Dedicated to becoming a leading brand in application system solutions for the vacuum industry. We remain committed to R&D, striving to align with global industry benchmarks and emerging trends. Through continuous innovation, we constantly refine our product processes, strengthening our core competitiveness while deeply cultivating niche markets. Focused on quality, we deliver tailored, automated, systematic, engineering-based, and customized products and services that meet the unique needs of our customers.

Beautiful Rural Village

Climate and geographic conditions are critical factors influencing the selection of technical models and determining the construction and operational costs of rural domestic wastewater treatment. Therefore, adopting approaches tailored to local circumstances is essential in addressing rural wastewater management. The vacuum sewage collection system boasts features such as a fully sealed and leak-proof pipeline network, 100% collection efficiency, flexible pipe routing that can navigate slopes and curves without being constrained by terrain, easy installation with no need for deep burial, and resistance to clogging—making it particularly well-suited for initiatives like beautiful countryside development, preservation of ancient villages and architecture, protection of water sources, and areas characterized by complex topography or challenging ground conditions.

River Channel Pollution Control

In the densely networked old city districts, buildings are often built right alongside rivers, leading to wastewater discharge directly into the waterways. This practice of dumping untreated sewage is a major contributor to the black and odorous conditions plaguing these rivers. However, FUTEN’s vacuum drainage system offers an effective solution to the significant construction challenges posed by such scenarios. By installing wall-mounted vacuum wells along the riverbanks, the system preserves the integrity of existing roads and structures—without the need for additional inspection pits—and enables quick, hassle-free pipe installation.

Treatment of Black and Odorous Water Bodies

Green Building

Green buildings refer to structures that, throughout their entire lifecycle, maximize resource conservation—such as energy, land, water, and materials—while simultaneously protecting the environment and minimizing pollution. A key component in achieving green building design is "same-floor drainage," which means that the drainage pipes from sanitary fixtures in bathrooms (including waste discharge horizontal pipes and branch drains) do not pass through the floor slab of the current level into the space below. Instead, these pipes are installed on the same floor as the fixtures themselves, connecting directly to the building's vertical drainage stack within the unit. Compared to traditional inter-floor drainage systems, the core principle behind same-floor drainage lies in the rational layout of pipes within each floor, effectively eliminating the constraints between adjacent levels. This approach prevents issues such as unclear property rights, noise disturbances, leakage risks, and spatial limitations—all common problems caused by drainage pipes encroaching on lower-level spaces. Ultimately, same-floor drainage delivers healthier, more comfortable living environments. Green building technologies emphasize sustainable construction practices that are low-consumption, highly efficient, cost-effective, environmentally friendly, and integrative.

Scenic Spots

The vacuum drainage system offers flexible sizing and can be used in areas with high sewage flow, such as resort zones and scenic tourist areas. Thanks to the vacuum drainage pipes' excellent sealing performance and zero-leakage advantages, they are ideal for use in water source protection zones, preventing sewage from seeping into groundwater and contaminating water resources. Additionally, in regions with high groundwater levels, these systems help avoid reverse seepage of groundwater into the sewage pipes, thereby reducing the operational load on wastewater treatment plants.

Toilet Revolution

Eco-friendly toilets are facilities or devices that leverage modern technological solutions to address restroom needs, achieving water conservation, emission reduction, energy efficiency, and promoting a civilized, eco-friendly environment. This product line shares the same design principles as restroom systems found on airplanes and high-speed trains. Inside, it features vacuum-operated squat toilets and vacuum urinals, utilizing powerful suction combined with minimal water to efficiently clean waste. Additionally, the fixtures’ drain outlets are equipped with automatic valves that seal tightly, effectively preventing odors from escaping. Compared to conventional public restrooms, eco-friendly public toilets offer several key advantages: 1. **Significantly Reduced Water Usage**: While traditional water-saving toilets mandated by national standards use 6 liters per flush, vacuum-based toilets consume only 0.5 liters per flush—dramatically cutting down on water consumption. 2. **Eliminates Odor Issues Completely**: Traditional flushing toilets rely on water pressure, leaving some odor lingering in the air. In contrast, vacuum systems draw waste inward under negative pressure, ensuring no unpleasant smells escape into the surrounding space. This makes them ideal for small, poorly ventilated restrooms where odor control is critical. 3. **Simplified Installation Process, Lowering Costs**: Since vacuum pressure serves as the driving force, plumbing installation can flexibly follow the natural contours of both external and internal structures—whether straight, curved, or even vertical. Achieving such flexibility is far more challenging with gravity-fed systems. Moreover, because vacuum systems require smaller-diameter pipes (roughly one-third the size of traditional gravity-fed systems), installation costs are further reduced. 4. **Enhanced Reliability and Resistance to Clogging**: The consistent negative pressure range of -0.03 to -0.05 atmospheres ensures robust waste transport, minimizing the risk of clogs and guaranteeing stable, long-term operation.

