Heat Recovery Steam Generators

Cleaver-Brooks Heat Recovery Steam Generators – MPN Boilers: Authorized Partner in New York

MPN Boilers proudly partners with Cleaver-Brooks to distribute advanced Heat Recovery Steam Generators (HRSGs) across New York. Offering a range of high-performance, energy-efficient solutions, MPN delivers cutting-edge technology tailored for industrial and commercial applications.

Max-Fire Series HRSG

The Cleaver-Brooks Max-Fire® Series is a high-efficiency, shop-assembled Heat Recovery Steam Generator (HRSG) with integrated water-cooled furnace technology. Designed for steam generation up to 500,000 lb/hr and firing temperatures up to 2800°F, it achieves over 80% efficiency and supports ultra-low NOx emissions (<2 ppm with SCR). Ideal for Combined Heat and Power (CHP), industrial steam, and institutional applications, the Max-Fire Series is available in multiple configurations (O-style and A-style) to meet space and performance requirements.

Modular Heat Recovery Steam Generator (HRSG)

The Cleaver-Brooks Modular HRSG is a custom-engineered, high-efficiency heat recovery solution designed for gas turbine systems (25–60 MW). Capable of handling exhaust flows up to 1,000,000 lbs/hr and steam generation over 500,000 lbs/hr, it features maximum shop assembly to reduce field labor. With >80% efficiency, low emissions (<2 ppm NOx with SCR), and flexible fuel options, it’s ideal for industrial processes, power generation, and petrochemical applications.

Slant Type/VC Series HRSG

The Cleaver-Brooks Slant Type and VC Series HRSGs are compact, single-pass heat recovery boilers designed for gas inlet temperatures below 1,700°F. With steam generation up to 150,000 lb/hr and low emissions (<2 ppm NOx with SCR), they offer >80% efficiency in a space-saving design. The Slant model features a diagonal drum layout for tight spaces, while the VC model’s drum-over-drum design suits high-pressure, horizontal flow applications. Ideal for CHP, institutional, and industrial use where emissions compliance and space flexibility are key.