Concrete pumps are not only those large pump trucks on construction sites. In the cement and concrete industry, pumps are used continuously for mixing, cleaning, recycling, and pumping wastewater and slurries. In this article, you will learn where concrete pumps fit into the process, which problems you need to prevent, and which selection criteria help you choose a pump that remains maintainable under harsh conditions.

• In cement and concrete production, you often pump dirty, abrasive media, sometimes with air. That requires robust hydraulics and smart maintenance.
• The biggest failure costs usually come from wear, blockages, incorrect material selection, and hard to access installations.
• Start your selection with the medium (particles, abrasiveness, viscosity), then duty cycle, then the maintenance concept.
• Self-priming pumps installed above ground often make inspection and maintenance easier.

What is a concrete pump in an industrial context?

A concrete pump is a pumping system that moves concrete related media such as cement slurry, process water with solids, flush water, or recycle streams. In industrial applications, it is less about “placing concrete” and more about reliable process flows for mixing, cleaning, transport, and wastewater treatment.

What are concrete pumps used for in the cement and concrete industry?

In production environments, you typically see these tasks:

• Mixing and circulating process media (for example slurry or water streams around mixers).
• Cleaning and flushing installations and pipelines, including water with cement residues and grit.
• Recycling process water and residual streams so water can be returned to the process.
• Pumping wastewater to treatment and back into the process.

Why concrete pumps have it tough in this sector

Pumps in cement and concrete often face harsher conditions than “normal water duty”. Typical stress factors include:

• Abrasive particles and contamination: wear on the impeller, casing, and seals.
• Variable composition: one batch is thin, the next is thicker or contains more solids.
• Air in the line: priming and stable flow become more difficult.
• Downtime is expensive: a pump that is hard to open mainly costs you lost production time.

Which pump types are most common (and when they fit)

1) Self-priming pumps

Useful when you need to handle mixtures or dirty water with air and solids and you want a robust all-round solution. Self-priming helps when the suction line does not always stay filled.

2) Centrifugal pumps (standard)

Strong for continuous flow and often cost efficient for “cleaner” liquids. In cement and concrete processes, this mainly works well if you control abrasiveness and solids, or if you select materials and wear parts accordingly.

Selection criteria: how to prevent rapid wear or blockages

Medium and load profile

• What exactly are you pumping: cement slurry, flush water, recycle water, or a mix?
• How much solid content is in it? And how abrasive are those solids?
• How does viscosity vary over the day?
• Is there air in the medium or in the suction line?

Hydraulic requirements

• Required flow rate (m³/h) and head (m).
• Suction lift and pipe lengths.
• Pulsation: do you need stable flow, or is “rougher” flow acceptable?

Reliability and maintenance

• Can you safely install the pump above ground?
• Can you inspect wear parts quickly?
• How often do you expect wear maintenance and how long can a stop last?

Material selection and wear parts

• Casing and impeller material matched to abrasiveness.
• Sealing concept (mechanical seal, packing, flush options).
• Availability and replaceability of wear parts.

Tip: if in doubt, let maintenance lead. A pump that is theoretically “perfect” but takes half a day to dismantle will lose in practice.

Why “above ground” and quick inspection often win

In the cement and concrete industry, access is everything. Dry self-priming pumps are often installed above ground. That makes inspection, maintenance, and repairs easier.

A practical detail that pays off is front inspection: you can access the internal components without dismantling pipework or disturbing drive alignment. That saves time and reduces the risk of errors during reinstallation.

Common mistakes with concrete pumps in production environments

• Selecting only on flow rate and forgetting abrasiveness and maintenance.
• Underestimating wear and not having procedures and spare parts available.
• “Hiding” the pump in a location with poor access.
• Not defining flushing procedures, which often causes build up and blockages.

When flooding or stormwater hits, a flood control pump is not a “nice to have”. It is a response tool that needs to start fast, move large volumes of water, and keep working when the water is dirty and full of debris. This article explains what a flood control pump is, what matters when selecting one, and how to build a practical deployment checklist for real emergencies.

• A flood control pump is used to dewater large volumes of floodwater quickly during emergencies
• Priorities are fast start, high capacity, reliable priming, solids handling, and quick deployment
• Self-priming and prime-assisted (dry-prime) pump sets are common choices because they can handle air in the suction line and re-prime automatically
• Drive options include petrol, Stage V diesel, and electric, depending on access, emissions constraints, and runtime needs

Definition: what is a flood control pump

A flood control pump is a high-capacity dewatering pump used to remove floodwater or stormwater fast, often in emergency conditions where heavy rainfall, high tides, or snowmelt cause sudden water accumulation. In practice, the pump must be ready at all times, move large volumes quickly, and handle dirt and debris without failing.

Why flood control pumps fail in the field

Most issues are not about the pump curve on paper. They are about deployment reality:

• Priming problems
  Air leaks, long suction runs, or fluctuating water levels can cause loss of prime. Automatic re-priming can be critical during active flooding
• Debris and solids
  Floodwater often contains leaves, sand, trash, and silt. Solids handling is not optional but rather a must-have.
• Time lost on setup
  If you need special tools or complex priming steps, you lose minutes you do not have
• Service access
  In emergencies you want above-ground setups that are easy to service and do not require confined space entry

The main pump types used for flood control

Below is a practical overview of common categories used in flood control and stormwater response.

