Myers Sewage Pump Selection for Multi-Unit Properties

Introduction

The downstairs tenant called at 5:52 a.m., reporting a gurgling toilet and graywater backing into the tub. Minutes later, the alarm at the lift station started wailing. For a multi-unit property, a failed sewage pump isn’t just a mess—it’s a health hazard, a building-wide service outage, and a day of lost rent and angry calls. In these moments, selection mistakes show up fast: the wrong horsepower, not enough head, undersized solids handling, or a grinder where a sewage pump belonged—or vice versa.

Meet the El‑Masri family. Omar El‑Masri (38), a small-property manager, and his spouse Jenna (36), a cardiac nurse, own a six‑unit brick building near Scranton, Pennsylvania. Their basement lift station handles all building discharge to a municipal lateral 12 feet above the basement slab. After an entry‑level Everbilt “sewage” unit seized on wipes and dental floss—twice in 18 months—Omar started shopping for an upgrade that could take real‑world abuse: feminine products, mop strings, condo‑board “flushables,” and the occasional fork from a basement studio. The answer had to be durable, quiet, and easy to service with same‑day parts.

That’s why this list matters. Over the next ten points, I’ll break down exactly how to choose the right Myers sewage or grinder pump for multi‑unit properties the way I’ve done in the field for decades: by matching horsepower to total dynamic head (TDH), sizing for peak flow, choosing the correct impeller geometry, and building in redundancy. You’ll see where stainless steel hardware, high‑thrust motors, and smart float control stop emergencies before they start. We’ll talk solids handling, when to step up to a grinder, what voltage and amperage draw your panel needs, how to read a pump curve, and why PSAM’s stocking program and tech support keep landlords out of panic mode. If you manage apartments, duplexes, or small commercial buildings, these are the selection rules that keep your phones quiet and your tenants happy.

Awards and assurances matter here, too. Myers, a Pentair brand, backs key models with an industry‑leading 3‑year warranty, delivers 80%+ hydraulic efficiency in its clean‑water Predator Plus line, and builds with 300 series stainless steel hardware and fasteners for superior corrosion resistance—even in aggressive basements. At Plumbing Supply And More (PSAM), we inventory what contractors actually install, ship same‑day on emergencies, and post curves, manuals, and parts diagrams that make life easier. I’m Rick Callahan—decades in the trenches—and this is the selection guidance I’d give my best customer on a Friday afternoon before a holiday weekend.
#1. Start With TDH and Peak Flow—Sizing by Pump Curve, Basin Volume, and 2" Solids Handling
Getting horsepower right starts with math, not guesswork. For multi‑unit buildings, I calculate TDH (total dynamic head) by adding static lift, friction loss through fittings and pipe, and the head at the discharge point. Then I look at the building’s peak flow and the basin’s working volume. Matching that to the manufacturer’s pump curve tells you exactly where the pump will operate—not at shutoff, but near the best efficiency point.

In Omar and Jenna’s six‑unit, we tallied 12 feet of static lift, roughly 6 feet of equivalent friction loss in 2" PVC with long‑radius elbows, and a check valve just upstream of the pitless discharge. Result: ~18 feet TDH at design flow. A 1 HP Myers sewage pump meeting 2" spherical solids and a curve showing 90–110 GPM at 20 feet TDH hits the sweet spot. Oversizing to 2 HP would short‑cycle and churn the basin; undersizing risks backups during simultaneous showers and laundry.

Static lift and friction loss

Measure centerline of impeller to the discharge elevation. Add friction from pipe length, fittings, and valves. For 2" SCH 40 at 100 GPM, expect ~5–7 feet of friction per 100 feet. Use a reputable friction chart or PSAM’s selection worksheet. Accurate friction estimates keep the operating point right on the BEP (best efficiency point).

Basin sizing and cycle time

With multi‑unit properties, target 2–3 minutes of run time per cycle to reduce motor heat. If your basin is small, a high GPM pump can short‑cycle. Consider a deeper basin or an adjustable float tree to stretch each cycle. Proper cycle timing extends motor life and reduces nuisance alarms.

Solids handling vs grinder

A standard sewage pump rated for 2" spherical solids handles most apartment waste. If your tenants introduce wipes and textiles, a Myers grinder pump using a cutter mechanism turns that load into manageable slurry. Don’t pick a grinder just for bragging rights—choose it when the waste profile justifies it.

