[Vehicle technical parameters] | |||
Product trademark | Cheng Liwei card | product model | CLW5253GQW |
product name | Vacuum suction tank car | Tank volume (m3) | 20 |
gross mass (Kg) | 25000 | outline dimension (mm) | 9500×2550×3650 |
Rated load mass (Kg) | 10150 | Front suspension / rear suspension (mm) | 1450/2220 |
curb weight (Kg) | 14720 | Top vehicle speed (Km/h) | 89 |
Number of passengers (person) | 2 | Approach angle / departure angle of (°) | 16/11 |
axle weight (Kg) | 7000 / 18000 (2-axial group) | ||
[Chassis technical parameters] | |||
Chassis model | ZZ5256XXYN504GF1 | Chassis name | |
brand name | ShanDe card | manufacturing enterprise | |
number of axles | 3 | Number of tires | 10 |
wheel base (mm) | 4600+1350 | ||
tyre size | 11.00R20 18PR | ||
Number of steel plate spring sheets | front gauge (mm) | 1998 | |
Fuel types | diesel oil | rear track (mm) | 1850 |
Emission basis standard | The GB17691-2018 countries | ||
engine type | Engine production enterprise | displacement (ml) | power (Kw) |
WP8.350E62 | Weichai Power Co., LTD | 7800 | 257 |
Description:
Sinotruk Shandeka, Weichai 350 horsepower engine, G5-K series cab, wheelbase: 4600 + 1350, Sinotruk Howo 10 gear gearbox, 7.5 tons front axle, 11 tons rear axle, 300mm beam, 11.00R20 steel wire tire, 300L aluminum alloy tank, four channel ABS, Bosch direction machine, airbag seat, electric glass, central lock, shake key, adjustable multi-function steering wheel, electric adjustment with heating rearview mirror.
1. The tank volume is 20 cubic meters, made of high quality steel plate, 8mm thickness, and reasonable design of wave proof plate in the middle of the tank
2. Install Shandong Zibo 2 BE 204 water circulating pump (gas extraction: 1200 m 3 / h)
3. Install anti-overflow valve, vacuum pipe with stainless steel filter net, secondary filter device (to prevent impurities into the pump)
4. The shock-resistant pressure gauge with a diameter of 100 is installed at the four-way valve position, which can resist the vibration of the working environment and reduce the pulsating influence of the medium pressure
5, a 100 suction outlet, a 150 sewage outlet
6. Tank belt lifting and self-unloading function, and hydraulic locking device of the back cover
7. The tank roof design platform, with protective guardrail, install 2 tank mouth, convenient for feeding from the top and cleaning the tank
A book of the truck instruction manual
A copy of the vehicle walking insurance manual
A set of tools for vehicles
Two 10-meter sewage suction pipe
The Shandeka 20000L Vacuum Suction Tank Car serves as a high‑capacity, heavy‑duty industrial vehicle engineered for the suction, transport, and controlled discharge of liquids, wastewater, sewage, sludge, and various industrial effluents. With a tank capacity of 20,000 liters and advanced vacuum technology, this class of vacuum tanker plays a central role in modern waste handling, sanitation services, construction site water management, and environmental control operations.
In global industrial and municipal applications, high‑capacity vacuum suction tankers have become essential tools for safety, efficiency, and environmental compliance. This comprehensive guide offers an in‑depth look at the Shandeka 20000L Vacuum Suction Tank Car, covering industry context, design features, technical specifications, operational advantages, industry application scenarios, maintenance best practices, safety considerations, comparative analysis with other capacities, SEO keyword strategy, frequently asked questions, and emerging trends shaping the future of vacuum truck technology.
All sections are optimized for search engine relevance and user engagement, making this ideal for blog posts, product category pages, technical overviews, and industry portals.
A vacuum suction tank car is a specialized industrial vehicle designed to create a negative pressure environment inside a reinforced storage tank. This negative pressure enables the efficient suction of liquids, sludges, wet waste, slurry, and other fluid or semi‑fluid materials into the tank for transportation and controlled release. Unlike basic liquid transport trucks that rely on mechanical pumps or gravity alone, vacuum tank cars use powerful vacuum systems that dramatically increase suction speed and allow handling of high‑viscosity or heavy‑particle liquids.