Underground Utility Tunnel

The situation in underground spaces is quite complex, as many drainage points face significant challenges in managing wastewater effectively. If traditional gravity-based systems were used, the associated civil engineering costs could become quite high. In contrast, vacuum drainage systems offer greater flexibility in installation, helping to significantly reduce these construction expenses. Moreover, underground spaces are inherently enclosed environments, making it easier for odors from kitchen waste and restroom sewage to accumulate. This not only contaminates indoor air quality but also negatively impacts the overall business atmosphere, severely affecting the operational environment down there—making vacuum drainage an important consideration for such settings. Finally, another major issue in underground commercial and dining areas is the frequent clogging of drainage systems. Restaurant wastewater often contains heavy grease, which can solidify against pipe walls when cooling or moving slowly. Over time, this buildup leads to blockages that are both difficult and costly to repair. Additionally, the trapped grease can breed bacteria, causing unpleasant odors and attracting pests like mosquitoes and flies. In contrast, vacuum drainage systems address these problems far more effectively. By utilizing a gas-liquid two-phase flow, vacuum drainage ensures high wastewater velocities—typically ranging from 4 to 7 meters per second—which provide powerful flushing action and minimize the risk of clogs. As a result, beyond just restrooms, vacuum drainage is increasingly being adopted by underground commercial and dining facilities to efficiently collect even oily wastewater.

Industrial Park

During the production process, factories generate large volumes of wastewater that require separate collection before being sent to water treatment facilities. Only after meeting discharge standards can this treated water be released into the municipal sewage network. Some of these effluents may even be toxic or hazardous; if leaked, they could severely contaminate surrounding areas. Other wastewater streams might emit unpleasant odors, contributing to air pollution, while others could contain high levels of impurities, oils, and exhibit poor flow characteristics. Such conditions often lead to frequent sedimentation, clogging drainage pipes and necessitating constant maintenance—issues that not only disrupt production processes but also drive up pipeline upkeep costs. Typically, conventional methods like trenching and burying pipes with gravity-based collection systems are employed. However, when faced with particularly complex factory environments, gravity drainage may not always be the optimal solution. In such cases, adopting a more eco-friendly and sustainable approach—such as vacuum drainage—can effectively address the diverse challenges associated with collecting industrial wastewater and effluents. Vacuum drainage systems are ideally suited for various types of industrial facilities, especially those generating substantial amounts of wastewater and dealing with intricate process flows. Examples include chemical plants, pharmaceutical manufacturers, food processing facilities, and electronics factories. These industries often need to manage toxic and hazardous waste, foul-smelling effluents, and wastewater laden with impurities and oils. Vacuum drainage systems excel in handling these complex scenarios, delivering efficient solutions for both wastewater collection and disposal. Moreover, vacuum drainage systems offer additional benefits, such as water conservation, emission reduction, and odor control, making them an excellent choice for industrial enterprises committed to environmental protection and resource efficiency. Compared to traditional gravity-based drainage systems, vacuum drainage systems provide significant advantages in industrial wastewater management. They allow for flexible pipe installation, significantly shorten construction timelines, and reduce overall costs, perfectly catering to the unique needs of factories with complicated operational layouts. Additionally, vacuum systems boast self-cleaning capabilities, effectively preventing pipe blockages. With their enclosed, sealed pipeline design, these systems minimize the risk of wastewater leaks and odor emissions, ensuring a cleaner, healthier working environment. As a result, vacuum drainage systems stand out as the ideal solution for tackling the challenges of industrial wastewater collection, helping to boost production efficiency, lower pipeline maintenance expenses, and ultimately support environmentally friendly industrial practices.

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Vacuum Application System Solution Provider

Vacuum Application Technology | Vacuum Energy-Saving Technology

Electrical Automation | Vacuum Wastewater Collection and Treatment

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