This is a highly specific turbomachinery component. When dealing with a centrifugal impeller for a MAN Energy Solutions compressor (e.g., the MAN AIR or RH series, or legacy brands like Sulzer or GHH BORSIG that MAN now supports), there are critical technical and commercial factors.   Here is the breakdown of what you need to know to identify, replace, or procure this part. 1. Critical Identification Data (Find this on your nameplate) MAN does not make generic impellers. Before ordering, locate the compressor type designation and serial number. Typical MAN centrifugal compressor series include: RG, RI, RK, RA (integrally geared) MH (horizontally split) RB (barrel type) AIR 16, AIR 18, AIR 26 (direct drive)   2. Impeller Design Features (MAN Specific) MAN typically uses one of two designs depending on the vintage and application: Closed Impeller (Shrouded): Most common for high efficiency. These are usually 5-axis milled from a single forging or have a friction-welded shroud. Open Impeller (Unshrouded): Used in some high-flow or specific

  A centrifugal impeller is the core rotating component in a Hitachi centrifugal air compressor, responsible for accelerating air and converting velocity into pressure. For Hitachi units (e.g., HSP, MSG, or B-series models), impellers are precision-engineered for high-speed operation (often 15,000–60,000+ rpm) and demanding duty cycles.   Key Specifications (Typical for Hitachi) Parameter Typical Range / Details Material High-strength aluminum alloy (e.g., 7075-T6), stainless steel (17-4 PH), or titanium Blade design 3D machined, backward-curved or radial blades for efficiency Diameter 100–500 mm depending on stage and capacity Hub treatment Anti-corrosion coating (anodizing, nickel plating) Balancing ISO 1940 G1.0 or G0.4 (high-precision dynamic balancing) Attachment Splined shaft, shrink fit, or bolted connection   Common Hitachi Compressor Models Using Such Impellers HSP series (oil-free, two-stage, 75–450 kW) MSG Centac (multi-stage, 300–2500 kW) – Hitachi acquired certain Ingersoll Rand centrifugal lines? Actually, Hitachi markets its own S-series and T-series. B-series (75–560 kW, three-stage) HSL series (high-pressure variants)   Replacement / Sourcing Options

  IHI Corporation (Ishikawajima-Harima Heavy Industries) is a major Japanese manufacturer of turbochargers and industrial centrifugal compressors. To give you an accurate answer regarding the Centrifugal Impeller for an IHI unit, I need to clarify whether you are referring to: IHI Turbocharger (e.g., for heavy-duty trucks, marine, or automotive – like the VF series on Subarus). IHI Industrial Centrifugal Air Compressor (e.g., BSC, TRE, or TA series for plant air).   However, here is the critical technical and commercial data you need regarding IHI impellers. 1. Identification: Impeller Part Numbers IHI does not sell generic impellers. The impeller is matched to the specific compressor stage. Common IHI impeller casting numbers often follow patterns like: S5A / S5B / S7A (Common in automotive turbochargers like VF22, VF34) B02B / B04B / B06B (Industrial compressor low-flow stages) 5-digit numeric codes (e.g., 12345-xxxxx)   2. Material & Design Material: IHI typically uses Maraging Steel (e.g., 17-4PH or higher grade) or Aluminum Alloy (for lower pressure

  When it comes to centrifugal impellers for Siemens Energy centrifugal air compressors, you’re dealing with a high‑precision rotating component that directly affects compressor efficiency, reliability, and safety. Below is a structured overview to help you understand, source, or replace such an impeller.   1. Role of the Impeller in Siemens Energy Compressors The impeller is the heart of a centrifugal compressor stage. It accelerates air radially outward, converting mechanical (shaft) energy into kinetic energy, which is then turned into pressure in the diffuser and volute. In Siemens Energy machines (e.g., STC‑GC, STC‑SV, SST‑300 series, or integrally geared compressors), impellers are typically: Unshrouded (open) or shrouded (closed) depending on stage and pressure ratio. Made from high‑strength materials (e.g., 17‑4PH stainless steel, Inconel 718, Ti‑6Al‑4V titanium) to withstand high rotational speeds (often >30,000 rpm) and potential corrosive environments. Precisely balanced (often to ISO 1940‑1 Grade G1.0 or better).   2. Common Siemens Energy Compressor Models Using Such Impellers Compressor Series Typical Application Impeller

