Engine cooling solutions for industrial mining equipment
A mine haul truck or excavator down for as few as 10 minutes can result in more than $100,000 in lost profit. The right engine cooling system can strongly mitigate this risk.
Optimized airflow from a fan drive designed specifically for large-bore diesel engines increases performance, reduces emissions and lowers noise. Together with a fan that's durable enough to handle the rigors of large-scale mining jobs, a variable-speed drive can play a vital role in making sure the world's resources are extracted efficiently, safely and economically.
Introducing the RCV2000 variable-speed fan drive
Horton has spent the better part of a decade developing the RCV High-Horsepower series of fan drives. Designed to the specific needs of the globe's most tenacious mining conditions and rigorously tested in the lab and in the field, the RCV2000 is already standard with two international OEMs.
High Horsepower
With an innovative, viscous-operated design that communicates directly with the engine's ECM, the RCV2000 provides fuel savings, increased productivity and durability . LEARN MORE >>
Hear from the experts
Horton's engine cooling gurus discuss the company's new mining-focused solutions.
See it in motion
A detailed, animated view of the RCV2000's inner workings.
A fan for all seasons
Size is just one important consideration when designing gigantic engines for mining equipment. Material, blade count and pitch width all have drastic impacts on airflow. When applied correctly, the right fan -- along with an accompanying fan drive -- can help mine-haul trucks and excavators achieve peak performance, from sweltering heat to frigid temperatures, from Chile to Australia, and everywhere in between.
From the field
Learn how Horton's HM1400 fan turned downtime into revenue in Australian mine country. VIEW CASE STUDY >>
Tried, tested tough
Engineered using a custom composite material suited specifically for challenging terrain, the HTEC fan series boasts improved efficiency and greater durability in even the harshest climates. LEARN MORE >>