In recent years, (sub-)arctic activities have increased substantially in oil and gas, marine transport, fishing, science and research, and tourism industries. Due to their geographic location, these activities hold a high risk while they cope with extreme conditions, such as sub-zero temperatures, limited amounts of daylight, and their remote operating environment. As a consequence, the demand for winterized vessels with a minimum of ice reinforcement is increasing.
International standards provide guidance to manufacturers and operators of this type of equipment. DNVGL-OS-A201 is one of the world’s most comprehensive and followed set of principles for winterization and provides design principles for mobile units and offshore installations intended for cold-climate conditions.
Winterization requirements can be broken into two classes:
People working in extreme weather conditions make sure that their personnel and equipment is protected at all times and year-round.
Since anti-icing and de-icing measures can vary widely depending on environmental conditions, it is important to determine the specific temperature conditions for winterization.
A variety of methods exist, both active and passive, such as steam, hot water, chemical freezing point depressants, ice-phobic coatings, infrared radiation, and electric heat tracing. Mechanical approaches using shovels or hammers may work on smaller areas but are not practical for larger sections of a vessel. Not only that but manual methods put personnel in harm’s way by exposing them to harsh weather conditions.
Electric heat tracing has been used for both anti-icing and de-icing for many years. It has proven to be effective and reliable for a wide range of applications including walkways, handrails, stairs, helidecks, and many more.