Shanghai Fuchan Machinery
Sludge dewatering equipment, sludge thickening equipment, deep sludge dewatering equipment, sludge drying equipment, and polymer preparation systems.
- Founded
- 2007
- Headquarters
- Name: Sales Department Email: sales@fuchanjx.com Tel: +86 138-1673-2007 WhatsApp: +86 138-1673-2007 Address: Room 1201, 1122 Xinjinqiao Rd, Pudong New District, Shanghai, PRC China
- Factory Area
- 25,000
- Employees
- 36
- Export Ratio
- 30%
- sales@fuchanjx.com
- Website
- www.sfceco.com
- Contact via WhatsApp
- Blog
- blog.sfceco.com
About Us
Company Profile About SFC Machinery Shanghai Fuchan Machinery Technology Co., Ltd. (SFC Machinery) was established in 2007 and is located in Pudong New Area, Shanghai, adjacent to the China (Shanghai) Pilot Free Trade Zone. Benefiting from a strategic location, convenient transportation, and efficient access to global information and resources, SFC has developed into a leading environmental equipment manufacturer and solution provider. As a National High-Tech Enterprise integrating technology research & development, intelligent manufacturing, international trade, and engineering services, SFC focuses on sludge treatment, dewatering, drying, and solid waste resource recovery. We are committed to providing efficient, energy-saving, and intelligent environmental solutions for municipal, industrial, and international customers worldwide. Over the past 18 years, SFC has continuously expanded its expertise and market presence. Today, our equipment and systems are successfully operating in Southeast Asia, Russia, South America, the Middle East, and other international markets, earning recognition for reliability, innovation, and outstanding service. Comprehensive Sludge Treatment Solutions SFC provides a complete sludge management process covering sludge reduction, thickening, dewatering, deep dewatering, drying, chemical dosing, and system integration. 1. Sludge Reduction System HCP Smart Flow™ Sludge Reduction System The HCP Smart Flow™ System utilizes proprietary technologies and optimized treatment processes to significantly reduce sludge generation at the source. By minimizing sludge volume before downstream treatment, it lowers operational costs and improves overall process efficiency. Key Benefits Source-based sludge reduction Reduced disposal costs Lower energy consumption Enhanced process efficiency Improved sustainability performance 2. Sludge Thickening System Sludge Thickening Equipment Multi-Disc Screw Thickener Belt Thickener Rotary Drum Thickener Our advanced thickening systems effectively increase sludge solids concentration, reduce sludge volume, and minimize the load on downstream dewatering and drying processes. Key Benefits Increased sludge concentration Reduced sludge volume Lower operating costs Stable and continuous operation 3. Sludge Dewatering System Sludge Dewatering Equipment Belt Thickening & Dewatering Press Wear-Free Multi-Disc Screw Press Designed for high-performance sludge dewatering, our systems deliver reliable operation, low energy consumption, and reduced maintenance requirements while achieving excellent cake dryness. Key Benefits High dewatering efficiency Low operating costs Minimal maintenance Suitable for various sludge types 4. Deep Sludge Dewatering System High-Pressure Belt Press Dewatering System Our high-pressure belt press technology further reduces sludge moisture content after conventional dewatering, significantly decreasing transportation and disposal costs. Key Benefits Lower final moisture content Reduced disposal volume Lower transportation expenses Improved resource recovery opportunities 5. Sludge Drying System Low-Temperature Sludge Dryer Available in both: Container-Type Sludge Dryer Belt-Type Sludge Dryer The system utilizes low-temperature drying technology and can be integrated with waste heat recovery systems. Sludge volume can be reduced by more than 70%, providing an energy-efficient and environmentally friendly drying solution. Key Benefits Over 70% volume reduction Low energy consumption Waste heat utilization available Reduced carbon footprint Safe low-temperature operation 6. Chemical Dosing & Automation System Automatic Polymer Preparation and Dosing System PAM Preparation and Dosing Unit PAC Preparation and Dosing Unit Through precise automated control, our dosing systems ensure accurate chemical preparation and feeding, reducing chemical consumption while maximizing treatment performance. Key Benefits Accurate chemical dosing Reduced polymer consumption Fully automated operation Improved treatment efficiency Auxiliary Equipment & System Integration To provide complete turnkey solutions, SFC also supplies a wide range of supporting equipment, including: Screw Conveyors Sludge Storage Silos Lime Storage Silos Air Blowers Aeration Systems Material Handling Equipment Customized Auxiliary Systems These supporting systems enable seamless integration, improve operational reliability, and ensure stable performance across the entire sludge treatment process. Our Mission To create sustainable environmental solutions through innovation, intelligent manufacturing, and continuous technological advancement, helping customers achieve efficient sludge management, resource recovery, and long-term environmental compliance worldwide.