The Shandeka 20000L Vacuum Suction Tank Car stands out in its class for combining large tank volume, high‑capacity vacuum performance, and rugged structural design. With a 20,000‑liter tank and robust chassis, it supports large‑scale operations while sustaining safety and regulatory standards in municipal, industrial, and environmental contexts.
Vacuum suction trucks are essential where manual removal of waste is impractical or hazardous, such as deep sewer lines, chemical process facilities, mining sites, and emergency spill responses. Thanks to advances in vacuum pump technology, hydraulic systems, and reinforced tank designs, this class of vehicle now meets demanding performance, safety, and environmental criteria across multiple industries.
To fully understand the functions and capabilities of vacuum suction tank cars, it’s essential to clarify key terms used throughout the sector:
| Industry Term | Definition |
|---|---|
| Vacuum Suction Tank Car | A vehicle equipped with a vacuum pump and a sealed storage tank for suction and transport of liquids and sludge. |
| Tank Capacity | The maximum volume of material the storage tank can hold, usually measured in liters or cubic meters. |
| Vacuum Pump | A mechanical device creating negative pressure that draws liquid into the storage tank. |
| Discharge System | The mechanism that releases collected material from the tank in a controlled manner. |
| Heavy‑Duty Chassis | Reinforced frame designed to support the weight and forces associated with large liquid volumes. |
| Hydraulic System | A system of pumps and actuators that controls suction and discharge operations. |
| Sewage | Wastewater from residential or commercial sources containing organic waste. |
| Sludge | Semi‑solid residual byproduct from wastewater treatment or industrial processes. |
| Effluent | Liquid discharge, often from industrial processes, requiring specialized handling and disposal. |
These terms provide a useful foundation for understanding the technical, regulatory, and operational aspects described later in this guide.
Urban growth, environmental regulations, and expanding industrial activity are primary forces driving the demand for high‑capacity vacuum suction tank vehicles. Municipal sanitation departments, industrial facilities, construction projects, and environmental remediation services all rely on vacuum tankers for efficient and compliant waste handling.
Modern waste management emphasizes safety, environmental protection, and operational cost efficiency. Traditional manual methods of liquid waste removal — such as portable pumps, buckets, or small‑capacity tankers — have limited effectiveness and pose risks to personnel and infrastructure. By contrast, vacuum suction tank cars offer rapid response, sealed waste transport, and reduced human exposure to hazardous materials.
Key industry drivers include:
Urban Sanitation Needs – Rapid urbanization requires frequent clean‑outs of sewer lines, septic systems, and city‑wide wastewater infrastructure.
Industrial Effluent Handling – Chemical, petrochemical, food processing, and manufacturing plants generate liquid waste streams that demand specialized suction and transport capabilities.
Construction Site Water Management – Modern construction sites require reliable removal of storm water, slurry, and excavation runoff to maintain safe working conditions.
Environmental Compliance Regulations – Increasingly stringent wastewater and waste handling laws mandate safer vehicles with containment, monitoring, and emission controls.
Emergency Response Preparedness – Spill events and hazardous material releases require fast and effective suction and containment solutions.
Together, these factors contribute to sustained growth in the vacuum suction tanker segment, especially for units capable of handling large volumes like the 20000L class.
The Shandeka 20000L model integrates advanced design principles across multiple subsystems, each optimizing performance, durability, and operational safety. Key design elements are described below.
The chassis of a vacuum suction tank car supports the entire vehicle structure, including the weight of the tank when fully loaded. A robust, reinforced frame is essential to maintain structural integrity under heavy liquid loads, dynamic forces during transport, and repetitive service cycles.
Important chassis characteristics include:
Reinforced steel frame engineered to handle full tank weight plus dynamic forces during travel.
Multi‑axle configurations for improved weight distribution, traction, and stability.
Heavy‑duty suspension systems to absorb road shocks and reduce structural stress.
High‑strength load bearing components to support repeated service intervals.
In heavy‑duty vacuum tankers like the Shandeka 20000L, the chassis is often customized to accommodate the large tank, suction pump assemblies, discharge controls, and safety instrumentation without compromising ride stability or component service life.
The storage tank itself must meet demanding requirements for corrosion resistance, abrasion tolerance, pressure variation, and structural strength. Liquid waste and sludge often contain acidic compounds, heavy solids, and abrasive particles that can degrade inferior materials.
Tanks for 20000L vacuum suction vehicles typically feature:
High‑strength carbon steel or alloy construction for structural durability.