Key takeaway: Plot TDH against the GPM rating on the curve and size basins for run time. This is selection, not speculation—PSAM can run the math with you in five minutes.
#2. Sewage vs Grinder—When a Myers Grinder Pump Saves the Day in Multi‑Unit Buildings
The difference between a sewage pump and a grinder pump is not subtle: impeller geometry and cutting hardware either pass solids or chew them into slurry. In multi‑unit properties with chronic wipes, a grinder avoids the weekly call‑out. In buildings with well‑managed tenants, a high‑flow sewage pump moves volume fast and for less amperage.

Grinders typically draw higher amperage at a given horsepower and push lower GPM but higher head—ideal for long discharge runs and steep lifts. For Omar’s six‑unit, the 18‑foot TDH and chronic wipes made a grinder the right call. A 2‑stage grinder operating at 1–2 HP with a curve showing 35–50 GPM at 20–25 feet TDH was perfect, especially with downstream 2" laterals and a 3" building drain.

Impeller and cutter design

Myers grinder assemblies use hardened components and precisely machined cutter plates. Where standard sewage impellers rely on a clear flow path and 2" solids capacity, grinders physically reduce stringy materials. Less clogging at the volute, fewer service calls, and consistent performance when tenants ignore signage.

Electrical requirements and panel capacity

Grinders at 1 HP and 2 HP commonly require 230V single‑phase with a dedicated circuit. Check amperage draw against existing service. Your control panel must handle the inrush of a grinding start and accommodate floats for lead/lag duty if duplexed.

Noise and vibration considerations

Properly mounted and isolated Myers grinder pumps run remarkably quiet. Use rubber isolation grommets, align the check valve to prevent water hammer, and bleed air from the riser on startup. Quiet operation keeps upstairs neighbors unaware anything changed—except that the alarms stopped.

Key takeaway: Choose a grinder when the waste is unpredictable. With the right curve and voltage, a Myers grinder turns tenant behavior from a maintenance nightmare into a non‑event.
#3. Materials That Survive Basements—300 Series Stainless Steel, Coated Cast, and Field‑Serviceable Fasteners
Basements love to rust pumps to oblivion. Moisture, cleaning chemicals, and intermittent H2S exposure punish cheap hardware. Myers answers that reality with 300 series stainless steel hardware and fasteners, corrosion‑resistant coatings, and volute designs built for nasty basements. It’s not just pretty; it comes apart when you need it to.

Myers’ field‑savvy approach shows up in serviceability. A threaded assembly and accessible volute bolts let you clear an obstruction in minutes. Optional thermal overload protection prevents extended locked‑rotor damage. And where generic pumps seize studs inside the casing, Myers’ stainless hardware lets a contractor do work quickly—without a torch.

Corrosion resistance where it counts

Stainless hardware, cable entries with quality grommets, and sealed cord grips prevent wicking, while heavy‑duty powder‑coated housings shrug off splash and condensate. For coastal or high‑humidity basements, that’s the difference between “serviceable in place” and “bring a Sawzall.”

Service in the pit, not on a bench

Myers designs let you pull the unit by the safety rope, isolate at the check valve, and clear the volute without total disassembly. That means a contractor can restore service in one visit, often under 90 minutes. PSAM stocks gaskets and wear items to get you back online same day.

Cable guard and intake screen discipline

Proper cable routing with a cable guard keeps cords off the impeller path, and a well‑placed intake screen reduces accidental ingestion of basin debris during first starts after maintenance.

Key takeaway: Materials and serviceability determine how long your investment lasts and how fast you get back in service. Myers builds for the basement reality.
#4. Control Strategy—Float Trees, Alternating Duplex Panels, and Redundancy That Actually Works
In multi‑unit buildings, redundancy isn’t a luxury—it’s policy. A duplex system with alternating control keeps starts even between pumps, doubles capacity in peak events, and provides immediate failover. The control package matters as much as the pumps.

I recommend a duplex control panel with lead/lag alternation, manual override, and an audible/visual alarm. For Omar, we installed a float tree with Off, Lead On, Lag On, and High Alarm levels. The panel alternates myers water well pumps https://www.plumbingsupplyandmore.com/3-4-hp-submersible-well-pump-12-stage-design.html each cycle, extending life for both units. If one pump fails, the lag takes over without drama. A check valve and isolation on each discharge prevent backflow and simplify service.