Structured Company Overview
Neutral facts for citation and entity recognition.
- Legal Name
- Shanghai Fuchan Machinery
- Established
- 2007
- Ownership
- Private
- Production Model
- OEM / ODM
- Annual Output
- 500 sets
- R&D Team
- 5
- Website
- www.sfceco.com
Product Specification Database
Each model is a structured row. No narrative descriptions.
| Name | Model | Type | Material | Applicable Industry | |||||
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| SFC-BSD Series; BSD1000 / BSD2000 / BSD3000 / BSD4000 / BSD6000 / BSD9000 / BSD12000 / BSD15000 / BSD18000 / BSD21000 / BSD24000 / BSD27000 / BSD30000 | Sludge Drying Machine / Low Temperature Sludge Dryer / Belt Sludge Dryer | SS304 | Municipal wastewater treatment, industrial wastewater treatment, sludge drying, sludge reduction, resource recovery and disposal cost reduction projects | ||||||
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Type Sludge Drying Machine / Low Temperature Sludge Dryer / Belt Sludge Dryer Applicable Industry Municipal wastewater treatment, industrial wastewater treatment, sludge drying, sludge reduction, resource recovery and disposal cost reduction projects Params inlet consistency: S.S. 15–25% or S.S. 25–35%
treating capacity: 0.8–57 t/h for S.S. 15–25%
treating capacity: 1–90 t/h for S.S. 25–35%
final water content rate: 10–50%
system power consumption: 23–506 kW
process: fully enclosed; modular design Scope |
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| SFC-TR Series; SFC-TR1000 / SFC-TR1500 / SFC-TR2000 / SFC-TR3000 / SFC-TR4500 / SFC-TR6000 / SFC-TR9000 | Sludge Drying Machine / Low Temperature Sludge Dryer | SS304 | Municipal wastewater treatment, industrial wastewater treatment, chemical sludge treatment, sludge drying and volume reduction projects | ||||||
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Type Sludge Drying Machine / Low Temperature Sludge Dryer Applicable Industry Municipal wastewater treatment, industrial wastewater treatment, chemical sludge treatment, sludge drying and volume reduction projects Params quantity of each batch of dried sludge: 1000–9000 L
water extraction capacity: 21–360 kg/h
required power: 15–145 kW
unit power consumption: 0.4–0.55 kWh/kg water
sludge reduction after drying: up to 70% Scope |
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| SD Series; SFC-SD05 / SFC-SD10 / SFC-SD15 / SFC-SD20 / SFC-SD25 | High-Pressure Deep Sludge Dewatering System; Secondary Deep Sludge Dewatering Machine | SS304 | Municipal wastewater treatment plants, chemical plants, sludge deep treatment, sludge drying pretreatment, sludge incineration pretreatment | ||||||
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Type High-Pressure Deep Sludge Dewatering System; Secondary Deep Sludge Dewatering Machine Applicable Industry Municipal wastewater treatment plants, chemical plants, sludge deep treatment, sludge drying pretreatment, sludge incineration pretreatment Params inlet consistency: S.S. 15–20%
treating capacity: 0.3–5.0 t/h for 65–75% water content
dried sludge: 60–760 kg/h for 65–75% water content
treating capacity: 0.35–6.1 t/h for 60–70% water content
dried sludge: 70–920 kg/h for 60–70% water content
driving motor: 0.55–3.0 kW
sludge mixer: 2.2–5.5 kW
sludge distribution spiral: 0.25–1.5 kW
sludge crushing screw: 0.37–0.75 kW Scope |
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| FTE Series; FTE-1000 / FTE-1500 / FTE-2000 / FTE-2500 / FTE-3000 / FTE-1500L / FTE-2000L / FTE-2500L / FTE-3000L | Rotary Drum Thickening + Belt Press Dewatering Machine; Rotary Drum Type Belt Sludge Dewatering Machine | SS304 | Municipal wastewater treatment, industrial wastewater treatment, paper mills, printing and dyeing, medium and large continuous sludge dewatering projects | ||||||
