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Fig. 1: RWZI Amersfoort is one of a total of eight Valei en Veluwe wastewater treatment plants that also produce electricity and artificial fertilizers as "energy factories". Source: RWZI Amersfoort.

Efficient Biogas Production in a Digestion Tower by Means of Reliable Claw Compressors

RWZI Amersfoort

From a wastewater treatment plant to an energy factory – Valei en Veluwe wastewater association's vision has become a reality.
The ultra-modern RWZI Amersfoort wastewater treatment plant is one of eight Valei en Veluwe wastewater treatment plants that use the energy released during wastewater treatment to generate electricity from biogas and produce artificial fertilizer with the phosphate produced.

Part of the biogas produced in a circulating system is returned to the digestion tower in order to increase the effectiveness of the fermentation process in the digestion towers. This process uses MINK claw compressors from Busch. These oil-free compressors are ATEX certified and guarantee the safe and constant circulation of the biogas.

About RWZI Amersfoort

The RWZI Amersfoort conventional wastewater treatment plant (Fig. 1), which has existed since 1973, was completely renovated in 2009. In 2014, the wastewater treatment plant was converted into an "energy factory" with a population equivalent of 300,000. The production of biogas generates 1,200 kW of electricity per hour in three cogeneration plants. This electricity supplies the wastewater treatment plant completely self-sufficiently and can also feed enough electricity to the public grid to meet the needs of around 600 households.

Raw materials such as phosphate or nitrogen are also recovered during the fermentation process and while draining the sludge. Phosphate is also obtained from the filtrates of the sieve belt press or the centrifuge. This is used to produce high-quality fertilizer directly in the wastewater treatment plant, where it is then packaged as granulate. With this process, the plant produces and sells around 900 tons of high-quality artificial fertilizer each year.

Biogas production

Three digestion towers are in operation at RWZI Amersfoort. The organic carbon compounds are removed from the raw sludge – which is prethickened by dehydration beforehand – by means of microbiological degradation processes. This produces digester gas, a gas mixture whose essential component is methane and is used as biogas for operating cogeneration plants. In order to achieve the highest possible biogas yield, part of the sewage sludge is pumped out of the digestion tower via a ring line, heated up and fed back in again. This increases the temperature in the digestion tower, which should ideally be between 36 and 37 degrees Celsius. Part of the resulting biogas is circulated (Fig. 2) in order to provide an even temperature distribution.
Biogas from the upper part of the digestion tower is conveyed by compressors via lances to the bottom of the digestion tower and is then introduced into the sewage sludge.

As the gas bubbles rise in the sewage sludge, it is mixed with the circulating sludge to achieve a homogeneous temperature distribution.

Heating the biogas inside the MINK compressors then causes a further increase in the temperature of the sewage sludge. This process produces between 450 and 500 cubic metres of biogas per hour in the three digestion towers.

Use of vacuum in digestion towers

Until 2015, oil-lubricated rotary vane compressors were used for biogas circulation in the digestion towers. These compressors caused one major disadvantage for technical manager Fons Houtveen because the moisture transported along with the biogas accumulated in the oil circuit of the rotary vane compressors. This reduced the lubricating and sealing properties of the oil in the compressors and prevented safe operation at a constant overpressure.

The only way to minimize this problem was to refill or replace two litres of oil per compressor every day.

Busch compressor solution and its benefits

Fons Houtveen was looking for a technical solution and heard about another wastewater treatment plant that had already successfully switched to oil-free MINK compressors from Busch (Fig. 3) and was very satisfied with the solution. Fons Houtveen then contacted Busch BV.

Busch's application specialists took a close look at the application and recommended four MINK compressors in two different sizes with an ATEX certified design (category 3/2 IIA T2 (i/o)) for biogas circulation. They have been in use since August 2017.
The biogas is circulated in each digestion tower for 20 minutes. All four MINK compressors are in operation during this process. The two compressors with the higher volume flow transport the biogas near the ground to the middle of the digestion tower, where the filling level of the sewage sludge can be up to 20 metres.

Two MINK compressors with lower volume flows transport the biogas into the lances near the edge of the digestion tower, where the filling level is lower due to the conical bottom. After 20 minutes, the automatic control system switches on the four MINK compressors for the next digestion tower via valves. The maximum pressure at which the biogas is introduced to the sewage sludge is 2 bar overpressure.

The completely operating fluid-free compression with MINK compressors means that the biogas does not come into contact with any operating fluid.
The relatively high temperature inside the compressors in turn prevents the moisture in the biogas from condensing out during the compression process.

Fons Houtveen is surprised by the nearly maintenance-free operation of these dry compressors. Initially, he used to check the condition and quality of the oil in the gears of every MINK compressor every day. However, he stopped doing so after just one month once he had realized that there were not any visual changes to the oil and the oil quantity remained the same. Maintenance work is merely performed once a year by a Busch service technician as a preventive measure.In this process, the gear oil is changed in the MINK compressors. The filling quantity is one litre in each MINK compressor – this is half the daily quantity that was required in the past.

Since they were put into operation in 2017, the MINK compressors have been operating without any malfunctions, let alone failures. Fons Houtveen therefore praises the reliability, with which they ensure continuous biogas circulation around the clock and thus contribute to effective biogas production. In addition, they also helped to significantly reduce the maintenance effort and maintenance costs.