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

New iMCHE from Danfoss offers maximum part-load efficiency

Danfoss
Danfoss iMCHE

New iMCHE from Danfoss offers maximum part-load efficiency

By: Danfoss

The interlaced microchannel heat exchanger (iMCHE) integrates a chiller or rooftop unit’s multiple circuits into a single coil with a shared air heat transfer area, controlling each circuit independently. Using the whole air side heat transfer area when operating under part-load conditions, iMCHE is able to maximize system efficiency.

The new iMCHE provides a compact and cost-effective solution for dual-circuit rooftop units. Dual-circuit rooftop units typically have two refrigerant circuits, each with one or more compressors. Under a full load, the iMCHE performs similarly to a conventional heat exchanger, while under part-load conditions, the system turns off one circuit, stopping portion of the tubes in the iMCHE. The remaining tubes operate with whole air-side heat transfer area, maximizing both efficiency and performance.

Compared to standard tube and fin heat exchangers, the iMCHE has clear advantages, from its compact, lightweight, all-aluminum design to its high efficiency heat transfer and lower refrigerant charge. The iMCHE delivers flexibility for different system circuit setups with its tube bending structure and passage setup, as well as its multi-row compact structure and high-tolerance distributor solution in evaporator applications.

Based on its excellent performance under part-load conditions, particularly when used with IDV scroll compressors, the iMCHE can significantly increase a system’s IEER efficiency rating by nearly 20 percent. This means existing systems meeting current standards will have no trouble meeting new, stricter energy efficiency standards simply by upgrading to an iMCHE with minimal redesign costs.

The modularity, customizability, and extensive flow arrangements of this new heat exchanger offer countless possibilities, addressing the many unique challenges facing the chiller and rooftop industry.

The iMCHE from Danfoss was recognized for innovative design, creativity, application, value, and market impact in the 2020 AHR Expo Innovation Awards program, where it received an award in the cooling category.

Contact your local Danfoss representative for more information about the iMCHE.

Danfoss engineers advanced technologies that enable us to build a better, smarter and more efficient tomorrow. In the world’s growing cities, we ensure the supply of fresh food and optimal comfort in our homes and offices, while meeting the need for energy-efficient infrastructure, connected systems and integrated renewable energy. Our solutions are used in areas such as refrigeration, air conditioning, heating, motor control and mobile machinery. Our innovative engineering dates back to 1933 and today Danfoss holds market-leading positions, employing 27,000 and serving customers in more than 100 countries. We are privately held by the founding family. Read more about us at www.danfoss.com.

Related Articles

Related Whitepapers

What is Water Hammer and Why It Is Important to Prevent?

Water hammer (or hydraulic shock) is the momentary increase in pressure inside a pipe caused by a sudden change of direction or velocity of the…

Five Reasons To Choose A Bearingless Torque Sensor

Benefits that improve your torque measurements Best real-world accuracy Highest Overload Highest Overrange

Advanced Sealing and Condition Monitoring Strategies In Water and Wastewater Plants

Introduction As a plant/maintenance manager or reliability engineer for a water or wastewater facility, you want to know about the best technologies to help your…

Downthrust Measurement in Vertical Pumps Prevents Failure: The Benefits of Measuring Axial Force in Real-Time

“Himmelstein’s Thrustmeter has proven to be accurate and repeatable, which are two of the main things that define quality in an instrument. It’s been a…

Comments

Leave a Reply

Your email address will not be published. Required fields are marked *