Linking Water, Energy and Environmental Sustainability: Siemens R&D Projects Hit Key Milestones [Press Releases]
Water treatment and transportation is a high consumer of energy and produces a significant amount of CO2. Advanced treatment technologies therefore have to link water, energy and environmental sustainability through innovation. In its global R&D center based in Singapore, Siemens Water Technologies is striving to increase process and energy efficiency by both developing new, and constantly improving existing technologies. Some of these projects have reached important milestones. At Singapore International Water Week (SIWW), the company will give an update on key projects like the energy selfsufficient biological wastewater treatment process, electrochemical desalination, a micro media column for contaminant removal and the membrane bioreactor (MBR) Changi pilot plant.
“What is needed to address growing challenges like water scarcity and climate change is a holistic approach for water and wastewater treatment,” said Ruediger Knauf, Vice President of Siemens Water Technologies’ Global R&D. “The answer lies in technology. It has to help secure water supply for the public and industry in the desired amount and quality and is expected to do so at the lowest cost and highest level of environmental sustainability.” Advanced technologies have already enabled the natural water cycle to be expedited. Further developing an integrated solution for water treatment, reclamation and reuse forms the core of Siemens’ activities.
Energy self-sufficient wastewater treatment combines two technologies
In the form of potential energy indigenous to the organic matter, municipal wastewater contains about ten times the energy that is needed to treat it. Siemens is working on an innovative process that uses this organic matter to make a wastewater treatment plant self sufficient in energy. It combines aerobic biosorption and anaerobic treatment to reduce aeration demand and generate enough methane to produce the energy needed to achieve zero net energy. Since June 2010, a pilot facility has been treating about half a cubic meter of wastewater per day and, at the same time, operating in an energy-neutral manner. Unlike conventional wastewater treatment, the bacteria are charged with the organic impurities only for a short time during the aerobic process step. This results not only in cutting energy consumption for aeration but also in producing less sludge. In the next anaerobic step, the bacteria ferment the organic matter into methane that is used for energy generation. To further develop this process on a larger scale, a pilot plant scheduled to begin operating this year in Singapore will be able to treat wastewater for approximately 2,000 residents.
Breakthrough technologies on their way to commercialization
As a result of an R&D initiative that commenced in October 2008, Siemens has been working on an advanced desalination technology that reduces energy consumption by half compared to systems that are currently available. A demonstration plant has been built in Singapore to treat 50 m3 of seawater per day to drinking water quality. The results of the pilot facility show that the new process, a combination of Electrodialysis (ED) and Continuous Electrodeionization (CEDI), not only functions in the laboratory but also on a larger scale. Siemens is now ready to set up a full-scale customer pilot in 2013 at the Tuas facility of Singapore’s national water agency PUB to proceed with the commercialization of the electrochemical desalination technology.
Even closer to market launch is another R&D project that will be presented at the Ultrapure Water Asia conference, co-located at the SIWW. The micro media column (MMC) is a new product for removing selected contaminants including selenium, chromium, mercury and arsenic. It will help municipalities and customers from the power, microelectronics, pharmaceutical and metals and mining industry meet new regulations reducing contaminant levels. As conventional ion exchange media have difficulties in achieving such low levels, Siemens developed the MMC based on a new filter media and flow design. It removes contaminants down to the parts-per-trillion level. Despite its small footprint, the MMC is a high-throughput solution. As the water flows radially through the filter media, channelling is avoided, which leads to life cycle cost savings compared to existing solutions. In field testing early this year, the MMC proved capable in removing mercury and copper. The results will be presented in Singapore before the product launch takes place in August 2011.
Improvements of existing technologies for water reuse
Besides seawater desalination, water reuse technologies are being used with great success in both industries and municipalities to mitigate water stress and ensure a reliable water supply. For example, low-pressure membrane systems are especially suitable for treating wastewater for reuse. Siemens continually improves existing technologies like the membrane bioreactor (MBR). In 2010 the company commissioned a 1.0 million liter/day MBR testing facility at the Changi Water Reclamation Plant in Singapore to validate new design parameters. The testing under real conditions has proven the presumptions of a detailed Computational Fluid Dynamics analysis that preceded the plant’s commissioning. By optimizing the aeration and the resulting macroscopic fluid flow in the membrane operating system, the energy use and the system’s overall performance could be significantly improved.
To further enhance the membrane technology, a new R&D group was established at Siemens Water Technologies’ global research center in Singapore in March 2011. The team will focus on fiber development and the next generation membrane filtration systems. By the end of 2012 the Singapore R&D team, will increase to 50 research scientists, engineers and technicians. This is another example of Siemens’ investment in research and development. The new team will further enhance the work achieved by the R&D center, established in Singapore in early 2007, with strong support from the Singapore government and PUB.
Source: Siemens via SIWW
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