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Drainage Pump
Heavy-Duty Horizontal Mixed-Flow Pumps for Flood Control, Dewatering & Municipal Drainage
634 to 34,870 GPM at 9.5-64 ft head from a single pump-where your project starts, and where the trash pump stops. Manufactured at Beijing Beibangpu with all in-house casting, heat treatment and ISO 9906 performance testing.
AHW Series at a Glance
A range of models from 150AHW through to 600AHW in both fixed and trailered configurations. All information taken from the performance tables in the AHW Operation Manual.
8 Models
150AHW – 600AHW2 Configs
Fixed · Trailered2200 L/s
Max flow at 600AHW-519.5 m
Max head at 300AHW-12187 kW
Peak shaft power≤15 yr
Typical service lifeWhen Sump Pumps Can’t Keep Up — Real-World Drainage at Scale
Drainage pump – Pumps out standing, surface or discharged water at flow and head rates well above the capabilities of a home sump system. When the flows increase from 100 GPM to 3,000 34,000 GPM for municipal flood control, construction site dewatering, agricultural irrigation or industrial process cooling, as stated a new class of pump is needed – the horizontal mixed-flow centrifugal.
The Scaling Pain No One Writes About
Most stormwater, quarry, and irrigation applications begin with the same bad idea: tres-pump stacking. Three or four submersible trash pumps in parallel in the hope that the greatest GPM is clearly most efficient. About now the truth: electric bills soar, cables spiral into the hole, and if one stops working during a heavy rain, hundreds of thousands of gallons back up. Thereafter, your Preventive Maintenance consists of the Drop and Lift.
AHW horizontal mixed-flow pumps address the scaling issue at the point of origin. One 400AHW unit does the work of four to six traditional submersible dewatering pumps on a construction dewatering project in the 800 to 1,500 L/s range. The motor is dry, positioned on a steel baseplate – no submerged winding, no yearly hoist-and-inspect. On mobile projects the same mobile projects the same hydraulic end goes on a trailored skid ready to be towed by a bulldozer to new cut faces.
This is what this page is limited to. If you only require a portable single portable unit capable of less than 300 GPM to empty a flooded basement, you don’t require this pump use a small submersible. For 3,000 GPM at 20-60 ft of head over days, weeks or years of continuous operation continue reading.
What Undersized Drainage Goes Wrong
- Arraxed – submersible parallel array of strains site power – 4 cabling, 4 starters, 4 thermal overloads
- Eficiencia en pequeñas unidades raramente superior al 60% – penalización energética a largo plazo
- Failure instantané qui détruit tout la capacité de pompage en cas de pluie intense.
- Diesel trash pumps alleviate the problem of transport, but are incredibly costly with fuel.
- Lead time on specialty submersibles stalls projects at rainy season.
- Drop-and-lift maintenance cycles for submerged motors on abrasive water
BBP AHW Series — Model Selection & Performance Data
8 different models of 2 different structural layouts. All figures of performance listed below have been obtained directly from AHW Operation Manual factory test data, that have been tested after ISO 9906:2012 Grade 2B tolerance bands.
Fixed Type vs Trailered Type — What to Pick
End-Suction Horizontal Mount
Baseplate-mounted with dry external motor. Designed for permanent pump station installation — stormwater control, agricultural irrigation, industrial cooling circuits.
Typical Application
Pick this for pump stations, municipal flood control, permanent irrigation head works, or any continuous-duty installation above 3 months.
Portable Skid on Wheeled Chassis
Same hydraulic end mounted on a road-towable trailer. Quick-disconnect suction and discharge hoses. Move between work faces in one hour.
Typical Application
Pick this for construction dewatering across multiple work faces, flood emergency response, quarry pit rotation, or any job where mobility is a requirement.