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Type Rotary Drum Thickening + Belt Press Dewatering Machine; Rotary Drum Type Belt Sludge Dewatering Machine Applicable Industry Municipal wastewater treatment, industrial wastewater treatment, paper mills, printing and dyeing, medium and large continuous sludge dewatering projects Params belt width: 1000–3000 mm
inlet consistency: S.S. 0.6–1.5%
treating capacity: 12–90 m³/h
dried sludge: 90–975 kg/h
water content rate: 75–85%
driving motor: 0.55–4.0 kW
disposal agitator motor: 0.37–0.75 kW
drum thickener motor: 0.37–0.75 kW Scope |
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| FTB Series; FTB-500 / FTB-750 / FTB-1000 / FTB-1500 / FTB-1500L / FTB-2000 | Rotary Drum Thickening + Belt Press Dewatering Machine; Belt Drum Sludge Dewatering Machine | SS304 | Municipal wastewater treatment, industrial wastewater treatment, paper mills, printing and dyeing, small and medium sludge dewatering projects | ||||||
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Type Rotary Drum Thickening + Belt Press Dewatering Machine; Belt Drum Sludge Dewatering Machine Applicable Industry Municipal wastewater treatment, industrial wastewater treatment, paper mills, printing and dyeing, small and medium sludge dewatering projects Params belt width: 500–2000 mm
inlet consistency: S.S. 1.5–2.5%
treating capacity: 3.0–30 m³/h
dried sludge: 45–450 kg/h
water content rate: 75–85%
driving motor: 0.37–1.1 kW
disposal agitator motor: 0.37–0.55 kW
drum thickener motor: 0.37–0.55 kW Scope |
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| GDY Series; GDY-1000 / GDY-1500 / GDY-2000 / GDY-2500 / GDY-3000 | Belt Thickening and Dewatering Integrated Machine; Gravity Belt Thickening + Belt Press Dewatering Machine | SS304 | Municipal wastewater treatment, industrial wastewater treatment, paper mills, printing and dyeing, high-flow continuous sludge dewatering projects | ||||||
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Type Belt Thickening and Dewatering Integrated Machine; Gravity Belt Thickening + Belt Press Dewatering Machine Applicable Industry Municipal wastewater treatment, industrial wastewater treatment, paper mills, printing and dyeing, high-flow continuous sludge dewatering projects Params belt width: 1000–3000 mm
inlet consistency: S.S. 0.6–1.5%
treating capacity: 15–90 m³/h
dried sludge: 90–1050 kg/h
water content rate: 75–80%
driving motor: 1.1–4.0 kW
disposal agitator motor: 0.37–0.75 kW
belt thickener: 0.55–1.5 kW Scope |
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| SRD Series; SRD-301 / SRD-302 / SRD-303 / SRD-304 / SRD-351 / SRD-352 / SRD-353 / SRD-354 / SRD-401 / SRD-402 / SRD-403 / SRD-404 | Wear-free Multi-disc Screw Press; Wear-free Spiral Sludge Dewatering Machine | SS304 | Municipal wastewater treatment, industrial wastewater treatment, oily sludge treatment, food processing wastewater, high-inorganic sludge treatment, decentralized sludge treatment projects | ||||||
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Type Wear-free Multi-disc Screw Press; Wear-free Spiral Sludge Dewatering Machine Applicable Industry Municipal wastewater treatment, industrial wastewater treatment, oily sludge treatment, food processing wastewater, high-inorganic sludge treatment, decentralized sludge treatment projects Params inlet consistency: S.S. 0.6–5.0%
dried sludge: 25–900 kg/h
water content rate: 75–85%
screw specification: Ø270×1 to Ø370×4
power consumption(driving motor): 0.55–1.1 kW, with multi-motor configurations by model
suitable sludge types: low-concentration, sticky, oily and high-inorganic-content sludge Scope |
