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All commercial steel chimneys and flue systems will inevitably experience corrosion over time. Due to the regular use of venting systems for heat and the extent of the developments, maintenance must be conducted regularly.
Coastal and marine corrosion is significantly exacerbated by the harsh conditions faced by stainless-steel chimney systems.
For instance, constructing a ship or an offshore platform presents numerous sector-specific challenges, including extreme weather and various saltwater environmental factors that must be taken into account.
Corrosion refers to the deterioration of the steel flue or system due to environmental factors. This deterioration can result from atmospheric conditions and the flue's exposure to varying temperatures, which can fluctuate between hot and cold within just a few minutes. The corrosion process requires the combined presence of water and oxygen. The iron contained within the stainless steel is oxidised and produces rust. This results in the steel surface being pitted or large fissures appearing on the surface. Steel corrosion is an electrochemical process. Ferrous ions go into the solution as a result of an initial corrosion attack at anodic areas on the metal. The oxygen and water combine with released electrons, as they make their way to cathodic sites on the surface of the metal, resulting in the formation of hydroxyl ions. These ions then react with the ferrous ions from the anode, producing ferrous hydroxide. This hydroxide is oxidised in the air resulting in hydrated ferric oxide, a reddish-brown substance commonly known to us as rust. Rust is the inevitable result caused by corrosion.
Hydrated Ferric Oxide is the type of standard corrosion you would expect in all areas, but when you add coastland and marine conditions, adding salt to the mix; a combination of moisture, oxygen and salt (sodium chloride), this rapidly increases the corrosion. Saltwater, for example, corrodes the stainless steel at least five times faster than fresh water does. The reason is that salt is an electrolyte, and it disperses ions into water, therefore increasing the corrosion rate. This, in combination with the ocean air (which also contains salt), then causes the steel to corrode 10 times faster than inland air with normal humidity. A recent study found that within 10 miles of coastal areas, salt can still affect the system. An area, for example, with higher winds means the salt air is dispersed far wider, rather than just the coastal areas. Other environmental considerations include bacteria in the water, which will also affect the corrosion rate.
This can be prevented by selecting the correct metal type for a chimney system or flueing system. Stainless steel is a far better material choice than carbon steel or aluminium for these applications because it is corrosion-resistant. Stainless Steel contains a percentage of chromium, nickel and molybdenum, all elements which reduce corrosion. Plus, there are different grades and alloy compositions which make some versions more corrosion-resistant than others and more suitable to the severe weather in coastal areas. Grades that are higher in chromium are better suited for wet environments, such as chimney flueing and construction projects placed in or near saltwater. This also applies to chimney systems on liners, oil tankers and yachts. Having a larger percentage of nickel and molybdenum also results in corrosion reduction. To prevent salt build-up, the smoother the finish the better, as well as being easy to clean.
Using stainless steel 254SMO grade is a recommended choice for coastal applications. 254SMO is a very high-end austenitic (which means non-magnetic), stainless steel which contains high levels of corrosion-resistant materials; chromium, molybdenum and nickel, plus low levels of the rust-prone carbon elements. The strength of 254 SMO is nearly twice as high as the standard steel used in non-coastal applications. For typical systems, the outer liner can be 254, while the inner liner can be 316L. 904L steel can also be used in severe coastal and marine conditions. 904L is resistant to corrosion attacks and like 254 SMO, 904L also has increased nickel and molybdenum.The austenitic structure of 254 SMO and 904L means that both grades have additional toughness in extreme temperature contrasts.For standard commercial buildings which are at least 10 miles inland, the 316L grade is recommended, or a grade with equivalent corrosion resistance. Geographical conditions also need to be considered.The result of using a 254SMO or 904L twin wall flue system for a ship, yacht or coastal project is less pitting, as well as high corrosion resistance.Also, the structural connectors need to have protection. Options include galvanization, coating, etc.
Maintaining the steel flue system would include a cleaning schedule. Salt and other elements are to be removed, using a manufacturer's recommended stainless steel cleaning agent. Regular cleaning will help to make the system last longer, in combination with the correct steel system. Painting with suitable weather-resistant paints also helps in controlling surface corrosion. However, the constant weathering and conditions can result in the paint cracking in areas and making the appliance look untidy, as well as exposing the surface. Thus, regular maintenance and repainting are necessary for flue systems, which can be cumbersome and costly for large installations. Therefore, using an unpainted appliance or flue with a consistent maintenance and cleaning schedule may be more cost-effective.