Float placement and deadband

Proper float spacing prevents short‑cycling and gives each run time. Target 2–3 minutes per cycle. Float cords must be trimmed and anchored so turbulence doesn’t bounce levels. With grinders, ensure “On” is above the cutter intake to avoid dry starts.

Alarm strategy

A distinct high‑level alarm float saves basements. Wire it to a loud buzzer and strobe in common areas and consider a remote dialer or building automation input. Tenants will call before the basin overtops. PSAM panels integrate easily with low‑voltage remote monitoring.

Isolation and testing

Install ball or gate valves upstream of each check valve. That allows testing each pump individually with the panel in “Hand” mode. Quarterly testing under load uncovers floats or impellers trending toward failure—before tenants find out.

Key takeaway: Good pumps with bad controls still fail buildings. Myers pumps paired with a smart duplex panel and float tree make your system resilient.
#5. Electrical and Protections—Right Voltage, Right Breakers, Thermal Overload, and Lightning Protection
Reliability lives and dies on power. A single‑phase motor at 230V draws less amperage for the same horsepower compared to 115V, runs cooler, and tends to start more decisively under load—critical for grinders. Many Myers units include thermal overload protection and sealed stators to guard against locked‑rotor abuse. In lightning‑prone regions, add surge protection on the control circuit.

During Omar’s retrofit, our electrician upsized to a dedicated 230V/30A circuit for the 2 HP duplex grinder set. We verified wire gauge from panel to pit to prevent voltage drop, then labeled the panel for Hand/Off/Auto operation. Those simple disciplines reduce nuisance trips and start failures.

Amperage and conductor sizing

Check pump FLA against breaker and wire. Long runs need heavier conductors to prevent start‑up sag. Excessive drop cooks windings over time. PSAM posts FLA tables by horsepower and voltage—use them.

Surge and lightning protection

Basement lift stations take building hits. Install a Type 2 SPD at the panel and a secondary surge device in the control enclosure. Many Myers motors also include lightning protection, but external SPD is cheap insurance.

Moisture and cord entry integrity

Seal the cord entry with rated glands, keep wire splices above the high water mark with a listed wire splice kit, and keep all enclosures UL listed and dry. Basements do what basements do—water finds the weak link.

Key takeaway: Electrical discipline and proper protections preserve motors and controls, cutting failures by half in my field experience.
#6. Myers vs Zoeller vs Goulds—Real-World Selection for Multi‑Unit Properties (Detailed Comparison)
Technical performance analysis: Myers builds sewage and grinder units with corrosion‑resistant housings and 300 series stainless steel hardware, pairing robust hydraulics with precision‑fit components. Where Zoeller leans heavily into cast iron across a wide drainage catalog and Goulds Pumps uses cast iron volutes that can pit in aggressive environments, Myers’ material mix stays serviceable longer in damp basements. On the motor side, Myers leverages Pentair’s engineering discipline; efficient windings and optional thermal overload protection translate to cooler operation and fewer nuisance trips. For wiring, you’ll find straightforward single‑phase options that fit standard duplex panels without proprietary hurdles.

Real‑world application differences: In the field, Myers’ grinder assemblies tolerate stringy trash from “flushable” wipes better, with cutters that keep the volute clear. Zoeller’s broad drainage focus performs well in sumps, but I’ve seen more stringy clogs in multi‑family sewage duty when tenant behavior gets wild. Goulds’ sewage units move volume, but in older basements where humidity and cleaners attack fasteners, serviceability can suffer. With Myers, alternator panels and float packages integrate cleanly, parts are readily available, and PSAM stocks the wear items landlords need at 4:55 p.m. On a Friday.

Value proposition conclusion: Across five‑ and ten‑year windows, the Myers package wins on uptime and service access. With Pentair’s backing, PSAM support, and the industry‑leading 3‑year warranty, the total cost of ownership for landlords and HOAs runs lower—and the quiet reliability is worth every single penny.
#7. Warranty, Service Life, and Total Cost—Why the 3‑Year Warranty Changes the Math
Multi‑unit failures are expensive. A single emergency call can run $350–$600, not counting sewage cleanup and tenant credits. Myers brings an industry‑leading 3‑year warranty, drastically reducing the chance you’re buying again in year two. With proper maintenance—quarterly testing, annual float inspection, and cleanouts—expect an 8–12 year service life on sewage pumps and 7–10 years on grinders in harsh use.

