logo

Multi Stage Integrally Geared High Pressure Centrifugal Pump HMP Series API 610

Multi Stage Integrally Geared High Pressure Centrifugal Pump HMP Series API 610
Multi Stage Integrally Geared High Pressure Centrifugal Pump HMP Series API 610
Brand Name
Sunstrand
PRODUCT MODEL
HMP-320
certificate
ISO 9001:2015, API 610, CE
country of origin
China
MOQ
1 Set
unit price
Negotiation
payment method
T/T,L/C
Supply Capacity
6 Sets per Month
Product Summary
Multi-stage integrally geared high pressure centrifugal pump HMP series engineered per API 610 standards, designed for high-pressure water injection, pipeline boosting, and process services requiring discharge pressures up to 20 MPa.
Product Details
Highlight:

Multi Stage Integrally Geared

,

High Pressure Centrifugal Pump

,

HMP Series API 610 Pump

Series: HMP Multi-Stage Integrally Geared
Maximum Discharge Pressure: 20.0 MPa (2,900 Psi)
Flow Range: 10 To 200 M³/h (44 To 880 GPM)
Number Of Stages: 2 To 6 (Modular Configuration)
Gearbox Type: Integrally Geared, AGMA Class 12
Temperature Range: -130°C To +340°C
Casing Material: Carbon Steel, 316 SS, Duplex
Seal System: API 682 Dual Pressurized Cartridge
Application: Water Injection, Pipeline Boosting, Process

Product Description

Multi Stage Integrally Geared High Pressure Centrifugal Pump HMP Series API 610
Multi Stage Integrally Geared High Pressure Centrifugal Pump HMP Series

The HMP series multi-stage integrally geared centrifugal pump represents the culmination of our engineering team's accumulated experience in designing, manufacturing, and field-supporting multi-pinion gear-driven turbomachinery since 2011. Our manufacturing facility has produced over 120 integrally geared multi-stage units for high-pressure services including produced water injection in enhanced oil recovery, boiler feed water boosting in combined-cycle power plants, lean amine circulation in large-scale gas sweetening trains, and pipeline transfer pumping in remote desert installations.

This diverse operational history has generated a substantial engineering knowledge base—documented in our design review records, factory test reports, and field service reports—that directly informs the current HMP series design with lessons learned from real operating experience rather than theoretical design assumptions alone.

Each HMP pump stage operates at its own optimized rotational speed determined by an individual pinion gear ratio, enabling the hydraulic designer to match each impeller's specific speed to its operating duty point. This multi-speed capability, verified through strain gauge telemetry measurements on instrumented test units, achieves 3-7% higher overall pump efficiency compared to single-shaft multi-stage pumps where all impellers rotate at identical speed.

The precision-ground helical gearing is manufactured to AGMA Class 12 quality with tooth profile and helix angle tolerances verified on a Klingelnberg gear measuring center, with each gear set serialized and traceable to its individual measurement report. Inter-stage coolers, where specified for gas compression or high-temperature liquid services, are designed to ASME Section VIII Division 1 with full U-stamp certification when required by the installation jurisdiction.

