Control systems, together with remote monitoring systems, play a vital role in ensuring the safe and smooth operation of boilers. Commercial director of Associated Energy Services (AES), Dennis Williams says that although these systems operate independently, they combine to provide important technical and operational insights. Control systems ensure stable operation within dynamic systems and direct activities. AES’s Remote Monitoring System (RMS) is a user interface that records, transmits and stores data from boilers for user analysis. The generation and use of steam from a boiler is a potentially dangerous activity, so suitable care, skill and caution should be exercised. AES has over 25 years of operations and maintenance experience, and also ISO certifications covering occupational health and safety and the environment.
The same goes for downtime. “Every input can have an impact on operations, so data is critical, from the change in flue gas temperature to the variations in fan current draw. After an incident, the aim is to understand the root cause, and prevent it from recurring,” he adds.
Steam pressure management
AES utilises its RMS on nearly all client sites. Each user has a unique steam demand profile, which is determined by the client’s particular operations.
Williams explains that RMS enables clients to get a full view of operations. Unlike electricity, which is supplied instantaneously, and allows for very effective load following, there is an inherent delay in steam flow. A mismatch in steam demand versus supply manifests in a change in the steam system pressure. If less steam is generated and supplied than is demanded by the production process, then the steam pressure will drop. A better control system with an advanced control philosophy will allow the boiler system to react quicker and with better combustion. This will supply the steam timeously, maintaining steam pressure, while also achieving efficient use of fuel.
If multiple boilers work together to meet the site steam demand, a strategy is needed to coordinate these to form a balanced system. Although control systems are required for every boiler, and manual intervention can be impractical, unsafe and illegal, the complexity and sophistication of control systems varies.
He maintains that a very stable, flat and consistent steam demand profile using a very uniform and stable fuel could achieve good efficiencies and steam pressure management with a simple control system. However, when steam demand fluctuates massively, and if fuel is highly variable and there are frequent equipment changes, a sophisticated control system allows the boiler to manage this better. Examples are food production facilities with multiple operating lines, beverage production facilities and batch manufacturing.
“Control is about minimising the variation between ideal operating parameters such as percentage excess air, fuel delivery rate, feedwater temperature and flow, and the actual operating parameters achieved under operational loads. This ‘delta’ variance is essentially a measure of how far away from ideal operating conditions the boiler is. Inefficiencies need to be minimised to maximise stability of steam pressure and optimise combustion to minimise emissions,” Williams continues.
Steaming into the future
In older control systems, mechanical drives and linkages positioned control devices such as air or gas line control dampers, allowing for automation of flows and inputs. Latterly, digitisation of the overall control system has allowed for far more sophisticated boiler control and management.
“More accurate and faster controls could account for real-time changes to optimise system operation. On older mechanical control systems, there was often mechanical drift on control linkages that needed to be frequently checked and reset. In addition, changes in the boiler plant such as tube fouling could not be accounted for, whereas electronically controlled systems measure these and automatically make adjustments,” Williams explains. He cautions that on solid fuel boiler control systems, certain aspects cannot be effectively measured instantaneously with instrumentation, and skilled operators continue to be imperative.
Today, AES’s RMS enables alarms and notifications to be transmitted via sms, and even allows AES experts to view site operations data remotely and identify any actions which need to be taken. Furthermore, AES is continually expanding the capabilities of its systems. An example is the integration of stack camera feeds into the system to provide a record of emissions.
Williams observes that clients often have very sophisticated production management systems and visualisation tools recording and analysing production data on their plant, but rarely include the boiler plant in that system. AES’s RMS provides a system to ensure measurement, and even integrate the boilers into the wider production management system.
“We strongly recommend that all manufacturers maximise the use of control systems and remote monitoring system technology, as fuel costs, emissions controls ,and other pressures all benefit from better control, even on stable steam loads,” he says.
For more information contact AES,
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