Hanbell LT-S-65/32-H

LT-S-H

Taiwan-built twin-screw and scroll compressors — proven in chillers and heat pumps worldwide.

Specifications

  • Compression technology: Screw
  • Configuration: Single
  • Enclosure / drive: Semi-Hermetic
  • Variable speed: Not Stated
  • Hazardous-area certification: Not Stated
  • Product category: compressor

Qualified refrigerants & capacity

Capacity (kW) evaluated at standard conditions: ULT (-60/45 °C), LT (-35/45 °C), MT (-10/45 °C), HT (-5/45 °C).

RefrigerantULTLTMTHT
R1234yf0.280.32
R1234ze(E)0.230.27
R134a0.290.34
R513A0.30.35
R515B0.20.24

Related Hanbell models

Frequently asked questions

What refrigerants does the Hanbell LT-S-65/32-H support?

The Hanbell LT-S-65/32-H is qualified for R1234yf, R1234ze(E), R134a, R513A, R515B. Capacity values at standard ULT (-60/45 °C), LT (-35/45 °C), MT (-10/45 °C) and HT (-5/45 °C) conditions are listed in the table above for each refrigerant.

What is the cooling capacity of the Hanbell LT-S-65/32-H?

Running on R513A, the Hanbell LT-S-65/32-H delivers 0.3 kW at MT, 0.35 kW at HT. Use the Benchmark tool to evaluate capacity at your exact SST/SDT and superheat conditions.

Is the Hanbell LT-S-65/32-H a lt-s-h?

Yes — the Hanbell LT-S-65/32-H is classified as a lt-s-h in the DigiEntropy taxonomy. Browse other lt-s-hs from Hanbell on the brand page.

Can the Hanbell LT-S-65/32-H be retrofit to a lower-GWP refrigerant under EU F-Gas Regulation 2024/573?

Open the F-Gas Retrofit tool with this model pre-selected to see drop-in alternatives ranked by capacity match, COP, GWP, PFAS impact, and 2026/2030/2035 phase-out timeline.

What polynomial standard is the Hanbell LT-S-65/32-H performance data based on?

Capacity, power, and current polynomials follow EN 12900 (10-coefficient bivariate in SST/SDT) for European-origin brands and AHRI 540 for North American brands. Coefficients are normalized into a common form for cross-brand comparison. Fit your own data in the Polynomial Fitter tool.

Find equivalents · F-Gas retrofit path · Open in Benchmark · All Hanbell models