Self-priming centrifugal pump sets

Best when you need fast deployment and variable conditions.

What they do well:

• Tolerate air in the suction line and recover prime (depending on configuration)
• Handle dirty water and debris more reliably than “clean-water” transfer pumps
• Above-ground installation supports easier access and maintenance during an incident

Watch-outs:

• Suction layout still matters (hose length, lift, air leaks, strainer choice)

Prime-assisted (dry-prime) pump sets

Best for demanding conditions and frequent priming challenges.

What they do well:

• Use a vacuum system to evacuate air from the suction line and establish prime quickly
• Maintain operation when conditions fluctuate and air ingress occurs (re-priming capability)
• Often selected for high-flow emergency response where setup time must be minimized

Watch-outs:

• More system components to maintain (vacuum system discipline, checks, service intervals)

Key selection criteria for a flood control pump

1) Flow capacity and total dynamic head (TDH)

Start with the required dewatering rate and where the water needs to go. Long discharge runs, elevation changes, and friction losses reduce real output. Do not select only on maximum flow at zero head.

2) Solids handling and debris tolerance

Floodwater is rarely clean. Look at:

• Solids size expectation and strainer approach
• Clog resistance and inspection access
• Wear considerations (abrasives like sand and silt)

3) Priming behavior and automatic re-priming

If the suction line can run dry or water levels fluctuate, re-priming is a practical requirement, not a “nice feature”. Confirm:

• Maximum suction lift expectations in your setup
• Air handling and re-priming capability during operation
• Time-to-prime under realistic hose lengths

4) Mobility and deployment speed

Match the unit to access routes, typical deployment locations, and available lifting/transport:

• Skid-mounted vs trailer-mounted
• Forklift pockets / lifting points / transportability
• Hose connection standardization (couplings, reducers)

5) Drive and power choice

Choose based on site constraints and incident duration:

• Petrol for compact, rapid deployment scenarios
• Stage V diesel for longer runtimes and heavy-duty duty cycles with emissions compliance
• Electric where power is available and emissions/noise constraints are strict

6) Serviceability during an incident

Emergency pumping is often “run, check, clear debris, run again”. Prioritize:

• Fast access to wear parts and inspection points
• Easy strainer checks
• Clear maintenance intervals and field-friendly servicing

Deployment checklist for emergency dewatering (field use)

Copy and use this as a site checklist.

1. Site and safety

• Confirm water hazards, ground stability, safe access routes
• Define discharge destination and permissions

2. Suction setup

• Keep suction hose as short as practical
• Use the right strainer for expected debris load
• Check for air leaks at couplings and seals

3. Discharge setup

• Route hoses to avoid kinks and pinch points
• Confirm TDH and friction losses stay within the pump operating range

4. Fuel, power, and runtime

• Fuel plan for diesel/petrol
• Power supply plan for electric
• Noise/emissions constraints for the area

5. Start-up and monitoring

• Verify prime and flow
• Monitor for loss-of-prime conditions and respond quickly
• Schedule debris checks based on site conditions

6. Maintenance and recovery

• Keep spare couplings, clamps, gaskets, and basic tools onsite
• Rinse down and inspect after use (floodwater is abrasive and dirty)

What to do next

If you are building a flood response capability, map your scenarios first: typical water volumes, access constraints, debris levels, and discharge routes. Then select a pump category that matches operational reality. If you want a quick sanity check, share your duty point (flow/head), suction conditions, and water quality expectations, we can help validate the configuration.

We’re expanding the E-Line range of electric pump sets with new models. The result: more flexibility, higher available power, and broader coverage across flows and capacities, making it easier to specify the right electric pump set for your application.

E-Line pump sets are built around proven, self-priming Gorman-Rupp pump technology (including the Super T, Super U, and Ultra V series). This makes them well-suited for applications such as construction dewatering, (waste)water duties, and industrial installations where dependable, energy-conscious operation matters.

Why choose E-Line?

Every E-Line pump set is designed for consistent performance in demanding conditions, focused on control, reliability, and ease of use.

Key benefits

• Electric motor with integrated VFD: precise speed control, stable output, and better flow management
• User-friendly: quick to deploy, no complex setup, easy operation
• Fully electric: zero on-site CO₂ emissions and no fuel logistics
• Whisper-quiet: ideal for urban and noise-sensitive zones
• Heavy-duty build: made for intensive use
• Stackable design: efficient storage and transport
• Easy maintenance: fewer wear parts, less downtime
• Up to 5-year warranty (depending on model/terms)
• Made in Europe, built for Europe
• Various options available

Technical highlights (practical advantages)

E-Line is built for situations where you want fast setup and predictable performance:

• Electric drive: stable performance without fuel on site
• VFD control: precise adjustment to match system demand
• Compact and transport-friendly: easy to move and install
• Low noise: minimal impact on the surrounding area

See the new models and the full range

Want to review what’s new and explore the complete E-Line portfolio?

• View the page with all new E-Line models
• View the complete E-Line range

Need help selecting the right unit?

Share the details below and we’ll recommend the best-fit E-Line configuration:

• required flow rate and head
• liquid type (clean/dirty/sewage) and any solids
• installation and suction conditions (lift, pipework, setup)

We’ll help you get to the right solution quickly.