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| DL Series; DL-101 / DL-102 / DL-201 / DL-202 / DL-301 / DL-302 / DL-303 / DL-304 / DL-351 / DL-352 / DL-353 / DL-354 / DL-401 / DL-402 / DL-403 / DL-404 | Multi-disc Screw Press; Screw Type Sludge Dewatering Machine | SS304 | Municipal wastewater treatment, industrial wastewater treatment, paper mills, printing and dyeing, oily sludge and decentralized sludge treatment projects | ||||||
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Type Multi-disc Screw Press; Screw Type Sludge Dewatering Machine Applicable Industry Municipal wastewater treatment, industrial wastewater treatment, paper mills, printing and dyeing, oily sludge and decentralized sludge treatment projects Params inlet consistency: S.S. 0.6–5.0%
dried sludge: 1.5–900 kg/h
water content rate: 75–85%
screw specification: Ø85×1 to Ø400×4
screw motor power: 0.18–1.5 kW, with multi-motor configurations by model
conditioning motor power: 0.18–1.1 kW
structure: fixed rings, moving rings, screw shaft and volute filter Scope |
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| FRDT Series; FRDT-20 / FRDT-25 / FRDT-35 / FRDT-40 / FRDT-50 / FRDT-70 / FRDT-80 / FRDT-100 | Rotary Drum Thickener; Enclosed Drum Sludge Thickener | SS304 | Municipal wastewater treatment, industrial wastewater treatment, paper mills, printing and dyeing, sludge thickening projects | ||||||
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Type Rotary Drum Thickener; Enclosed Drum Sludge Thickener Applicable Industry Municipal wastewater treatment, industrial wastewater treatment, paper mills, printing and dyeing, sludge thickening projects Params filter opening: 30–80 mesh
inlet consistency: S.S. 0.6–1.5%
treating capacity: 7.5–100 m³/h
dried sludge: 45–1140 kg/h
sludge outlet consistency: 2.5–8%
rotary drum speed: around 10 rpm
solid capture rate: 95%
driving motor: 0.75–1.5 kW
disposal agitator motor: 0.37–0.55 kW Scope |
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| FBT Series; FBT-1000 / FBT-1500 / FBT-2000 / FBT-2500 / FBT-3000 | Gravity Belt Sludge Thickener; Belt Type Sludge Thickener | SS304 | Municipal wastewater treatment, industrial wastewater treatment, paper mills, printing and dyeing, sludge thickening projects | ||||||
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Type Gravity Belt Sludge Thickener; Belt Type Sludge Thickener Applicable Industry Municipal wastewater treatment, industrial wastewater treatment, paper mills, printing and dyeing, sludge thickening projects Params belt width: 1000–3000 mm
inlet consistency: S.S. 0.6–1.5%
treating capacity: 12–95 m³/h
dried sludge: 72–900 kg/h
sludge outlet consistency: 2.5–8%
power consumption: 0.55–1.5 kW
belt speed: 3–18 m/min
solid-capture rate: 98% Scope |
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Certifications & Compliance
Each record can become a certification entity page.
| Certification | Cert Number | Standard | Authority | Market | Issue Date | Expiry Date | Document |
|---|---|---|---|---|---|---|---|
| MACHINERY DIRECTIVE, ELECTROMAGNETIC COMPATIBILITY DIRECTIVE ATTESTATION OF CONFORMITY | M.2025.206.C130494 | EN ISO 12100:2010, EN 60204-1:2018+A1:2025 EN IEC 61000-6-2:2019, EN IEC 61000-6-4:2019 EN IEC 61000-3-2:2019+A2:2024, EN 61000-3-3:2013+A2:2021 Directives: 2006/42/EC Machinery Directive, 2014/30/EU EMC Directive | UDEM | EU | 2025-12-01 | 2030-11-30 | |
| ISO 14001 Certification | U25E2SH8024416R1S | GB/T24001-2016 / ISO14001:2015 | GICG | Global | 2025-03-12 | 2028-03-11 | |
| ISO 9001 Certification | U24Q2SH704766R3S | GB/T19001-2016 / ISO9001:2015 | GICG | Global | 2025-03-12 | 2027-05-26 | |
| ISO 45001 Certification | U25S2SH8031937R0S | GB/T45001-2020 / ISO45001:2018 | GICG | Global | 2025-04-30 | 2028-04-29 |
Applications & Industries
Taxonomy-backed tags to form industry ↔ supplier ↔ product relationships.