Omar’s prior pump lasted 14 months before seizing on stringy waste. After switching to a Myers grinder package through PSAM, two quarters have passed with zero alarms and clean panels. It’s early, but that’s how the trend line starts.

3‑year warranty impact

Compared to 12–18 months from some competitors, three years of coverage meaningfully lowers your risk curve. If there’s a manufacturing defect, you find it early during covered life, not later when you’re unprotected. PSAM handles claims fast.

Real service life with maintenance

Pumps don’t die of old age; they die of heat and abuse. Keep cycle time at 2–3 minutes, test the alternator, verify check valves, and clear the basin of debris quarterly. Expect the long end of service life when heat and clogs are controlled.

Energy and operational costs

Efficient hydraulics keep amperage draw lower for the work performed. Over 10 years in a duplexed station, those kWh savings stack up. A correctly sized Myers unit near its BEP can trim 10–20% of power compared to a mismatched alternative.

Key takeaway: Warranty plus correct selection equals predictable ownership costs and fewer gut‑wrenching emergency calls.
#8. Installation Details that Prevent Callbacks—Discharge Size, Check Valves, and Quiet Hydraulics
Small mistakes create big problems. Get the discharge size right—most multi‑unit stations should run 2" from the pump through the check valve and isolation valve to the building riser. Use a spring‑loaded or full‑flow swing check rated for sewage, installed vertically where possible to prevent hinge wear. Soft‑start isn’t typical on single‑phase sewage pumps, so control water hammer with geometry, not gadgets.

In Omar’s building, we re‑piped the discharge to remove two unnecessary 90s, installed a union above each check to speed future service, and sloped horizontal runs to self‑drain. Result: fewer hammering events and easy isolation for future work.

Pit geometry and venting

Ensure the basin has proper venting to the building vent stack. A sealed basin without adequate venting forces odors into occupied spaces and stresses the system. Keep float paths clear of inlet turbulence with a baffle or strategic inlet elbow.

Valve and union placement

Put an isolation valve below each check and a union above each check. That layout lets you pull a pump in under 10 minutes. Label valves clearly; 3 a.m. Emergencies are no time for guessing.

Anchoring and support

Support vertical risers every 6–8 feet to prevent sagging, and use stainless clamps in damp basements. Where codes require, install an accessible pitless adapter alternative or cleanout for straight‑shot maintenance.

Key takeaway: Sweat the piping and venting details. Quiet, reliable hydraulics come from clean geometry and service‑friendly layout.
#9. Myers vs Everbilt—Budget Pain vs Professional Uptime (Detailed Comparison)
Technical performance analysis: Entry‑level big‑box pumps often rely on thermoplastic components, generic bearings, and lighter‑duty windings. In contrast, Myers’ sewage and grinder units employ heavier cast construction with 300 series stainless steel hardware, purpose‑designed hydraulics, and robust seals. Motors benefit from Pentair’s engineering—cooling paths, winding insulation, and optional thermal overload protection tuned for real sewage duty. Where budget models might advertise similar horsepower, the sustained duty and heat tolerance diverge significantly under multi‑unit loads.

Real‑world application differences: In busy apartment basements, pumps see rapid cycling during mornings and evenings, stringy loads, and occasional power blips. Budget options—like the Everbilt that failed on Omar—can clog at the volute or overheat during repeated starts, leading to alarms, callbacks, and weekend emergencies. Myers pairs to duplex alternators, accepts standard float trees, and stays serviceable with available parts. PSAM can pull exact seals and gasket kits by model, ship same day, and advise on float spacing to end short‑cycling.

Value proposition conclusion: The $200–$400 “saved” on a budget pump disappears with the first emergency service call. Myers’ durability, Pentair backing, and PSAM stocking deliver fewer clogs, fewer resets, and lower lifetime cost—worth every single penny.
#10. Integration with Building Systems—Monitoring, Documentation, and Tenant Reality Checks
The best pump can’t fix blind spots. Integrate your lift station into building routines. Add a high‑level alarm tied to a monitored panel or cellular dialer. Keep a laminated start‑up and testing checklist in a pouch on the control door. Post a tenant advisory in laundry rooms about wipes—yes, those “flushables” still destroy pumps.

For Omar and Jenna, we implemented quarterly checks: “Hand” start each pump, verify alternation, confirm alarm, and log amperage. Ten minutes per quarter is cheaper than one Sunday overflow.