  The centrifugal impeller is the most critical rotating component in a Kobelco centrifugal air compressor. It accelerates air radially outward via high-speed rotation, converting velocity energy into pressure energy in the diffuser and volute.   For Kobelco models (e.g., KOBELCO KOBE STEEL series like TA-, TM-, TRE-, or M-series for air compressors), the impeller is typically: Material: High-strength aluminum alloy (e.g., 7075-T6) or stainless steel (e.g., 17-4PH), depending on model and operating pressure. Manufacturing: Precision 5‑axis CNC machined or forged, with full static & dynamic balancing (ISO 1940 G1.0 or better). Features: Open or closed type? Kobelco often uses closed (shrouded) impellers for higher efficiency and reliability in oil‑free air applications.   Key considerations for replacement or sourcing: OEM vs. aftermarket OEM (Kobelco) guarantees exact fit, material certs, and balancing. Expensive but low risk. Aftermarket (e.g., Compressor Parts International, Bala Sura, or Turbo-Tek) can be 30–50% cheaper but must match: Original part number (etched on hub) Eye diameter, exducer diameter, blade count, and

  This is a highly specialized component. To give you an accurate answer or sourcing guidance for a Centrifugal Impeller for a Mitsubishi Heavy Industries (MHI) centrifugal air compressor, I need to break down the critical variables.   Unlike a car part, MHI compressor impellers are engineered to order based on the specific compressor stage, gas composition, and required head/pressure. First: Identify Your Specific Compressor Model MHI uses specific series designations. Please locate the nameplate data. Common models include: Series A (e.g., A series) : Older multi-stage integrally geared units. Series B/M Series: Medium pressure / process air. RIK / RIT Series: Turbo blowers / centrifugal compressors. Custom API 617 units: Built per project for refineries or chemical plants.   Critical Information Needed for a Replacement If you need to quote or repair an impeller, you must provide the following to any supplier (including MHI or an aftermarket shop): MHI Part Number (e.g., *4H-12345* or *MHI-9876A*). This is the safest route.

When dealing with a centrifugal impeller for an Atlas Copco air compressor, it's referring to a component used in their oil‑free centrifugal compressor range (e.g., ZH+, Centac, or older Z series centrifugal models). Below is a structured overview to help us identify, source, or understand this critical part. 1. Which Atlas Copco compressors use a centrifugal impeller? Atlas Copco’s centrifugal (turbo) compressor families include: Series Typical flow range Notes ZH+ 25–250 m³/min (900–8,850 cfm) Oil‑free, multi‑stage, direct‑drive Centac 85–850 m³/min (3,000–30,000 cfm) Large industrial, gear‑driven stages H series Up to 2,500 m³/min (88,000 cfm) High‑pressure, custom engineered Do not confuse with screw‑type ZR/ZT compressors – those use rotors, not impellers. 2. Impeller function & key characteristics Converts rotational energy into kinetic energy (high‑velocity air), then pressure via diffuser. Operates at very high speeds (15,000–50,000+ rpm depending on stage). Materials: Typically forged aluminium (e.g., 7075‑T6) for low‑duty, or stainless steel (17‑4PH, 15‑5PH) / titanium for aggressive environments or higher temperatures. Surface

  The centrifugal impeller is the most critical rotating component in an FS-Elliott centrifugal compressor, directly responsible for gas acceleration and pressure rise. FS-Elliott (a joint venture between FS-Curtis and Elliott Group) specializes in oil-free, multistage centrifugal compressors widely used in industrial air compression, PET blowing, nitrogen boosting, and process gas applications. Below is a technical and practical overview of the centrifugal impeller for FS-Elliott compressors, including design, materials, common models, failure signs, and sourcing options.   1. Role of the Impeller in FS-Elliott Compressors In an FS-Elliott compressor (e.g., PAP PLUS, P500, P600, TA, TRE series), air or gas enters the inlet guide vanes, then passes through the first-stage impeller – a high-speed rotating disk with curved blades. The impeller: Imparts kinetic energy to the gas (velocity) Works with stationary diffusers and return channels to convert velocity into pressure Determines efficiency, flow range, and reliability FS-Elliott compressors are multi-stage (typically 3–4 stages). Each

  The Ingersoll Rand MSG TURBO-AIR NX 12000 is a high-speed, integrally geared centrifugal compressor. The centrifugal impeller is the single most critical rotating component, operating at speeds typically between 15,000 and 30,000+ RPM.   Here is the direct technical and sourcing information you need. 1. OEM Part Number Context Ingersoll Rand does not sell "bare impellers" over the counter. They are sold as part of a Balance of Rotor (BOR) or High-Speed Shaft Assembly. Typical OEM P/N format: IR-XXXXX-XX or 399XXXXX The critical identifier: You need the Stage (1, 2, or 3) and the Compressor Serial Number (S/N) . The NX 12000 is a 3-stage compressor; impellers for Stage 1 (low pressure) are larger diameter than Stage 3 (high pressure).   2. Aftermarket & Repair Sources (OEM-Equivalent) Since you asked for a "Centrifugal Impeller" specifically, you are likely looking for a replacement or repair. Major authorized and non-authorized suppliers include: Ingersoll Rand Aftermarket (Direct): Part # likely requires a quote. They will only