Generic selectors
Exact matches only
Search in title
Search in content
Post Type Selectors

New additions to Sulzer’s HSTTM 30 turbocompressor range increase efficiency for wastewater applications

Compressors
Sulzer turbocompressor

New additions to Sulzer’s HSTTM 30 turbocompressor range increase efficiency for wastewater applications

By: Sulzer

Contributor: Edward Paro, Portfolio Manager, Aeration, Water Business Unit, Pumps Equipment – Sulzer Pumps Finland Oy

Sulzer has extended its highly popular HST 30 range of turbocompressors with the addition of two new models. The HST 30-58-8 and HST 30-38-2 offer increased flow and pressure respectively for applications in the wastewater industry. Together with a new, larger motor, the HST 30 range offers a cost-effective, efficient and reliable solution for aeration applications.

There are countless designs for aeration tanks and membrane bioreactors that each have their own requirements in terms of air supply. The size and depth of the tank will often define the specifications for the turbocompressor; traditional, shallower designs can utilize greater airflows while deeper tanks require high pressures of air.

For wastewater treatment plants aiming to upgrade their aeration facilities but retain shallower tanks, the HST 30-58-8 offers improved efficiency at lower pressures up to 75 kPa (10.5 psig) with an extended flow envelope up to 15’000 Nm3/h (9’400 SCFM). This model is also well-suited to the task of scouring membranes in membrane bioreactors (MBRs).

An HST 30 installed between an HST 20 and an HST 40 (closest to the camera)

An HST 30 installed between an HST 20 and an HST 40 (closest to the camera)

For some sites, both old and new-build, space constraints can mean that aeration tanks are deeper, with a smaller surface area. In these cases, the turbocompressor needs to deliver a higher pressure to ensure an efficient process. For these applications, the HST 30-38-2 offers increased operating pressures up to 130 kPa (18.9 psig); the flow is correspondingly lower at 10’000 Nm3/h (6’500 SCFM).

The HST 30 range has also benefitted from a new 350 kW (450 hp) electric motor which will be fitted to the top-of-the-range models. This offers greater flow rates and peak operating pressures with the HST 30-46 performance being boosted to 12’400 Nm3/h (7’900 SCFM). As with all of Sulzer’s turbocompressors, the entire unit, including the electric motor and electronic controls are all designed and manufactured in-house.

Sulzer has an excellent reputation for reliability in turbocompressor applications, with many units having been in operation for over 20 years. As these, and other units, are considered for refurbishment or upgrading, the HST 30 series offers several benefits in terms of efficiency and performance as well as integration with the latest communications protocols.

For more information, visit www.sulzer.com

Related Articles

Compressor Maps in AFT Arrow

Compressor Maps in AFT Arrow

In AFT Arrow, a compressor map enables a more precise modeling of a centrifugal compressor junction across its complete range…

Related Whitepapers

Building a Centrifugal Pump Digital Twin for a Chemical Plant

A digital twin represents a physical asset and its function; it contains intelligence to evaluate static and real-time data. Chemical refining plants are asset intensive…

Autonomous Fontan pump: Computational feasibility study

A double-inlet, double-outlet rotary pump was designed to augment Fontan flow through the total cavopulmonary connection. Pump power is supplied by a systemic arterial shunt…

Hydraulic design of a centrifugal LOX pump, including cavitation modeling

The study shows the design and optimization of a LOX centrifugal pump with CFturbo/CFturbo BLADERUNNER 2025.R1 for a fictional rocket engine powered by LOX/RP-1, which…

BEP Pump System Optimization Study of a Canola Oil System

Ishwar Dhere, Process Engineer with Stantec Resourcenet India was tasked with analyzing estimated pump head, normal operating line velocities, and pressure analysis for a new…