| Model | Config | Flow (L/s) | Flow (GPM) | Head (m) | Head (ft) | Speed (rpm) | Efficiency η | Shaft Power (kW) | Shaft Power (HP) |
|---|---|---|---|---|---|---|---|---|---|
| 150AHW | Fixed | 40 – 150 | 634 – 2,378 | 3.7 – 10.5 | 12 – 34 | 1480 | 72 – 82% | 4.9 – 17.2 | 6.6 – 23.1 |
| 200AHW | Fixed | 100 – 350 | 1,585 – 5,548 | 7.5 – 12.4 | 25 – 41 | 980 | 74 – 82% | 8.6 – 42.6 | 11.5 – 57.1 |
| 250AHW | Fixed | 150 – 540 | 2,378 – 8,560 | 4.5 – 9.6 | 15 – 31 | 980 | 76 – 82.1% | 12.4 – 40.9 | 16.6 – 54.8 |
| 300AHW-7 | Fixed | 200 – 500 | 3,170 – 7,925 | 2.9 – 5.0 | 9.5 – 16 | 730 | 73 – 81% | 10.5 – 28 | 14.0 – 37.5 |
| 300AHW-12 | Fixed | 300 – 800 | 4,756 – 12,680 | 11.6 – 19.5 | 38 – 64 | 980 | 75 – 81% | 44.5 – 187.1 | 59.6 – 250.8 |
| 400AHW-7 | Trailered | 500 – 1,200 | 7,925 – 19,020 | 6.4 – 10.5 | 21 – 34 | 730 | 77 – 82% | 58 – 125.6 | 77.7 – 168.4 |
| 500AHW-7 | Trailered | 600 – 1,500 | 9,510 – 23,775 | 6.0 – 9.8 | 20 – 32 | 730 | 78 – 82% | 69.5 – 142.6 | 93.2 – 191.2 |
| 600AHW-5 | Trailered | 800 – 2,200 | 12,680 – 34,870 | 5.8 – 8.5 | 19 – 28 | 585 | 76 – 81% | 78.4 – 172 | 105.1 – 230.6 |
| Your Duty Point | Recommended Model | Configuration | Why |
|---|---|---|---|
| Flow < 2,000 GPM, Head < 34 ft, station duty | 150AHW | Fixed | Compact footprint, 1480 rpm runs on common induction motors |
| Flow 2,000-5,500 GPM, Head 25-41 ft, stormwater lift | 200AHW | Fixed | Sweet spot for municipal stormwater lift over a levee |
| Flow 2,500-8,500 GPM, Head < 31 ft, irrigation | 250AHW | Fixed | Highest efficiency band (82.1%) — agricultural irrigation |
| Flow 3,000-8,000 GPM, Head < 16 ft, low-lift drain | 300AHW-7 | Fixed | Low-speed (730 rpm) for rough water with solids |
| Flow 5,000-12,700 GPM, Head 38-64 ft, long discharge | 300AHW-12 | Fixed | Maximum head variant — when discharge pipe adds back pressure |
| Flow 8,000-19,000 GPM, mobile emergency | 400AHW-7 | Trailered | Highest-flow trailered unit that still runs off a standard generator |
| Flow 10,000-24,000 GPM, mobile project duty | 500AHW-7 | Trailered | Deploys at major construction dewatering with one operator |
| Flow > 20,000 GPM (up to 34,870) | 600AHW-5 | Trailered | Largest unit — flood response, major river diversion |
| Flow < 500 GPM, portable, head 30-100 ft | Not AHW | — | consider submersible trash pump—AHW is oversized for this duty; honest recommendation |
Every AHW ships with a pearlitic ductile or grey cast iron volute (ASTM A48 Class 35 equivalent), a single closed impeller balanced to ISO 21940 G6.3 limits, a packing-gland axial seal rated for the abrasive silt loads typical of stormwater and quarry pit duty, and a United Abrasive MEGATORCH™ commercial grade packing-gland seal. Bearing arrangement uses grease-purge fittings fitted to the accessible front of the unit, avoiding a pull of the pump: 6112 / 6314 / 6322 / 27024-RK24 depending on pump model. Buyers requiring stainless steel wetted parts can specify the same hydraulics with 2205 duplex or CF8M cast stainless – user picks at quote time for a 4-6 week lead time uplift.
AHW Mixed-Flow vs Submersible Trash Pump vs End-Suction Centrifugal
Three pump classes dominate the dewatering market place. All do the job well. The key is selecting which hydraulic category fits your duty curve. Here’s the fork in the road, along with real or described technical parameters for each.
