BLUEWIN’s Core Technologies, Processes, and Advantages
ELODE can be installed after any primary mechanical dewatering unit.
However, since the form of the cake (CAKE) discharged from each dewatering unit varies,
an appropriate transfer device may need to be added to convey the cake efficiently to ELODE.
For ELODE to achieve optimal reduction efficiency, the moisture content of the cake from the primary dewatering unit should be no more than 85% (with a minimum of 15% dry solids, DS). If the moisture content is too high or the polymer floc (POLYMER FLOC) is not properly formed, the dewatering efficiency may decrease.
ELODE is compatible with a range of primary dewatering units, including:
BELTPRESS +
SCREWPRESS +
FILTERPRESS +
CENTRIFUGE+
VACUUMPRESS +
MODEL | EODS-500 | EODS-1000 | EODS-2000 | EODS-3000 |
Belt Width | 560mm | 1060mm | 2060mm | 3060mm |
Drive/Belt Speed | 0.5~2.6meter/min | 0.5~2.6meter/min | 0.5~2.6meter/min | 0.5~2.6meter/min |
Electric Power | 40~60kWh | 80~100kWh | 140~180kWh | 160~220kWh |
| Belt Washing Water Consumption | 480 liter/h at 2kgf/cm2 | 720 liter/h @ 2kgf/cm2 | 1200 liter/h @ 2kgf/cm2 | 1920 liter/h @ 2kgf/cm2 |
| Air Requirement | 300 liter/h at 5kgf/cm3 | 300 liter/h at 5kgf/cm3 | 300 liter/h at 5kgf/cm3 | 300 liter/h at 5kgf/cm3 |
| Max. Actual area of sludge Distribution | 300mm | 800mm | 1,700mm | 2,700mm |
| Average throughput | 1.2mtr/min*0.3*7mmT*60= 150kg/h | 1.2mtr/min*0.8*7mmT*60= 400kg/h | 1.2mtr/min*1.7*7mmT*60 = 850kg/h | 1.2mtr/min*2.7*7mmT*60= 1,360kg/h |
| Dimension (LxWxHmm) | 2763x1640x2530 | 2763x2065x2530 | 3060x3065x2530 | 3060x4065x2730 |
| Weight(Kg) | 3,400 | 4,500 | 7,500 | 10,500 |
| Dry Solid (%DS) | 40~60%DS | 40~60%DS | 40~60%DS | 40~60%DS |
NVD is a drying device that utilizes natural air and an electronic system to maximize drying efficiency with minimal energy consumption, designed specifically for use with the ELODE system. NVD can only be used when attached to the rear of the ELODE equipment and is not compatible with other devices.
The cake discharged from ELODE retains residual heat at approximately 60–80℃ (140–176℉), which enables continued moisture evaporation. NVD receives the cake directly from ELODE and, using a combination of natural airflow and electronic drying, completes the drying process with about one hour of loading time. This results in a final cake moisture content of approximately 10% (90% dryness).
The water molecules in the sludge have a polar structure, which allows them to align under an electric field.
Moisture in the cake evaporates due to the convection effect of natural airflow.
The collision of rotating water molecules generates heat, leading to rapid moisture evaporation and optimized drying within the sludge
The electric field reorients water molecules, enhancing drying efficiency.
Hydrogen atoms carry positive charges, while oxygen atoms carry negative charges. Collisions between these atoms cause rotating water molecules within the cake to generate heat, promoting moisture evaporation without additional energy input.
NVD maximizes moisture evaporation by leveraging natural airflow and an electric field, all without additional energy consumption.
75-80%wt (20-25%ds)
40-60%wt (40-60%ds)
10-20%wt (80-90%ds)
RFQ
Contact
© 2025 BLUEWIN Co., LTD. All Rights Reserved.
