Engineered to meet the demands of today’s most challenging cooling tower applications. Brentwood engineers reliable cooling tower components, including film fill media and drift eliminators, designed to provide long-lasting performance in industrial and commercial applications.
Brentwood’s one-of-a-kind Software for Tower Analysis and Rating helps engineers design efficient cooling tower solutions easily and accurately. In addition to product application and installation support.
Brentwood offers the most complete line of counterflow film fills to fit any water requirements, from high-efficiency, cross-fluted fills to fouling-resistant, vertical fluted fill designs. These fills are complemented by industry-leading drift eliminators, louvers, nozzles, and a range of ancillary components engineered to improve cooling tower efficiency. Overview Brentwood’s AccuPac® Cross-Fluted Cooling Tower Film Fills improve water distribution by splitting the water stream as it descends through the cooling tower fill pack. The counterflow film fills feature a bonded edge with dedicated bond points for added strength and durability. The high thermal performance and low pressure drop are balanced by utilizing the engineered microstructure design and maintaining the highest manufacturing standards. Brentwood has spent millions of dollars in [...]
As one of first manufacturers to develop a fill solution designed specifically for crossflow tower applications, Brentwood offers a range of cooling tower products that optimize cooling. From specially-designed herringbone film fills to a full line of splash bars and modular splash fill options, – and the supports and drift eliminators needed to round out the job – we can help your cooling tower achieve high performance. Cross-Fluted Film Fill Overview Brentwood’s AccuPac® Crossflow Cross-Fluted Film Fills for cooling tower systems improve water distribution by splitting the water stream as it descends through the fill pack. High thermal performance and low pressure drop are balanced by utilizing the engineered microstructure design and maintaining the highest manufacturing [...]