Monitoring and alerts

Consider a dry contact into your building automation or a simple cell dialer programmed to call the landlord and a service pro. The goal: alarms become calls, not overflows. PSAM panels make this connection simple with labeled terminals.

Documentation and parts list

Tape the model number, discharge size, breaker size, and float spacing inside the control door. Add PSAM’s support number. Keep a spare float and gasket kit on the shelf. When seconds count, digging through emails is not a plan.

Tenant engagement

A plain‑English sign beats a technical lecture. “Only toilet paper in toilets—no wipes, no mop strings” saves pumps. Provide a small waste bin in each bath on turnover. It works.

Key takeaway: Make your lift station part of building operations, not an afterthought. Monitoring and simple discipline turn emergencies into line items.
FAQ: Myers Sewage and Grinder Pumps for Multi‑Unit Properties
Q1. How do I determine the correct horsepower for my head and building demand?

Start with TDH: add static lift (pit water level to discharge elevation), friction loss (pipe length, fittings, check valves), and any required head at the tie‑in. Then target peak flow for your units—100–150 GPM for mid‑size buildings with a sewage pump, or 35–60 GPM with a grinder at similar head. Plot those points on the pump curve and select a model operating near BEP. As a rule, 1 HP sewage pumps handle 15–25 feet TDH at 90–120 GPM; 2 HP grinders handle 20–30 feet TDH at 40–55 GPM. I recommend 230V single‑phase for grinders; lower amperage per HP improves starts. PSAM can run your numbers and suggest the exact Myers model that lands right on the curve.

Q2. What GPM does a typical six‑unit need, and how do impellers affect pressure?

A six‑unit can spike to 80–110 GPM during morning peaks if all laterals hit the basin together. A sewage pump with a non‑clog impeller moves volume quickly; it trades some head for flow. A grinder with a cutter stack and tighter hydraulics runs lower GPM but higher head, ideal for long, elevated discharges or chronic wipes. Multi‑unit properties with short runs and cooperative tenants often choose a 1 HP sewage pump; properties with wipes or textile loads pick a 1–2 HP grinder. Map your TDH and decide whether high flow or high head with cutting action solves your real problem.

Q3. How do Myers pumps achieve strong efficiency compared to competitors?

In clean‑water applications, Myers’ Predator Plus line hits 80%+ hydraulic efficiency near BEP thanks to multi‑stage impeller design and tight tolerances. For sewage duty, efficiency comes from well‑matched impellers, smooth volutes, and motors engineered under Pentair’s standards. Efficient hydraulics mean lower amperage draw for the work, which translates into cooler motors and longer life. Pair this with proper cycling (2–3 minutes) and you’ll see meaningful kWh savings over a decade.

Q4. Why is 300 series stainless steel better than cast iron for submersible assemblies and fasteners?

Cast iron moves heat well and is right at home in housings, but iron fasteners and exposed components corrode rapidly in damp basements and H2S environments. 300 series stainless steel hardware fights rust, keeps threads serviceable, and allows in‑pit repairs years later. Myers places stainless where it counts—fasteners, strainers, lifting eyes, and hardware—so the pump still comes apart when you need to clear an obstruction. That’s the difference between a 45‑minute fix and a costly full replacement.

Q5. How do Teflon‑impregnated components help with abrasive or gritty sewage?

You’ll see Teflon‑impregnated staging and self‑lubricating impellers most prominently in clean‑water submersibles, but the concept carries over: reduced friction and better wear characteristics against fine solids. In sewage systems with sand intrusion (think broken laterals or construction nearby), lower friction at close‑tolerance parts translates to less heat and slower wear. Myers designs balance clearances and materials to keep cutters and impellers from seizing—critical under abrasive conditions.

Q6. What makes a Pentek high‑thrust motor valuable in pump systems?

Pentair’s Pentek XE motor architecture, used in well systems and informing sewage motor design, focuses on thrust capacity, efficient windings, and reliable starts under load. High‑thrust capability resists axial loads and keeps rotors aligned, which matters during hard starts and stringy loads. Combine that with thermal overload protection and good heat paths, and you have motors that live longer in real basements. Translation: fewer melted windings, fewer calls.

Q7. Can I install a Myers sewage pump myself?

