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| Effluent: |
| BOD equal or less than 10mg/L |
| SS equal or less than 10mg/L |
| T-N equal or less than 10mg/L |
| T-P equal or less than 1mg/L |
| Thermotolerant coliforms less than 10cfu/100mL |
|
| Category |
| Advanced Secondary with Nutrient Removal |
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|
Features of CRX Model |
| (1) Multi-task Integrated Unit |
 |
| (2) Phosphorus(phosphate) Removal |
| Phosphorus is removed as FePO4, which is a compound made up of Iron from electrolysis and Phosphate in liquid. |
| (3) Flow Adjustment-site customization |
| Our unique flow adjustment function makes it possible to adjust effluent water volume and recirculation water volume, individually and easily to adjust for local site conditions. |
| (4) Aerobic Fluidized Bed Bio-film Filtration Process |
| Hollow-cylindrical fluidized media, which has 10 times as large specific surface area as board type contact media, helps the treatment take place efficiently. |
| (5) Automatic Backwash |
Automatic backwash is controlled by an integral timer located in the blower,providing the following features
to ensure the excellent performance.
- control the thickness of bio-film attached on the media surface,
- promotes decomposing and removing of the organic material, increasing nitrifying of the
ammonium nitrogen and Suspended solid(SS) filtering performance, and
- preventing the media clogging.
|
Phosphorus Removal Device for Residential Unit |
| (1) Background of the development |
Phosphorus in wastewater is one of the causes of eutrophication in rivers,lakes and seas. Eutrophication adversely affects the water environment causing many problems such as red tide, algal bloom and so on. Discharged phosphorus in the environment is mostly from domestic wastewater - not from factories. Therefore domestic wastewater needs to be treated properly.Until now, there was no phosphorus removal system small and easy to maintain, designed for domestic wastewater treatment.
Therefore, we developed a phosphorus removal device for domestic wastewater treatment.This device, in our CRX model, enables removal of more than 80% of phosphorus in the
wastewater.
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| (2) Phosphorus Removal Mechanism-Iron Electrolysis |
 By passing direct current through a pair of iron electrodes immersed in water, divalent iron ion (Fe2+) is eluted from the anodal electrode. This iron is oxidized with dissolved oxygen to trivalent iron ion (Fe3+).Insoluble iron phosphate (FePO4) is formed and precipitated. Precipitated phosphorus is carried back to the head of the system using air lift pumps and
is eventually removed as sludge. |
|
| (3) Description of the Phosphorus Removal Device |
 It consists of iron electrodes, a control box and a relay box.
Iron electrodes are immersed in the Aerobic Fluidized Bed Bio-film Filtration Chamber.
A contol box sends direct current (1 Amp) to the electrodes. Polarity is altered once a day to prevent oxide film covering on the electrode surface.
A relay box connects iron electrodes and a control box.
|
| (4) Maintenance |
| Since plates are eventually consumed,they are replaced periodically. Plate replace
is simple.
|
Specification |
| Model |
CRX 1500 |
CRX 2000 |
| Equivalent Person(EP) |
10 |
13 |
| Capacity(m3) |
Anaerobic Filtration 1st Chamber |
1.301 |
1.826 |
| Anaerobic Filtration 2nd Chamber |
1.309 |
1.813 |
Aerobic Fluidized Bed Bio-film
Filtration Chamber |
0.728 |
1.044 |
| Storage Chamber |
0.265 |
0.362 |
| Disinfection Chamber |
0.021 |
0.024 |
| Total Volume |
3.624 |
5.069 |
| Flow Rate Adjustment |
0.673 |
0.928 |
| Dimension(mm) |
Max Width : W |
1,350 |
1,590 |
| Max Length : L |
3,080 |
3,590 |
| Max Height : H |
1,770 |
1,770 |
| Influent Invert : A |
260 |
| Effluent Invert : B |
410 |
| Influent and Effluent Pipe Size |
dia. 100 |
| Manhole 1~3 |
dia. 500 |
| Manhole 4 |
dia. 600 |
| Air Intake |
For Aeration and Transferring dia. 13
For Backwash dia. 13 |
| Total Weight (kg) |
440 |
550 |
| Correspondent Blower Type |
MAC38AN / MR88BN |
| Price ($) |
ask for quote |
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Structure |
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