Rheda-Wiedenbrueck
Efficient air for wastewater treatment plants
If modernisations in wastewater treatment plants are due, as a rule the permanently reducing limit values of ammonium, nitrate and phosphate are pushing the investment decisions. If it concerns the budget, in view of the climate protection and the finances it pays off to include the energy efficiency in the plans. In view of the fact that just the air supply of the aeration often accounts for more than 70 per cent of the operating costs in this field, it soon becomes clear why efficiency improvements pay off especially here - and this with high return on investment periods. This is exactly how wastewater treatment plant Rheda-Wiedenbrück (326,000 population equivalents) planned. They are currently testing a brand-new control concept for the AERZEN blower technology, the AERsmart control combination.
In 2013, the modernisation work of the wastewater plant began. Connected are the citizens of the Rheda-Wiedenbrück region as well as Germany’s largest pig slaughterhouse. A project objective was, to supply the biology more efficiently with air, by not only replacing old ventilation grids by new, but also installing these 30 cm deeper at the ground of the aeration basins. “In view of the surface of the six basins we could increase our processing volume by several hundred cubic metres”, explains wastewater manager Hendrik Wulfhorst. Subsequently, however, 30 cm space gained mean an increase of the system pressure of 30 mbar, which had to be considered accordingly concerning the design of the blower technology.
Before the modernisation of the plant, the biology had been run with a high excess of oxygen in the basins, in particular to cover safely the fluctuations concerning the entry values of the slaughterhouse. Finally, with the order to reduce the operating costs and the associated CO2-emission, a clear objective of the project was, to couple in future the aeration of the basins considerably more closely with the fluctuating wastewater load and the resulting oxygen consumption. This implied in the first step the needs-oriented speed control of the totally four blower units made by AERZEN.
More intelligent air supply
The setpoint values are generated by the PLC (programmable logic controller) from the data measured in the wastewater - mainly in the form of ammonium and nitrate concentrations. In addition, there is an intelligent control system of the diaphragm regulating valves. They close slowly, when the required oxygen saturation in the water of the corresponding basin has been achieved. To avoid that this closing leads to a higher pressure - and consequently resistance - in the pipe, in parallel, the PLC reduces the target pressure. “Otherwise we would destroy energy by means of the diaphragm regulating valves, as within a constant pressure regulation the blowers have to work against the pressure loss caused by the diaphragm regulating valves. With a sliding pressure control, we are now regulating considerably more intelligently and efficiently”, Markus Haverkamp, project engineer from the supporting planning company aquaconsult, makes clear. For the base load supply of the biology, forming alternately a circuit of ventilated and unventilated basins with three purification stages, the engineering office in Hanover instructed with planning and realisation selected among others a turbo blower made by AERZEN.
Turbo blower for the base load
The type AT 150-0.8S-G5 achieves an intake volume flow of 4,800 cubic metres per hour with a motor nominal power of 143 kW at an intake pressure of 1 bar and a final pressure up to 1.8 bar. For Cord Utermann, sales engineer at AERZEN, turbo blowers are classical representatives of energy-optimised base load machines which should run permanently for 24 hours within the nominal value parameters since then they operate at the highest economic efficiency. “As with almost any turbo technology, the energetic efficiency falls as soon as the machines are driven into the partial-load range”, explains Utermann. As a consequence, concepts are to be developed which care for the energy-efficient cleaning of dirt loads varying during the day from high to low. For an optimum of energy efficiency in a wastewater treatment plant, this approach means that the air requirement, exceeding the base load, has to be covered by displacement machines like positive displacement blowers and rotary lobe compressors. They are strong in high control ranges between 25% and 100% and have good efficiency, also in part-load operation. Therefore, two AERZEN packaged units type Delta Hybrid (D 62 S) and one Delta Blower (GM 80 L) are also part of the compound system in the wastewater treatment plant in Rheda-Wiedenbrück.
AERZEN has developed the AERsmart in order that this quartet does not only cover the necessary oxygen for the aeration tanks by a safe process but also generates the required air volume in the most energy-efficient way in the compound system. According to Cord Utermann, “the high art of the control engineering is to create the transitions between the overlaying operating areas as fluently as possible and as energy-efficient for every load as possible, i.e. to operate the different machines in the combination always at total optimum.” Those are resulting from “every load complying with the real need” according to Markus Haverkamp. This “always includes upward and downward peaks”. Since three different machines with diverging operation ranges and efficiencies are applied in the wastewater treatment plant in Rheda-Wiedenbrück, their operation must be co-ordinated in such a way “that the number of switching operations will be as low as possible. Since the permanent switching-on and switching-off would increase wear”, the project engineer of aquaconsult reveals. “An efficient air distribution among the aeration tanks (sliding pressure control, intrusion of disturbances as for example NH4-N, amount of water etc.) and the efficient machine selection are necessary for an optimal overall efficiency. This is realised by means of the new control system of AERZEN.”
The oxygen demand in the three clearance stages is the basis for the optimisation of the control system with the AERsmart control. The indices are processed by the central PLC of the plant and the resulting target pressure is transferred by Profibus to the blower control. AERsmart then cares for the optimally combined operation of the four packaged units in relation to energy saving. “The turbo blower used here has, for example, the highest efficiency at a capacity of 83 per cent”, explains Cord Utermann. If the air requirement is beyond this value, it can be more efficient, to switch-off the base load machine completely and to cover the relatively low air requirement by both Delta Hybrid machines. “Our bacteria do not care where the oxygen comes from”, Hendrik Wulfhorst says with a smile. But the manager of the wastewater treatment plant points out that the blower technology was projected in the run-up to the modernisation so that the performance of the turbo blower should be sufficient for the “normal” daily requirement.
As an interim result, the wastewater treatment plant in Rheda-Wiedenbrück could save about 30 per cent energy in the biology with the energy-optimised blowers and a relatively simple process control which is more closely linked to the prevailing actual values. AERsmart provides further five to eight per cent due to the optimisation on blower level. The field test in the wastewater treatment plant will prove how much this will be in a longer operating phase. Rheda-Wiedenbrück is the first wastewater plant in Germany testing the AERsmart under real conditions. “We need the application on site as we can only recognise the complex connections of a wastewater treatment plant in field; this cannot be reproduced on a test bench. This is why the intensive cooperation with our customers is so important, as only this proceeding provides us with a close application reference for future-oriented developments”, summarises Cord Utermann.