum: 103 to 1 mbar (e.g. for vacuum packing)


• medium vacuum: 1 to 10–3 mbar (e.g. for decorative finishes)


• high vacuum: 10–3 to 10–7 mbar (e.g. for thin-film solar systems and environmental analysis equipment)


• ultra high vacuum: 10–7 to 10–12 mbar (e.g. for space simulation or scientific research).