AHW Horizontal Mixed-Flow
Submersible Trash Pump
End-Suction Centrifugal
When AHW Is the Right Answer
- Continuous duty 3+ months on one job – the horizontal dry-motor design gives you the lifetime advantage
- Flow demand above 3,000 GPM – parallel submersibles become a maintenance and power nightmare
- Abrasive water with fine silt but no large debris – the mixed-flow impeller tolerates sand without the wear rate of a pure centrifugal
- Head requirement between 20 and 60 ft – the band where submersible efficiency falls off and end-suction centrifugal is overkill
When AHW Is Not the Right Answer
- Head above 70 ft – specify a multi-stage submersible or end-suction centrifugal; we can recommend a partner brand
- Single small flooded basement or pit under 300 GPM – a compact submersible costs less and installs faster
- Deep-well drawdown over 30 ft suction lift – AHW is a surface pump, you need a submersible or wellpoint system
- Chemically aggressive fluids (strong acids, solvents) – specify our chemical pump line or stainless AHW variant
Industry Context
Industry context. The El Paso stormwater pumping station rebuild (post-2006 flood, $200M commercial & $115M municipal infrastructure damage) chose axial-flow propeller pumps rather than mixed-flow — the duty there was pure high-volume low-lift discharge into a river with formed suction intake geometry. Source: Pumps & Systems case documentation. AHW mixed-flow is the next step up in head capability when the discharge pipe runs long, the outfall is elevated, or the station lifts water over a levee. Both technologies are valid; the Decision Matrix above tells you which one matches your duty point.
Proven Applications — Municipal Drainage, Flood Control, Irrigation & Industrial
AHW units operate in five application profiles. Here are the duty envelopes and deployment logic for each. Where external data is cited, sources are noted at the bottom of the page.
Municipal Flood & Stormwater Stations
Continuous 24/7 · Fixed installation
Permanent pump stations dedicated to city drainage networks, sanitary sewer overflow relief, levee-protected districts or river-outfall boxes transmitting stormwater and combined sewage. Station capacity designs usually include two 300AHW-12 units for redundancy, along with a 200AHW booster station for low-rain periods.
Reference application band. External context: WEF Manual of Practice FD-4 (3rd Ed) provides design criteria for stations exceeding 1,000 cfs. San Diego Stormwater Pump Station Design Guidelines (January 2024) offer the latest compliance requirements.
Mine, Quarry & Pit Dewatering
Intermittent · Trailered & Fixed hybrid
Aggregate quarry pits, coal mine face rooms, open-cut sediment dams wherein surface runoff and infiltrating groundwater combine. The silt loading of some mine effluent makes the abrasive wear of submerged impeller faces counter-productive; a dry-motor AHW with long-wearing impeller expands maintenance cycle length.
Mine dewatering selection frameworks prioritize real-time behavior in the field rather than lab rated characteristics – a theme in industrial pump procurement. Source: PumpEng Australia mining pump selection guide.
Agricultural Irrigation & Drainage
Seasonal · Fixed
Headwork pump stations for rice paddies, district irrigation canals and field drains during monsoon season. The 250AHW reaches peak efficiency (82.1%) within the 2,378-8,560 GPM efficiency band experienced by most mid-size irrigation headworks.
Efficiency at design duty directly impacts grid power cost for irrigation districts. Within a life cycle of 20 years the variation between 65% and 82% efficiency yields in six-figure cost savings on heat rate and grid connection for every installed station.
Construction Site Dewatering
Project duration 3-36 months · Trailered
Excavation dewatering and foundation pit water removal, along with trench drainage on civil projects involving roads and bridges. A single 400AHW-7 unit on a trailer replaces a four-unit submersible array on a 10,000 GPM pit – saving costs on cable runs, starter panels, and hoist lifts.
Labor replacement efficiency is a site-level TCO driver. Field deployment records exhibit a single trailerized AHW unit servicing the workload of four 4in submersible trash pumps in construction dewatering.
Industrial Cooling Circuits & Process Water
Continuous · Fixed
Cooling water, product transfer for industrial processes, power plant heat rejection, industrial wastewater redirect during processing. A constant availability of greater than 95% is attainable with readily available packing materials and bearing replacement windows.
Industrial endurance is the application where the modern dry-motor centrifugal shows its long-lasting wear cycles to best advantage. The hassles of planning contingencies become planning lists, rather than daily firefighting.
Emergency Flood Response
Rapid mobilization · Trailered
Municipal emergency buckets, disaster preparedness pool, levee break rapid response. The 600AHW-5 is a full-scale flood pump with transport on flatbed trucks and a single 3-phase renewable power source.
After-post-disaster context. Floods in El Paso, 2006, resulted in $200M losses to commercial and $115M losses to municipal infrastructure. Equipment pre-positioning in city operations allows speedy response.
5-Year TCO Perspective — AHW Horizontal vs Submersible Array
Silver level Based on industry usage patterns Request a custom TCO based on your project parametersInitial purchase price is the lowest long term cost for a pump serving a drainage grid. Experience in five years of industrial peak schedule duty or pumping campaign shows three long-term components predominate: energy at the optimal schedule, mechanical and driven maintenance labor, and spare part availability (causing downtime). The AHW horizontal mixed-flow looks good on all three criteria.
