Hot-Tap Water Flow Meter
Live-Pipe Retrofit on Municipal Mains
Accuracy of ±1.0% of rate
Pipe DN200 to DN3000
No service shutdown for retrofit
- Ball-valve insert under live pressure to 1.6 MPa
- 304 stainless probe with PTFE-lined 316L electrode
- Cast iron, ductile iron, cement-lined, HDPE host pipes
The Hot-Tap Water Flow Meter is the LEA-INS build for live municipal-main retrofit, DN200–DN3000. A 316L electrode probe inserts through a welded ball-valve fitting under live pressure, reading pipe-average velocity by Faraday induction.
Keeps water flowing to customers; no bypass civil works. Steel, ductile iron, cast iron, cement-lined, GRP, HDPE—non-conductive sections need a grounding ring. IP68 split-mount for buried chambers. Lead time 5–7 days.
Benefits
- No shutdown for retrofit: the ball-valve insert procedure adds measurement to a live main while continuous water service stays uninterrupted to downstream customers.
- Accuracy of ±1.0 % of rate: the calibrated single-point correction holds across 0.5 to 10 m/s for non-revenue-water audits and DMA billing.
- Cast iron, cement-lined, HDPE compatible: the probe handles legacy host pipes that an inline meter cannot replace cost-effectively.
- Wide DN range: DN200 through DN3000 covers branch sub-mains and trunk distribution on a single probe family.
- Bi-directional measurement: forward and reverse flow with separate totalizers for return-line accounting and reverse-flow leak detection.
- IP68 split-mount option: submersible probe + remote IP65 converter handles buried valve chambers and flooded distribution pits.
- Lead time: every standard configuration ships within 5–7 business days, including the welded mounting nipple and ball-valve hot-tap kit.
Typical applications
Four water-utility scenarios where hot-tap insertion EMF is the standard choice over inline meter retrofit.
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DMA addition
Zone-boundary measurement on legacy cast/ductile iron mains under live pressure; non-revenue-water audits.
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Trunk-main consumption metering
DN800–DN3000 trunk distribution; billing-grade flow without shipping mass or trench civil works.
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Pump-station & plant outlet
DN300–DN1500 discharge/export mains; 316L probe + PTFE electrode for treated water reconciliation.
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Legacy cast-iron main retrofit
Cast iron, ductile iron, cement-lined steel mains where inline replacement is not budget-feasible.
Specifications
| Measurement principle | Faraday induction with Nikuradse single-point velocity correction |
|---|---|
| Pipe size range | DN200 – DN3000 (8″ – 120″) |
| Accuracy | ±1.0 % of rate standard (calibrated 0.5 to 10 m/s) |
| Velocity range | 0 to 10 m/s (typical operation 1–3 m/s for low-noise service) |
| Conductivity threshold | ≥ 5 µS/cm (water service well above) |
| Working pressure | ≤ 1.6 MPa standard, up to 15 MPa custom on factory order |
| Medium temperature | ≤ 70 °C one-piece, ≤ 120 °C split build |
| Probe construction | 304 stainless housing, PTFE-lined electrode area, 316L stainless electrode (Hastelloy C / Ti / Ta custom on request) |
| Connection | Ball-valve insert (welded short pipe, hot-tap), large ball-valve, 1″ / 1.5″ NPT |
| Compatible host pipes | Steel, ductile iron, cast iron, cement-lined steel, GRP, HDPE, PE |
| Output signals | 4-20 mA, pulse, alarm contact, RS-485 Modbus RTU; HART / 4G IoT optional |
| Power supply | AC 110 to 245 V, DC 24 V, lithium battery option for remote AMR |
| Display | Instantaneous flow (4 digits), cumulative volume (8 digits), flow rate (4 digits) |
| Ingress protection | IP65 one-piece, IP65 + IP68 submersible split build |
| Hazardous area | CNEX Ex d IIC T6 Gb optional |
| Approvals | EMC 2014/30/EU (Annex II), ISO 9001 calibration certificate with each meter |
Installation
Five physical install rules for the hot-tap procedure on live water mains.
- Hot-tap install via ball-valve insert Weld the mounting nipple to the host pipe under prep, install the ball valve on the nipple, insert the sealed probe through the open valve under live pressure, and lock the probe at the marked insertion depth. Process pressure stays contained throughout the operation.
- Calibrated insertion depth at 1/8 D from pipe wall The probe ships pre-calibrated for the ordered DN, with the electrode placed at the Nikuradse single-point velocity location. Verify the depth lock before pressurizing. The direction marker must align with flow on every install.