| Industry | Country | Working Condition | Project Type | Function | Operation Mode | Special Requirement | Matched Equipment |
|---|---|---|---|---|---|---|---|
| Oil Refining and Petrochemical Industry | GLOBAL | Dewatering of refractory sludge generated from petrochemical coking wastewater. | Sludge thickening +dewatering + thermal drying integrated treatment project | Significantly reduces sludge volume and moisture content; ensures compliance with local environmental regulations for industrial waste treatment. | This process package features explosion-proof design and corrosion-resistant materials, suitable for automatic continuous operation in coking wastewater treatment plants. | Corrosion Resistance, Explosion-proof Design, Energy Efficiency, and Odor-free Operation | Sludge Pump (Sludge Transfer) Dosing Pump (for flocculant) Screw Conveyor (for dewatered sludge) PAM Preparation and Dosing System PLC Control System |
| Alcoholic beverage industry (distilleries and breweries) | GLOBAL | High-organic-load distillery/brewery wastewater sludge with high moisture content (typically 95-99.8%); sludge is prone to fermentation and odor generation; requires enclosed and corrosion-resistant equipment due to organic acids and ethanol residues. | Sludge thickening + screw press dewatering + thermal drying integrated treatment project | Significantly reduces sludge volume and moisture content; converts high-organic distillery sludge into dry, stable biomass material suitable for co-incineration, land application, or as an alternative fuel source; minimizes odor emissions and ensures compliance with local environmental regulations for food and beverage industry waste. | Fully Automatic Continuous Operation | Corrosion Resistance, Explosion-proof Design, Energy Efficiency, and Odor-free Operation | Sludge Pump (Sludge Transfer) Dosing Pump (for flocculant) Screw Conveyor (for dewatered sludge) PAM Preparation and Dosing System PLC Control System |
| Automotive Parts Manufacturing (Electroplating and Surface Finishing) | GLOBAL | Electroplating heavy metal sludge,corrosive wastewater environment | Sludge Dewatering and Drying Process Package | Dewatering and drying processes are applied to treat post-treatment sludge, significantly reducing sludge volume and minimizing disposal costs. | Fully Automatic Continuous Operation | Corrosion Resistance, Explosion-proof Design, Energy Efficiency, and Odor-free Operation | Sludge Pump (Sludge Transfer) Dosing Pump (for flocculant) Screw Conveyor (for dewatered sludge) PAM Preparation and Dosing System PLC Control System |
| Palm Oil Industry | GLOBAL | Palm oil sludge / Empty Fruit Bunch (EFB),Palm oil mill effluent (POME) | Integrated Sludge Reduction, Dewatering, and Drying Process | Significantly reduces sludge volume and moisture content; minimizes disposal costs and environmental pollution; supports palm oil mills in achieving zero-discharge and sustainable waste management goals. | Unattended continuous operation | Corrosion-resistant, explosion-proof, energy-efficient, and odor-free design | Sludge Pump (Sludge Transfer) Dosing Pump (for flocculant) Screw Conveyor (for dewatered sludge) PAM Preparation and Dosing System PLC Control System |
| Pharmaceutical Industry | GLOBAL | High-organic and chemically complex sludge from pharmaceutical wastewater treatment | Sludge dewatering + sludge deep dewatering + thermal drying integrated treatment project | Significantly reduces sludge volume and moisture content; stabilizes pharmaceutical residues and reduces biological activity in the dried sludge; converts hazardous pharmaceutical sludge into dry, stable material suitable for incineration, safe landfill disposal, or further resource recovery. | Fully automatic continuous operation | Corrosion Resistance, Explosion-proof Design, Energy Efficiency, and Odor-free Operation | Sludge Pump (Sludge Transfer) Dosing Pump (for flocculant) Screw Conveyor (for dewatered sludge) PAM Preparation and Dosing System PLC Control System |
| Municipal wastewater treatment / Industrial wastewater treatment / Sludge reduction projects | GLOBAL | Dewatered sludge requiring continuous low-temperature belt drying | Belt sludge drying system | Reduce sludge moisture and volume through enclosed heat pump drying | Continuous belt drying operation | Final moisture target and sludge feeding condition must be confirmed before model selection | High-temperature heat pump, belt dryer body, air circulation system, feeding system, discharge system, control cabinet |