Service Life
AHW units have often provided 15-25 years of continuous industrial service; submersible flotillas tend to require overhaul or total replacement within 5-10. years in a comparable duty.
Energy / Efficiency
Peak efficiency of 82.1%. Submersible trash pumps on construction dewatering duty run at 45-60%. On an annual mean power load of 100KW, that efficiency difference adds up to significant grid power savings.
Maintenance Labor
Dry outer motor avoids packings and bearings removal and replacement during every cycle for submersibles. They also require hoist and lift for motor dry-down.
Spares Logistics
A common AHW impeller, and standard engineer-furnished bearing and packing kits can be shipped from stock. Custom manufactured submersible motor assemblies built for a similar flow demands have a six to twelve week lead time and are more expensive to run and maintain.
Have a defined duty profile? We will give you a 5-year TCO based on your current configuration.
Get Lead Time & Sizing →Engineering Standards, Materials & Certifications
Every AHW unit is shipped with a performance test report tied to a performance, height and power acceptance band indicated on the soft-copper plate. The chain of manufacturing quality beneath that report is integrated within the Beibangpu plant – not out-sourced casting, not contracted heat-treating, not third-party assembly.
Quality Management System
Performance Grade 2B test
ANSI/HI design alignment
Available on export units
The Vertical Manufacturing Chain
All of the reliability-critical processes are within one location. The grey iron volutes are cast in our own foundry with a dedicated pattern shop. The stress-relieved annealing takes place inside our own transfer oven cell. The CNC-milled impeller and wear-ring interfaces are machined to tolerances tight enough to meet the ISO 9906 acceptance band to a 3 sigma confidence level. Every pump is hydrostatically pressure tested as a package and tested as a package on a platform dynamometer before packing out into the shipping crate. Wherever the engineer signs the test sheet, is where the artisan worked.
Casting
In-house foundry. Pearlitic ductile iron or grey cast iron (ASTM A48 Class 35 equivalent). Stainless 2205 or CF8M available.
Heat Treatment
Dedicated stress-relief cells for volute, suction head and impeller castings. Hardness spec per model.
Machining
CNC-finished impeller hub, wear rings and shaft seats. Balance per ISO 21940 G6.3 on every impeller.
Assembly
Single-line assembly with torque-controlled fasteners and calibrated shaft alignment on the baseplate.
Coating
Two-coat epoxy primer + polyurethane topcoat on all ferrous exterior surfaces. Optional ceramic-filled coating for abrasive duty.
Testing
Hydrostatic pressure test plus a performance curve check (Q-H-η-NPSH) on every unit. Test sheet ships in the crate.
Relevant Standards Referenced in Design & Testing
- Sapenib Vekalaj – Rotodynamic – Hydraulic performance acceptance tests at grades 1, 2 and 3. Actual AHW grades per formed to ISO Grade 2B (8% variation on flow, 5% variation on head, 8% variation on power or 5% variation on efficiency).
- ISO 9001:2015 – Quality management system certification for design, manufacture and testing.
- ISO 21940-11 – Mechanical vibration- Rotor balancing. Impellors are balanced to G6.3 limits.
- ANSI/HI 9.6 – Hydraulic Institute procedures for centrifugal pump suction piping, NPSH margins and operating point allowance.
- GB/T 3216-2005 – Rotodynamic pump hydraulic performance acceptance test (no English translation).
- ASTM A 48 Class 35 – Grey iron casting reference material spec.
Procurement Guide — Lead Time, Spares, OEM & Total Cost
If the supplier publicizes raw numbers on their drainage pump product page, they are hiding all the critical values behind the quote form. Here are the requirements that impact your AHW final cost, with ranges where the laws of physics support them.
Pricing Factors Framework
Quoted price will change with every one of these factors. The critical factor is not the individual dimensions but the permutations and combinations of those dimensions.
Model Size
150AHW to 250AHW cover the small-to-mid ranges. For 300AHW, the design complexity begins to grow. For 400-600AHW the trailer package including the chassis frame, brakes, hoses and couplings is a significant cost item.
Material Spec
For wetted parts, the baseline materials of Grey Iron. In mildly corrosive services specify 2205 duplex or CF8 M stainless materials for water wetted parts at quote stage.
Motor & Drive
Premium efficiency IE3 / IE4 motors have a higher installation cost, but amortize quickly on the grid connection for continuous workflow. Diesel powered trailer units include the engine, fuel tanks and noise attenuation.