- Ground probe, host pipe, and converter to ≤ 10 Ω Install a metal grounding ring on HDPE, PE, GRP, or cement-lined sections to restore the EMF ground reference. The signal cable shield grounds at the converter end only to avoid ground-loop interference on the µV-level induced EMF.
- Mount on the side or top, never the bottom on horizontal mains Side or top mounting keeps the electrode tip clear of bottom-settling sediment that accumulates on older legacy mains. On heavily silted lines, tilt the probe 45° to keep the electrode inside the active flow stream.
- Verify zero calibration with the main full and stationary at commissioning Fill the bore with the live water, stop flow at upstream and downstream isolation valves, run the zero-cal sequence, and record the baseline offset for service-life trend analysis. Re-confirm the 5D upstream / 3D downstream straight-pipe rule before pressurizing back into service.
Frequently asked questions
What is a hot-tap water flow meter?+
A hot-tap water flow meter is an insertion electromagnetic meter that installs onto a live pressurized water main without process shutdown. The probe carries the magnetic-field coils and a 316L electrode pair at its tip; the probe inserts through a welded ball-valve fitting on the host pipe under live pressure, locks at the calibrated insertion depth, and reads pipe-average velocity by Faraday induction. The procedure preserves continuous water service to downstream customers and avoids the bypass-loop civil works that an inline meter retrofit would require.
Which water utility scenarios does hot-tap retrofit cover?+
Hot-tap retrofit handles three operational scenarios where service interruption is unacceptable. The first is District Metered Area (DMA) addition on existing mains for non-revenue-water audits and consumption billing. The second is trunk-main consumption measurement on DN800 to DN3000 distribution lines where inline shipping and civil works dominate the project cost. The third is legacy cast-iron, ductile-iron, or cement-lined main measurement where the host pipe cannot be replaced cost-effectively but the utility needs flow data for asset-management planning.
What pipe materials and sizes are compatible?+
The probe handles steel, ductile iron, cast iron, cement-lined steel, GRP, HDPE, and PE host pipes from DN200 to DN3000. Non-conductive sections (HDPE / PE / cement / GRP) require a metal grounding ring at the insertion fitting to restore the EMF ground reference. Pipe material does not affect accuracy directly; the calibrated single-point velocity correction is host-pipe-agnostic, provided the upstream 5D and downstream 3D straight-pipe rule is respected. For lines below DN200 the inline LEA water meter is the better choice on cost and accuracy.
How does the hot-tap installation procedure work?+
The contractor welds a mounting nipple to the host pipe under prep, installs a ball valve on the nipple, depressurises the small valve volume, and inserts the sealed probe through the open ball valve under live pressure. The probe seal contains process pressure during and after insertion. The probe locks at the marked insertion depth (1/8 D from the pipe wall, the Nikuradse single-point velocity location). The whole operation typically takes 2 to 4 hours per meter and does not require shutting down the upstream / downstream water service.
What is the conductivity floor for water service?+
The meter requires water conductivity above 5 µS/cm. Tap water (50 to 500 µS/cm), well water, river water, sea water (50,000 µS/cm), sewage, and any process water with dissolved salts all sit comfortably above the threshold. Below threshold and not measurable with EMF: deionized water (DI) and demineralized boiler-feedwater after polishing. For DI water choose vortex liquid build, ultrasonic, or Coriolis families instead.
What output options support water-utility SCADA and AMR?+
Standard outputs include 4-20 mA analogue for SCADA loop integration, pulse for totalizer counting, RS-485 Modbus RTU for serial polling, and HART for HART-multiplexer rollouts. The 4G IoT output extends telemetry to off-grid distribution sites without on-site SCADA cabinets, which fits non-revenue-water audit programmes on rural distribution mains. The 24 V DC battery option supports remote AMR endpoints with multi-year service life. The integral display reads instantaneous flow (4 digits), cumulative volume (8 digits), and flow rate (4 digits).
What is the lead time and what certifications ship standard?+
Standard lead time is 5 to 7 business days from order confirmation, factory direct, including the welded mounting nipple and ball-valve hot-tap fitting kit when specified. EMC compliance to the EU Electromagnetic Compatibility Directive 2014/30/EU (Annex II) ships standard. IP65 one-piece and IP65+IP68 split submersible ratings are selectable for buried valve chambers. CNEX Ex d IIC T6 Gb hazardous-area certification is available for petrochemical-adjacent water service. Each meter ships with an ISO 9001 calibration certificate listing the serial number, calibrated DN, and tested velocity range.
Need help sizing a hot-tap retrofit?
Send host DN, pipe material, pressure, buried-chamber status—sized model code, insertion depth, ship window in 5–7 business days.