| Municipal wastewater treatment / Industrial wastewater treatment / Chemical sludge treatment | GLOBAL | Dewatered sludge requiring low-temperature drying and volume reduction | Low-temperature sludge drying system | Remove water from sludge and reduce sludge volume for easier disposal or resource recovery | Batch drying operation with enclosed circulating air | Moisture target, sludge thickness, and ventilation/odor control should be confirmed by project | Heat pump system, circulating air system, heat exchanger, sludge feeding and discharging system, control cabinet |
| Municipal wastewater treatment plants / Chemical plants / Sludge disposal projects | GLOBAL | Dewatered sludge requiring secondary deep dewatering before drying, incineration, or disposal | High-pressure sludge deep dewatering system | Further reduce sludge moisture after primary dewatering | Continuous automatic operation | Conditioning chemicals and project-specific sludge testing are required | Sludge mixer, modifier dosing system, sludge distribution system, high-pressure belt press, conveyor, control cabinet |
| Municipal wastewater treatment / Industrial wastewater treatment / Paper mills / Printing and dyeing | GLOBAL | Medium to large continuous sludge dewatering duty with rotary drum thickening | Rotary drum type sludge thickening and dewatering system | Combine rotary drum thickening and belt press dewatering to reduce sludge moisture | Continuous automatic operation | Stable feed concentration, correct polymer dosing, and routine belt washing are required | Polymer preparation system, rotary drum thickener, belt press section, wash water system, screw conveyor, control cabinet |
| Municipal wastewater treatment / Industrial wastewater treatment / Paper mills / Printing and dyeing | GLOBAL | Medium-solids sludge requiring rotary drum pre-thickening and belt press dewatering | Rotary drum thickening and belt dewatering system | Pre-thicken sludge and then dewater it through belt pressing | Continuous automatic operation | Proper polymer conditioning and regular filter cloth cleaning are required | Polymer preparation system, rotary drum thickener, belt press section, wash water system, sludge conveyor, control cabinet |
| Municipal wastewater treatment / Industrial wastewater treatment / Paper mills / Printing and dyeing | GLOBAL | Low- to medium-concentration sludge requiring continuous one-step thickening and dewatering in municipal or industrial wastewater treatment plants | Integrated sludge thickening and dewatering system | Integrate gravity belt thickening and belt press dewatering into a single unit, achieving continuous sludge concentration, volume reduction, and easier downstream sludge handling | Continuous automatic operation | Stable flocculation, adequate wash water, and correct belt tension are required | Polymer preparation system, sludge feed pump, flocculation tank, wash water system, screw conveyor, control cabinet |
| Industrial wastewater treatment / Food processing wastewater / Oily sludge treatment | GLOBAL | Sticky, oily, low-concentration or high-inorganic-content sludge | Wear-free screw press sludge dewatering system | Improve stable conveying and dewatering while reducing screw-to-ring wear risk | Continuous automatic operation | Sludge type confirmation is required; suitable for difficult sludge after testing | Polymer preparation system, sludge feed pump, flocculation tank, screw conveyor, control cabinet |
| Municipal wastewater treatment / Industrial wastewater treatment / Paper mills / Printing and dyeing | GLOBAL | Low-concentration sludge; continuous mechanical dewatering | Mechanical sludge dewatering system | Reduce sludge volume and produce dewatered sludge cake | Continuous automatic operation | Polymer jar test, correct feed concentration, and anti-clogging operation are required | Polymer preparation system, sludge feed pump, flocculation tank, screw conveyor, control cabinet |
| Municipal wastewater treatment / Industrial wastewater treatment | GLOBAL | Low-solids sludge; enclosed thickening operation; limited installation space | Enclosed rotary drum sludge thickening system | Increase sludge concentration and reduce water load for downstream dewatering | Continuous low-speed rotary drum operation | Proper screen mesh selection and polymer conditioning are required | Polymer preparation system, flocculation tank, sludge feed pump, wash water system, control cabinet |
| Municipal wastewater treatment / Industrial wastewater treatment | GLOBAL | Low-solids sludge before mechanical dewatering; continuous thickening duty | Sludge thickening system | Increase sludge solids concentration before mechanical dewatering | Continuous operation; adjustable belt speed | Sludge sample test and polymer selection are recommended before final sizing | Polymer preparation system, sludge feed pump, mixing tank, wash water system, local control cabinet |
Industries (15) → Products (10 models) → Certifications (4)
Manufacturing Capabilities
Core processes and equipment available in-house.