Technical Specifications
Parameter Specification Verification Method
Design Series HMP Multi-Stage Integrally Geared Design review per API 617/API 610
Maximum Discharge Pressure 20.0 MPa (2,900 psi) Hydrostatic test 1.5x stage discharge
Flow Rate Range 10 to 200 m³/h (44 to 880 GPM) Application-specific hydraulic selection
Stage Configuration 2 to 6 Impeller Stages, Modular Individual stage performance mapping
Gear Quality Standard AGMA Class 12, Case-Hardened, Ground Klingelnberg gear measurement report
Gearbox Casing Horizontally Split, Ferrous Casting UT wall thickness, PT for surface defects
Rotor Dynamics Lateral & Torsional Analysis per API 617 Undamped critical speed map provided
Bearing Type Tilting Pad Journal, Tilt Pad Thrust Bearing temperature RTD monitoring
Lubrication System API 614 Oil Console, Duplex Filters ISO 4406 17/15/12 oil cleanliness
Seal System API 682 4th Ed. Dual Pressurized Individual stage seal air test
Instrumentation API 670 Proximity Probes, Accelerometers Full-speed no-load verification run
Engineering Expertise & Manufacturing Process
  • Rotor Dynamic Analysis for Every Configuration: Based on our engineering experience with multi-pinion geared rotor systems, we perform a complete undamped lateral critical speed analysis and torsional vibration analysis for each HMP pump configuration per API 617 requirements. The rotor model includes the bull gear shaft, each pinion shaft with its impeller overhung mass, and the flexible coupling. Campbell diagrams and mode shape plots are provided in the technical documentation package, demonstrating separation margins between operating speeds and lateral critical speeds of at least 20% for amplified modes per API criteria. This analysis is not a one-time design exercise—it is recalculated for each specific order configuration and verified during the factory mechanical running test where vibration data is collected from proximity probes installed at each bearing location.
  • Modular Stage Design for Field Serviceability: Drawing on field maintenance experience from our service team, each HMP stage casing is designed with removable diffuser covers that permit individual stage access without disassembling adjacent stages or breaking the gearbox split line. This modular architecture, validated through time-and-motion studies during actual field overhauls, reduces the mean time to repair for a single-stage intervention by approximately 50% compared to conventional barrel-type multi-stage pumps where the entire cartridge must be extracted to access any internal component. Individual impeller stages can be re-trimmed or replaced with alternative hydraulic profiles to accommodate process condition changes, with our engineering team providing a formal hydraulic re-rate study to verify the modified configuration.
  • Full-Load String Test With All Stages Active: Our factory test capability includes a high-pressure closed-loop test facility capable of supplying the full-rated discharge pressure to HMP series pumps. The complete multi-stage assembly is tested with all stages active, verifying inter-stage pressure distribution, overall head-capacity performance, bearing temperatures, and vibration signatures. The test report includes per-stage discharge pressure measurements, overall performance curves, and vibration spectra from all bearing locations—providing a comprehensive baseline for future condition monitoring trending by the end-user's reliability team.
  • Proven High-Pressure Casing Design: Each stage pressure casing is designed using finite element analysis per ASME Section VIII Division 2 design-by-analysis methodology, with stress linearization performed through critical sections identified by the FEA post-processor. The casing hydrostatic test at 1.5 times the maximum allowable working pressure of each stage is witnessed and documented with calibrated pressure gauges and chart recorders, providing objective evidence of pressure-retaining integrity that supports our clients' mechanical integrity program documentation.
Frequently Asked Questions
Q1: What reliability data can you share for the HMP series in high-pressure water injection service?
A1: Based on our field service database covering HMP series pumps in produced water injection service, we have documented mean time between overhaul intervals of 30,000-36,000 hours for units operating with filtered injection water (≤ 10 microns nominal filtration, oil-in-water ≤ 20 ppm). The primary maintenance interventions recorded are scheduled bearing replacements at 24,000-hour intervals and mechanical seal cartridge exchanges at 24,000-30,000 hour intervals, both of which are planned maintenance activities rather than reactive repairs. We have three units that have exceeded 50,000 operating hours with only routine seal and bearing replacements documented. Subject to operator approval, we can arrange discussion with reference clients operating HMP pumps in similar service conditions to provide direct feedback on operational experience.
Q2: How do you ensure that a multi-stage pump configured for our specific process conditions will operate without rotor dynamic issues?
A2: Rotor dynamic validation is a mandatory engineering deliverable for every HMP pump order, not an optional calculation. Our engineering workflow requires: (1) undamped lateral critical speed map for each pinion shaft, calculated using verified rotor dynamic software with bearing stiffness and damping coefficients from the bearing manufacturer's analysis; (2) torsional natural frequency calculation for the complete drive train including motor, coupling, bull gear, and all pinions; (3) review of separation margins against API 617 criteria; (4) physical verification during the factory mechanical running test where proximity probe data is collected across the full speed range during run-up and coast-down, with any unexpected critical speed responses investigated and resolved before shipment release.
Q3: What is the expected delivery timeline for an HMP multi-stage pump, and how do you manage project schedule risk?
A3: A typical HMP series multi-stage pump has a manufacturing lead time of 28-32 weeks from order acceptance, driven primarily by casting delivery (12-14 weeks for multi-stage casing patterns), gear cutting and finishing (8-10 weeks after forging delivery), and assembly/testing (4-6 weeks). We manage project schedule through a detailed manufacturing schedule with bi-weekly progress reports including photographs of completed components. Long-lead items—including bull gear and pinion forgings, stage casing castings, and the API 614 lubrication console—are ordered within 48 hours of contract effectiveness. Our historical on-time delivery performance for HMP series pumps over the past three years is 87% within ±2 weeks of promised date, with schedule delays primarily attributable to casting foundry capacity constraints during peak demand periods—a risk we proactively communicate and manage through our foundry capacity reservation system.
Related Products