Corrosion‑resistant interior liners to extend tank life under aggressive waste conditions.
Reinforced baffles and internal support structures to reduce liquid surge during transit.
Sealed top hatch systems to maintain vacuum integrity and prevent vapor leaks.
Pressure relief valves and safety vents to regulate internal pressure during suction and discharge operations.
The goal is to support high negative pressures (vacuum) without structural deformation, maintain tank integrity during road transit, and facilitate safe, hygienic waste handling.
The vacuum pump is the core component responsible for creating negative pressure inside the tank and drawing liquids into the vessel. Its performance determines suction speed, flow capacity, and effectiveness in handling high‑viscosity liquids.
Key vacuum pump characteristics include:
High‑capacity vacuum motor capable of fast suction for industrial workloads.
Adjustable suction flow control to handle different liquid viscosities and solid content.
Pressure monitoring systems to ensure safe operational limits.
Automatic shut‑off features to prevent over‑pressurization.
Low vibration and noise design for operator comfort and workplace safety.
Industrial‑grade vacuum systems on 20,000L tank cars are engineered for heavy use and extended service intervals, enabling consistent performance in demanding environments.
After suction, the collected liquid must be discharged safely and efficiently. Discharge systems are engineered to provide controlled release, whether for waste processing facilities, treatment plants, or temporary storage pumping.
Typical discharge features include:
Hydraulic or gravity‑assisted release mechanisms.
Remote control operation for safe, stand‑off positioning.
High‑flow output valves and piping for rapid processing.
Compatibility with hoses and connectors for industrial interfaces.
Pressure regulation and backflow protection to avoid system damage.
Operator comfort and safety are enhanced through intuitive control panels, real‑time monitoring, and ergonomic actuator placements.
The driver’s environment plays a crucial role in productivity, safety, and workflow efficiency. Modern vacuum suction tank cars incorporate advanced cabin features designed to optimize operator performance.
Cab benefits may include:
Comfortable seating with adjustable ergonomics.
Climate‑controlled interior for extreme weather operations.
Integrated control panels for vacuum and discharge systems.
Digital dashboards with pressure, flow, and diagnostic indicators.
Safety interlocks, emergency stops, and alarm systems.
These features promote sustained performance, reduce operator fatigue, and enhance overall job site safety.
The following table outlines typical technical specifications for a 20000L class vacuum suction tank car. Specifications may vary by region, regulatory standards, or specific vehicle configuration.
| Specification Category | Details |
|---|---|
| Model Name | Shandeka 20000L Vacuum Suction Tank Car |
| Tank Capacity | 20,000 liters (approx. 20 cubic meters) |
| Tank Material | High‑strength steel with corrosion‑resistant lining |
| Vacuum Pump Type | Industrial heavy‑duty vacuum pump |
| Vacuum Flow Capacity | High flow adjustable |
| Discharge Method | Hydraulic or gravity‑assisted |
| Chassis Type | Reinforced multi‑axle heavy‑duty frame |
| Engine Power | Diesel engine, typically 280–350 HP |
| Transmission | Manual or automated |
| Braking System | Air brake with ABS |
| Tire Specification | Heavy‑duty radial, 12R22.5 or equivalent |
| Cab Features | Ergonomic control panel, climate control, safety alarms |
| Maximum Operating Vacuum | Up to –0.9 bar (negative pressure) |
| Safety Systems | Pressure relief valves, watchdog alarms |
| Maintenance Access | Side service panels and safety ladders |
| Discharge Piping | High‑flow industrial grade |
This specification table provides a comprehensive overview for engineers, procurement specialists, fleet planners, and logistics managers.
The Shandeka 20000L Vacuum Suction Tank Car offers many benefits that directly address the challenges faced in waste management, industrial liquid handling, and construction site water control:
High‑Capacity Transport Efficiency — With a 20,000‑liter tank, this vehicle dramatically reduces the number of trips required for large‑scale waste removal, minimizing fuel consumption, labor hours, and dispatch costs.
Rapid Suction Performance — Advanced vacuum systems allow efficient intake of liquids and sludge, even with high solid content or viscosity.
Enhanced Safety and Compliance — Integrated safety valves, pressure monitoring, and sealed tanks reduce risks of leaks, spills, or hazardous exposure.
