Kerone Engineering Solutions Ltd. is a leading company in the provision of advanced industrial heating, drying, and process solutions of engineering globally. Having more than 50 years of expertise, we are experts in designing, producing, and delivering custom-made, state-of-the-art systems to meet the ever-changing requirements of the industries across the globe.

We have been involved in engineering excellence, sustainability, digitalization, and technological innovation to become a reliable collaborator whose business partners are in various industries. Kerone will implement Artificial Intelligence (AI), Machine Learning (ML), and Internet of Things (IoT) technologies in our systems to ensure smarter automation, real-time monitoring, predictive maintenance, and process optimization that is data-driven, thus enabling our clients to be more productive, efficient, and reliable.

The Kerone systems are designed to meet Industry 4.0, which leverages AI-powered analytics and IoT connections to provide clients with data insights and intelligent automation to manufacture next-generation products.

Infrared Paper Coating & Drying Machine processes have proved its importance in today's time where the paper industry has undergone tremendous change and conventional drying method is replaced by high intensity electrical infrared drying and coating. Here, in this working situation, high intensity infrared drying allows evaporation of eight to ten times more water than conventional drying method per square meter which provides for improved quality, fast immobilization, space saving as well as simplified sheet runs. Functioning as highly penetrating energy that has much higher drying rate in comparison to convection or conduction systems, some of the advantages of using this technology in paper coating and drying applications include providing quality surface coating from quick coating immobilization, allowing negative reduction of scale on initial dryers, allowing simplified sheet movement because of compact infrared dryer, providing for improved porosity, allowing for lower coat weight and more synthetic on the surface coating as well as bringing decrease in restoration time from sheet breaks or stops.