Performance Grade
ISO 9906 Grade 2B is our most prevalent factory test grid. We use a tighter grid at 1U (single-sided grade) for special-processing fields, this adds to the test cost.
Accessories
Auto-priming system, level-control panels, VFD-ready motor, flexible suction kits, spare impeller in the crate—each is a definable line item. An itemized quote shows exactly what is included in the cost.
Destination & Terms
EXW, FOB, CIF, DDP distinctively rate various freight and handling expenses. Sea freight is packaged on all orders that are purchased outside of the country.
Lead Time — What We Can Actually Do
The simple answer for lead time varies according to model and configuration. Stock inventories reside in the plant warehouse for standard sizes; for anything custom, it is driven by production scheduling.
| Model / Configuration | Typical Status | Dispatch Window |
|---|---|---|
| 150AHW / 200AHW / 250AHW — standard grey iron, standard motor | Stock or quick-build | Contact for current stock position |
| 300AHW-7 / 300AHW-12 standard spec | Build to order, common castings in stock | Typical production cycle upon order confirmation |
| 400AHW / 500AHW / 600AHW trailered chassis units | Build to order | Longer production window due to chassis assembly |
| Any model with stainless wetted parts or custom coating | Special material build | Add uplift to standard production window |
| Spare impeller / bearing kit / packing set for common models | Stock | Ship within business week from order |
Lead time varies by published time window and project. Ask for a lead time confirmation for your chosen build and destination – one line reply.
Spares Strategy & Downtime Economics
The most under-forecast item for most dewatering pump purchasers is spares availability. A submersible motor grinds to a halt some where several weeks up- or down-stream of the single key component that has to be shipped with a given motor frame, 6-12 weeks after someone realizes that it is needed. AHW spares – impellers, wear rings, shaft sleeves, packing kits, deep-groove bearings – are deliberately standardized on part numbers across the entire range.
The Beibangpu primarystockroom keeps a good one-or-two-inventory levels of common spares, and overseas distributors maintain a regional store. Typical response on an inventory part is within 1-Business Week of receipt of order. This logistics design matters because industry buyer evaluation frameworks split up OEM parts availability as a distinct supplier-selection factor, separate from product performance. Industrial Web Search’s vendor evaluation framework gives it its own weighted column, and Thornton & Lowe’s tender evaluation methodology puts it above price for long-duty-cycle equipment.
OEM / ODM Capability
As all pattern shop, foundry, heat treat and machining are within a single Beibangpu production footprint, a specific impeller shape, non-normal discharge flange configuration, mating to an existing customer baseplate footprint or a private-label casting are all “technically feasible”. The minimum OEM order size for a full ODM project depends on if the tooling is new or a variation on an existing pattern. Pre-sales engineering effort for an ODM project is included to specification sign-off.
After-Sales Support & Warranty
Pre-sales engineers review your duty profile and recommend a base model and alternatives. After you purchase and until commissioning, post sales team provides remote diagnosis on PLC-instrumented stations, on-site assembly and commissioning assistance for project critical applications and maintenance training for your operators. Warranty period is defined per agreement – including specific model, duty profile, installation situation and service interval. The template agreement language covers 12 months from commissioning for most components, other length of time is negotiable on tender level orders. Please demand for warranty template along with your sizing question.
Drainage Pump Engineering Tools
AHW Drainage Pump Model Selector
Enter your flow rate and head. Get an instant match against the eight AHW factory configurations — or an honest recommendation to look at a different pump class.
Access SelectorAHW vs Submersible Array — 5-Year TCO Calculator
Indicative total cost of ownership over a five-year service period. Numbers shown are based on industry average efficiency, electricity rates and maintenance patterns. For a project-specific TCO, send your exact parameters to a BBP engineer.
Calculate TCOPump Spec Unit Converter
Cross-convert flow (GPM · L/s · m³/h), head (ft · m) and power (kW · HP) in real time. Built for engineers cross-checking AHW factory test sheets against client duty specifications.
Open ConverterDrainage Pump FAQ
Questions from Real Procurement Conversations
Below are questions taken from a combination PAA searching the web, industry procurement forums and live pre-sales conversations with AHW Buyers. Answers are written to aid your supplier screening process not replace an Engineers review of your individual project.
Start with a Sizing Conversation, Not a Price List
Give us your total flow, total head, working medium, absolute project urgent time-line. Within two working days an AHW application engineer will return with a model estimate and potential lead time. Wrong for your duty? We will say.
Get Sizing & 48h Quote →