Customization
● Equipment type and model selection based on sludge characteristics and treatment capacity requirements ● Processing capacity (treating capacity can be customized to meet specific project demands) ● Equipment dimensions and footprint (customized to fit site constraints) ● Control system configuration (PLC automation level) ● Power configuration (voltage, frequency, motor specifications) ● Modular design options (for dryers and other systems to allow capacity expansion) ● Auxiliary equipment integration (customized conveying, dosing, and storage systems)
Monthly Capacity
40
Lead Time
30-60 days
Export Markets
Southeast Asia, Russia, South America, Middle East, and other regions upon request
After Sales
● Remote technical support via phone, email, or video conferencing ● On-site commissioning and installation guidance (available upon request) ● Spare parts supply with rapid response ● Warranty service (specific warranty terms provided per equipment type) ● Operation and maintenance training for client personnel ● Long-term technical consultation and troubleshooting support
Quality Control
100% test
Project References / Cases
Verified project records. Client names anonymized where requested.
| Client Type | Country | Quantity | Application | Duration | Result | Highlight |
|---|---|---|---|---|---|---|
| Municipal WWTP | CN | 8 machines | Pre-concentrate raw sludge to increase feed solids content, reduce sludge volume load, and support subsequent plate-and-frame filter press dewatering. | 1 year | Our FRDT rotary drum thickener concentrates sludge from 99.4% down to 97% moisture content, elevating the solids content to 3%. This significantly enhances the dewatering performance of the downstream plate and frame filter press. | Delivering stable and highly efficient concentration, this unit handles high sludge volumes with ease. Its fully enclosed design guarantees hygiene and environmental cleanliness, while the robust construction with minimal wearing parts ensures long-term reliability. |
| Advanced manufacturing | CN | one machine | Sludge drying and reduction for wastewater treatment in precision component manufacturing. | 6 years | he project utilizes sludge discharged from a screw press at 85% moisture content. Using our BSD-2000 belt dryer, the moisture content is further reduced to below 30%, effectively minimizing sludge disposal volume and lowering overall treatment costs. | Due to the high moisture content of the feed sludge, the initial extrusion results were not ideal. However, following optimization and debugging, the extruder now functions perfectly. We have achieved great material distribution and stable, reliable drying performance. The system is robust, with low downtime and reduced maintenance expenses. |
| Automotive parts industry | CN | two machine | Sludge reduction from automotive component manufacturing wastewater is achieved through low-temperature drying using a heat pump dehumidification system. | 5 years | The sludge, initially dewatered to 75% moisture content by a plate and frame filter press, is dried to less than 25%. Consequently, over 700 kg of water is removed per metric ton of sludge, accompanied by a volume reduction exceeding 70%, thereby optimizing disposal costs. | Designed for fully automatic batch drying, the system requires no operator attendance and has zero wearing parts, guaranteeing stable operation. By leveraging high-efficiency heat pump technology, it drastically cuts both labor and disposal expenses. |
| City Sewage Treatment Plant | CN | two machine | The excess sludge (99.2% MC) from the municipal plant is fed into the integrated thickener-dewaterer, achieving a final cake dryness of <80%. | 5 years | With its integrated thickening and dewatering design, the machine processes sludge from 99.2% down to 80% moisture content. Its stable continuous operation significantly cuts downstream sludge disposal expenses. | More stable than standard dewatering equipment, it delivers consistent cake dryness with minimal maintenance. Designed for fully continuous operation, it runs unattended, needing only scheduled walk-throughs. |
| Vegetable oil processing | CN | one machine | Dewatering by pressing of sludge generated from wastewater treatment in the processing of soybean, palm, and canola oils. | 8 years | Capable of reducing sludge moisture content from 97% to 77%, the screw press slashes sludge volume by up to 98%. | "Featuring fully automated operation, the unit minimizes life-cycle costs through low maintenance requirements and reliable, stable dewatering performance." |
| Pharmaceutical industry wastewater | CN | one machine | At the pharmaceutical wastewater treatment station, the sludge generated from the biological aeration process is dewatered to achieve volume reduction | 10 years | It cuts the sludge moisture content from 99% down to under 85%, slashing the sludge volume by up to 93%. | Fully automated operation, minimal maintenance costs, low repair expenses, and reliable dewatering results. |
| Food processing wastewater | MY | one machine FTB-1000 | This study focuses on the dewatering of food processing wastewater sludge using a filter press to achieve sludge reduction. | 8 years | The pressing process significantly reduces the moisture content and volume of the sludge.The FTB-1000 belt-type rotary drum sludge thickener-dewatering machine reduces the moisture content from 98.5% to below 80%. | With stable dewatering results and easy upkeep, this solution cuts sludge handling costs for clients by 30%. |
| Specialty Chemicals Plant | CN | one machine,FTB-1500L | Press dewatering of sludge generated from chemical wastewater treatment. | 5 years | Cuts water content by almost half—from 99% to well below 80%—delivering a discharge-ready sludge cake. | Offers exceptional reliability with minimal downtime. |
Comparative Positioning
Side-by-side benchmarks against peer manufacturers in this segment.
