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Logo der Abteilung Hydrologie und Flussgebietsmanagement des LWI
Important Results

Important Results

Results from the pilot plant operation

The novel treatment concept combining physical pre-treatment by dissolved air flotation, anaerobic degradation and aerobic post-treatment, has demonstrated its robustness and its ability to remove organic matter (COD by > 98%), nutrients (Kjeldahl-N by 80-85% and total-P by 50-60%), and cyanide (total-CN by > 99%) from tapioca starch wastewater. The treatment results in line 2 where all biological degradation takes place in a two-stage wetland system have been similar to line 1. However, much more space is required for line 2, and no utilization of biogas is possible there.

reinigungsleistung_1
reinigungsleistung_2

Reduction of organic matter measured as COD and reduction of Kjeldahl-Nitrogen in line 1, Source: HS OWL


With respect to the Vietnamese Standard, the requirements on effluent BOD5, total-N and cyanide concentrations can be met. Removal of total-P has been insufficient since the treatment does not include an efficient phosphorous sink. There are two possible solutions: Either a precipitation unit is put behind the EGSB reactor (line 1) or granular material with high binding capacity for phosphorous is used in the wetlands (both lines).

There are several sustainable aspects related to the treatment concept:

1. Removal of suspended solids in the flotation stage and subsequent reuse in agriculture.

2. Reduction of the organic load of the anaerobic reactor which, then, can be designed smaller and operated more reliably.

3. Production of biogas that can be used on-site. The starch drying units need an appreciable amount of heat. When no biogas is available, about 35-40 liter of fuel oil per ton of starch is needed. About 65% of this amount can be replaced by the biogas produced. It would also be possible to burn the biogas in a block-type thermal power station in order to produce both heat and electricity.

4. Utilization of the advantage of wetlands that exhibit high process stability and low operation demands. Their disadvantage is the large area required. However, for small- and middle-sized plants in rural areas it is usually possible to realize this stage.

5. Minimization of material input: Besides adding sodium hydroxide to the waste-water in the EGSB reactor for adjusting pH no chemicals are needed.

It is expected that these benefits will make the process scheme interesting for technical-scale applications in small- and middle-sized plants.

Development of the expert system

The 280 km long Saigon river, including the Dau Tieng reservoir, and the 34 km long Tay Ninh river are located in the monsoon area. The investigated catchment of the Saigon river upstream of Ho Chi Minh City is much more complex and larger as the catchment of the Tay Ninh river. The dynamics of the water and mass balance of both catchments are simulated with the SWAT model. The hydraulics and water quality of the Tay Ninh river are simulated with the 1D-HEC-RAS model. For the Dau Tieng reservoir and the tidal influenced Saigon river, the 2D-CE-QUAL-W2 model was applied. In this study, the water quality comprises sediment, nutrients, dissolved oxygen and the biological oxygen demand (BOD5).

Because of the topographic characteristics and the strong anthropogenic influences, the water balance of the Tay Ninh and the Saigon catchment is very complex. The catchments are characterized by a very flat topography with gentle slopes. This character complicates a clear delineation of subcatchments and flow path. Broad flood areas, ponds, irrigation channels and rice fields are responsible for a large retention potential of water in the catchments. In consequence, a large amount of precipitation comes delayed to runoff. In the dry season, the water balance is strongly influenced by irrigation measures, in particular for the cultivation of rice and the low flow augmentation.

Good to very good calibration results could be achieved for all stations for the water level, discharge and the water quality parameters, respectively. A coefficient of determination larger than 0.6 was achieved for all stations. Also the coefficient of efficiency after Nash and Sutcliffe (1970) shows very good agreement.

nh4-load

NH4-N loads at Cau Gio station, Tay Ninh river


wasserstand  dt

Water level at Dau Tieng station, Saigon river


Using the above mentioned coupled models, an expert system was developed in the project. The system has a uniform operating system with menu control for input and output processes and additionally a database system for the control of project data and the storage of simulation results.

The actual state of the catchment and different scenarios were simulated with the expert system. For the numerous other tapioca factories in the catchment, fictitious treatment plants, according to the experimental results from the pilot plant, were installed. Suitable solutions were developed under consideration of ecological criteria.

nh4-load2

NH4-N loads at Cau Noi station at Tay Ninh river in consideration of the scenario that all tapioca factories have installed a treatment plant according to the concept of the pilot plant


The expert system will allow responsible Vietnamese authorities/institutions to improve the water quality of the Tay Ninh and Saigon river including the Dau Tieng reservoir. In the future, the system should be expanded by the Vietnamese institutions to the urgent need of a low and high water management for an integrated river basin management of the whole Dong Nai catchment.

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