Legally, it varies by jurisdiction. Practically, multi‑unit lift stations are professional work. You’ll need correct check valve selection, float spacing, proper wire sizing for 115V or 230V, myers deep well pump https://www.plumbingsupplyandmore.com/convertible-shallow-or-deep-well-jet-pump-3-4-hp.html sealed splices, code‑compliant venting, and alternator panel wiring. A licensed pro will also test amperage draw under load, confirm cycle timing, and document settings. If you’re a landlord determined to DIY, at least have PSAM review your layout and parts list—one missed detail (like a horizontal check) can become a chronic problem.

Q8. What’s the difference between 2‑wire and 3‑wire pumps, and does it matter for sewage?

That distinction matters most in well pumps where external start capacitors/control boxes define 3‑wire systems. Sewage pumps are typically single‑phase units with internal start circuits; your “wiring” choices center on voltage (115/230), control panel integration, and float logic. Focus on proper panel sizing, alternation, and reliable, clean float wiring. If you’re cross‑shopping clean‑water gear, know that Myers offers both 2‑wire and 3‑wire options in wells, but for sewage the panel and floats are the control backbone.

Q9. How long should a Myers sewage or grinder pump last in a multi‑unit building?

With correct selection and quarterly testing, expect 8–12 years on sewage units and 7–10 years on grinders exposed to wipes and textiles. Keep cycle times to 2–3 minutes, verify alternation, and ensure venting so gases don’t eat components. A matched system near the BEP, with sound electrical (dedicated 230V for grinders) and a clean discharge path, consistently makes the long end of those ranges. PSAM’s parts support keeps wear items fresh, extending service life further.

Q10. What maintenance extends pump life the most?

Quarterly: test both pumps in “Hand,” confirm alternation, trip and reset the high‑level alarm, log amperage draw, and inspect the basin for debris. Annually: pull each pump, clear the volute, check the check valve flap or spring, verify the float tree anchors, and re‑torque stainless fasteners. Keep a spare float and gasket kit on hand. These steps reduce heat cycles, prevent starts against obstructions, and catch weaknesses early.

Q11. How does Myers’ 3‑year warranty compare, and what does it cover?

It exceeds many competitors’ 12–18 month policies. Coverage addresses manufacturing defects in materials and workmanship under normal use when installed per manual and code. It doesn’t cover abuse—running dry, severe voltage issues, or obvious debris entanglement—but it does protect your investment against rare early‑life failures. PSAM streamlines documentation and turnarounds; contractors appreciate how clean Myers makes the process.

Q12. What’s the 10‑year total cost of ownership: Myers vs a budget brand?

Factor the pump, two emergency calls ($450 each), a mid‑life replacement on the budget unit, energy use, and downtime risk. In my field spreadsheets, Myers saves $1,200–$2,500 over a decade in a typical duplex station: fewer clogs, longer service intervals, and one less replacement. Add the 3‑year warranty, Pentair engineering, and PSAM’s in‑stock parts, and the Myers package simply costs less to own.

Conclusion
When multi‑unit properties depend on a lift station, selection is strategy, not guesswork. Start with TDH and peak flow, choose sewage or grinder based on actual waste behavior, and anchor the system with duplex controls, proper float spacing, and solid electrical. Myers brings the right combination of hydraulics, 300 series stainless steel durability, Pentair‑backed motor discipline, and an industry‑leading 3‑year warranty that cuts real‑world risk. PSAM closes the loop with in‑stock pumps, same‑day shipping, curves, and parts that keep your building quiet and compliant.

Omar and Jenna went from alarms and overflows to silence—and silence is what success sounds like in a basement. If you’re ready to spec the right Myers sewage or Myers grinder pump, call PSAM. We’ll plot your pump curve, verify GPM rating at your TDH, and deliver a package that’s truly worth every single penny.

Rick’s final recommendation: For any building with chronic wipes or long discharge runs, step to a 1–2 HP Myers grinder at 230V in a duplex, alternating panel with isolation and unions above each check valve. For shorter lifts and cooperative tenants, a 1 HP Myers sewage pump with 2" solids handling delivers high‑flow reliability. Either way, size it on the curve, document the install, and let PSAM support you for the long haul.

—Rick Callahan, Technical Advisor, Plumbing Supply And More (PSAM)

“Rick’s Picks” for multi‑unit lift stations: duplex panel with alternator, float tree kit, full‑flow swing checks with unions, surge protection, and a spare float and gasket kit—installed once, paid back many times.