| Compared To | Difference | Performance Gap | Best For | Cost Difference | Efficiency |
|---|---|---|---|---|---|
| Corrosion of the dryer evaporator | Conventional sludge dryers typically employ finned-tube heat exchangers for evaporation. However, this configuration is unsuitable for highly polluted environments, as its susceptibility to fouling leads to a rapid decline in heat transfer efficiency. In contrast, our condenser design utilizes multiple rows of smooth 316L stainless steel tubes—deliberately omitting fins. During operation, a continuous water film forms naturally on the smooth tube surfaces, effectively capturing airborne dust particles. The unobstructed, polished geometry prevents scale adhesion, allowing deposits to detach spontaneously. Furthermore, an integrated automated spray-flushing system periodically washes away accumulated contaminants, which are then discharged with the condensate, ensuring sustained high-performance operation without manual intervention. | We guarantee a service life of 5–8 years. This significantly outperforms conventional finned-tube units, which commonly exhibit critical corrosion within a 3-year operational timeframe. | Drying of municipal sewage sludge and biogas digestate | About 50% lower post-operation maintenance expense related to evaporator cleaning, corrosion repair, and replacement. | Compared to conventional finned-tube systems, our design boosts overall efficiency by a factor of 1.3–1.5. |
| Wear of the screw shaft in the multi-disc screw press | Unlike standard models where screw shaft wear is common, our advanced design guarantees a completely wear-free screw shaft. | While conventional multi-disc screw presses typically suffer severe wear after just 10,000 hours of operation, our wear-free design guarantees zero wear even after 50,000 hours. | Municipal sewage plants, printing and dyeing factories, chemical enterprises, food processing plants, and other facilities with long-term continuous sludge dewatering demand, especially for oily, sticky, or high-inorganic-content sludge. | About 30% lower post-operation maintenance expense related to screw shaft wear, ring wear, spare parts replacement, and repair work. | The absence of wear reduces frictional losses, resulting in lower energy consumption. |
Risk & Trust Signals
Aggregated data-driven indicators. Not an endorsement.
Purchase & Trade Information
Trading terms and procurement details.
Product Comparison
Comparative analysis against alternative solutions.
| Compared To | Difference | Performance Gap | Best For | Cost Difference | Efficiency |
|---|---|---|---|---|---|
| Corrosion of the dryer evaporator | Conventional sludge dryers typically employ finned-tube heat exchangers for evaporation. However, this configuration is unsuitable for highly polluted environments, as its susceptibility to fouling leads to a rapid decline in heat transfer efficiency. In contrast, our condenser design utilizes multiple rows of smooth 316L stainless steel tubes—deliberately omitting fins. During operation, a continuous water film forms naturally on the smooth tube surfaces, effectively capturing airborne dust particles. The unobstructed, polished geometry prevents scale adhesion, allowing deposits to detach spontaneously. Furthermore, an integrated automated spray-flushing system periodically washes away accumulated contaminants, which are then discharged with the condensate, ensuring sustained high-performance operation without manual intervention. | We guarantee a service life of 5–8 years. This significantly outperforms conventional finned-tube units, which commonly exhibit critical corrosion within a 3-year operational timeframe. | Drying of municipal sewage sludge and biogas digestate | About 50% lower post-operation maintenance expense related to evaporator cleaning, corrosion repair, and replacement. | Compared to conventional finned-tube systems, our design boosts overall efficiency by a factor of 1.3–1.5. |
| Wear of the screw shaft in the multi-disc screw press | Unlike standard models where screw shaft wear is common, our advanced design guarantees a completely wear-free screw shaft. | While conventional multi-disc screw presses typically suffer severe wear after just 10,000 hours of operation, our wear-free design guarantees zero wear even after 50,000 hours. | Municipal sewage plants, printing and dyeing factories, chemical enterprises, food processing plants, and other facilities with long-term continuous sludge dewatering demand, especially for oily, sticky, or high-inorganic-content sludge. | About 30% lower post-operation maintenance expense related to screw shaft wear, ring wear, spare parts replacement, and repair work. | The absence of wear reduces frictional losses, resulting in lower energy consumption. |