Reduced Operational Downtime — Engineered for heavy duty cycles with robust construction and service access points that streamline maintenance.
Versatile Use Across Industries — Effective in municipal sanitation, chemical plant wastewater handling, construction site water removal, environmental spill responses, and agricultural waste management.
Operator Comfort and Ergonomics — Operator‑friendly cab features support long‑duration operations without excessive fatigue.
Large vacuum suction tank cars are used across a broad range of industry scenarios, each requiring specialized handling of liquids or semi‑solids.
Vacuum tank cars support city and regional sanitation departments by removing wastewater, clearing clogged sewer lines, maintaining septic systems, and responding to service emergencies.
Manufacturing facilities, refineries, food processing plants, and chemical operations produce liquid waste streams that require fast, safe removal to keep production lines running and comply with environmental regulations.
Excavation sites, foundation work areas, and storm damage sites often accumulate water, slurry, or mud that needs efficient removal to maintain safe work zones.
In spill response scenarios, vacuum suction tank cars enable rapid containment, removal, and transport of hazardous liquids to specialized processing or disposal facilities.
Large agricultural facilities use vacuum tankers for slurry removal, waste pit clean‑outs, and nutrient slurry transport to storage or spreading systems.
Proper maintenance maximizes uptime and prolongs service life. A structured preventative maintenance program should include:
Vacuum Pump Checks — Regular inspection of motor belts, seals, filters, and flow performance.
Tank Inspection — Checking for corrosion, cracks, or liner wear, especially in high‑use areas.
Discharge System Maintenance — Ensuring inlet screens, valves, and hoses are free of blockages and function smoothly.
Chassis and Suspension — Inspecting tires, brakes, coupling systems, and suspension components.
Control System Calibration — Verifying accuracy of pressure gauges, alarms, and electronic indicators.
Routine maintenance reduces unexpected failures, enhances safety, and supports compliance with environmental and safety regulations.
| Tank Size | Typical Use Case | Major Strength |
|---|---|---|
| 10,000L | Small sanitation or construction sites | Easier maneuverability |
| 15,000L | Medium‑scale industrial & municipal needs | Balanced capacity |
| 20,000L | Large industrial & citywide operations | Fewer trips, high efficiency |
| 25,000L+ | Bulk waste removal | Maximum volume per unit |
The 20000L class represents a strategic middle ground — large enough for demanding workloads, yet still manageable in urban and restricted job site environments.
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This keyword set supports broad coverage for organic search and relevance across buyer, researcher, and technical user segments.
What materials can the vacuum suction tank car handle?
It can handle wastewater, raw sewage, industrial effluent, slurry, and semi‑solid sludge with proper operator procedures.
How does the vacuum system function?
A high‑capacity pump creates negative pressure inside the sealed tank, drawing fluids efficiently into the vessel through suction hoses.
Is the vehicle safe for hazardous liquids?
With correct safety measures, pressure relief systems, and sealed tank design, it can be used for regulated hazardous materials within compliance guidelines.
What is the typical operating life of a 20,000L vacuum truck?
With proper maintenance, vacuum suction tank cars can serve reliably for many years due to robust construction and heavy‑duty components.
Are there regulations for operating vacuum trucks?
Yes, operators must comply with local environmental, transport, and safety regulations depending on the liquid type and region.
Emerging technology and environmental expectations are shaping vacuum suction tank car development:
Electrification and Hybrid Systems — Reduced emissions and quieter operation for urban environments.
Telematics and Remote Monitoring — Real‑time performance, diagnostics, and preventive maintenance alerts.
Advanced Materials — Corrosion‑resistant alloys improve longevity and reduce lifecycle costs.
Autonomous Assistance — Safety systems that support on‑site navigation and controlled operations.
These trends point toward smarter, cleaner, and more efficient vacuum solutions for future industrial needs.
The Shandeka 20000L Vacuum Suction Tank Car exemplifies the intersection of industrial engineering, operational efficiency, and modern waste handling requirements. Its large tank capacity, powerful vacuum system, robust chassis, and safety‑oriented design make it an indispensable tool across sanitation, industrial, construction, and environmental applications.
This detailed guide has provided a full scope of industry insights, specifications, operational benefits, maintenance practices, comparative analysis, SEO keyword integration, FAQs, and emerging trends — all crafted to support informed decision‑making and maximize value for both technical users and content indexing by search engines.
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