Basic Info.
Model NO.
Screw Press Sludge Dewatering System for Waste Wat
Transport Package
Seaborne
Specification
Subject to actual product
Trademark
FLOURISH
Origin
China
Product Description
Product Description:
As a leading supplier of water treatment equipment, we offer a highly efficient screw press sludge dewatering system for waste water treatment. This system is designed to effectively separate and dewater sludge from waste water, providing a cost-effective solution for sludge management and disposal. With its high efficiency, low energy consumption, and compact design, our screw press sludge dewatering system is an ideal choice for waste water treatment plants.
Working Principle:
The screw press sludge dewatering system operates by feeding the sludge into the screw press unit. The screw press applies continuous pressure to the sludge, forcing the water to be squeezed out through the gaps in the screw and the dewatering drum. The compacted sludge forms a solid cake, which is then discharged for further disposal. The clean water is separated from the sludge and collected for reuse or further treatment. The continuous operation of the screw press ensures efficient dewatering of the sludge.
Main Structure:
Our screw press sludge dewatering system consists of a screw press unit, a sludge feeding system, a dewatering drum, and a sludge discharge system. The screw press unit is responsible for compressing and dewatering the sludge. The sludge feeding system ensures a continuous and uniform feed of sludge into the system. The dewatering drum is where the dewatering process takes place, with the sludge being squeezed and separated into solid cake and liquid filtrate. The sludge discharge system collects and removes the dewatered sludge for further disposal.
Usage Features:
- Solid-liquid separation:
The screw press sludge dewatering system effectively separates and dewater sludge from waste water, reducing its volume and producing a solid cake for disposal. It ensures efficient solid-liquid separation, resulting in clean and clarified water.
- High efficiency:
Our screw press system is designed for high efficiency sludge dewatering. The screw press unit applies continuous pressure to the sludge, squeezing out the water and compacting the sludge into a solid cake. This results in a higher dewatering efficiency compared to other dewatering methods.
- Low energy consumption:
The screw press system operates with low energy consumption. The screw press unit is designed to minimize power requirements while maintaining high dewatering efficiency, reducing operational costs for waste water treatment plants.
- Compact design:
Our screw press system features a compact design, making it easy to install and integrate into existing waste water treatment systems. Its small footprint saves valuable space and allows for flexible installation options.
Application:
Municipal wastewater treatment plants:
used to treat sludge in municipal wastewater treatment plants, dewatering the sludge and reducing its volume to facilitate subsequent treatment or disposal.
Industrial wastewater treatment plants:
used to treat sludge in wastewater from industrial wastewater treatment plants, dewatering the sludge, reducing the volume of wastewater and lowering treatment costs.
Food Processing Plant:
Used to treat sludge in food processing wastewater, dewater the sludge, reduce the volume of wastewater, and meet environmental requirements.
Pulp and paper mills:
used to treat sludge in pulp and paper wastewater, dewater the sludge, reduce the volume of wastewater, and achieve resource recycling.
Petrochemical plants:
Used to treat sludge in wastewater from petrochemical plants, dewatering the sludge, reducing the volume of wastewater and achieving environmental protection requirements.
Iron and steel plants:
Used to treat sludge in iron and steel plant wastewater, dewatering the sludge, reducing the volume of wastewater, and facilitating subsequent treatment or disposal.
Mining and metallurgical plants:
Used to treat sludge in wastewater from mining and metallurgical plants, dewatering the sludge, reducing the volume of wastewater and lowering the treatment cost.
Chemical plants:
Used to treat sludge in wastewater from chemical plants, dewatering the sludge, reducing the volume of wastewater and realizing resource recycling.
Pharmaceutical plants:
Used to treat sludge in the wastewater of pharmaceutical plants, dewater the sludge, reduce the volume of wastewater, and achieve environmental protection requirements.
Food and Beverage Plants:
Used to treat sludge in wastewater from food and beverage plants, dewatering the sludge, reducing the volume of wastewater, and facilitating subsequent treatment or disposal.
Printing and Dyeing Plants:
Used to treat sludge in the wastewater of printing and dyeing plants, dewatering the sludge, reducing the volume of wastewater and lowering the treatment cost.
Packaging and Textile Plants:
Used to treat sludge in packaging and textile plant wastewater, dewatering the sludge, reducing the volume of wastewater and realizing resource recycling.
Model Choice
Model | DS Sludge Treating Capacity | Sludge FLSDPWOW Treating Capacity | ||||
10000mg/L | 20000mg/L | 30000mg/L | 40000mg/L | 50000mg/L | ||
FLSDPWSDPW101 | 3-6kg/h | ~0.3m3/h | ~0.15m3/h | ~0.13m3/h | ~0.125m3/h | ~0.12m3/h |
FLSDPW131 | 6-12kg/h | ~0.6m3/h | ~0.3m3/h | ~0.26m3/h | ~0.25m3/h | ~0.24m3/h |
FLSDPW201 | 9-18kg/h | ~0.9m3/h | ~0.6m3/h | ~0.5m3/h | ~0.4m3/h | ~0.36m3/h |
FLSDPW202 | 18-36kg/h | ~1.8m3/h | ~1.2m3/h | ~1m3/h | ~0.8m3/h | ~0.72m3/h |
FLSDPW301 | 40-60kg/h | ~4m3/h | ~2.5m3/h | ~2m3/h | ~1.5m3/h | ~1.2m3/h |
FLSDPW302 | 80-120kg/h | ~8m3/h | ~5m3/h | ~4m3/h | ~3m3/h | ~2.4m3/h |
FLSDPW303 | 120-180kg/h | ~12m3/h | ~7.5m3/h | ~6m3/h | ~4.5m3/h | ~3.6m3/h |
FLSDPW304 | 160-240kg/h | ~16m3/h | ~10m3/h | ~8m3/h | ~6m3/h | ~4.8m3/h |
FLSDPW351 | 80-120kg/h | ~8m3/h | ~4m3/h | ~3.5m3/h | ~3m3/h | ~2.4m3/h |
FLSDPW352 | 160-240kg/h | ~16m3/h | ~8m3/h | ~7m3/h | ~6m3/h | ~4.8m3/h |
FLSDPW353 | 240-360kg/h | ~24m3/h | ~12m3/h | ~10.5m3/h | ~9m3/h | ~7.2m3/h |
FLSDPW354 | 320-480kg/h | ~32m3/h | ~16m3/h | ~14m3/h | ~12m3/h | ~9.6m3/h |
FLSDPW401 | 120-160kg/h | ~12m3/h | ~6m3/h | ~5m3/h | ~4m3/h | ~3.2m3/h |
FLSDPW402 | 240-320kg/h | ~24m3/h | ~12m3/h | ~10m3/h | ~8m3/h | ~6.4m3/h |
FLSDPW403 | 360-480kg/h | ~36m3/h | ~18m3/h | ~15m3/h | ~12m3/h | ~9.6m3/h |
FLSDPW404 | 480-640kg/h | ~48m3/h | ~24m3/h | ~20m3/h | ~16m3/h | ~12.8m3/h |