With the increasing number of OTEC projects around the globe, more and more industrial companies increase their focus and product range towards OTEC. An example for this is the recent product update by Kobe Steel, Ltd and its announcement to provide high heat transfer titanium sheet specifically designed for OTEC plants.
Kobe Steel, Ltd. has developed a high heat transfer titanium sheet called HEET™ for use in plate heat exchangers, one of the important applications of commercially pure titanium sheet. Kobe Steel has supplied this material for use in the heat exchangers of an ocean thermal energy conversion (OTEC) power system in a demonstration project in Kumejima, Okinawa Prefecture.
The high heat transfer titanium sheet enhances the heat transfer performance by more than 20 percent. Moreover, the new sheet is environmentally friendly and conserves resources. It is the first time that HEET™ has been applied in an OTEC power system. This HEET™ application is hoped to make large advances in lowering the power generation cost to verify the practical use of OTEC power generation, which is attracting attention as a renewable source.
Electricity generated in the demonstration project is supplied to a power company, a world first. The OTEC power system successfully started generating electricity on March 30 and commenced verification tests in April. Stability tests of the heat cycle, validation of controllability, and performance tests of the heat exchangers are also being conducted. Aiming to commercialize the OTEC power system in the future, the project is examining ways to reduce power generation costs and is looking to set up an OTEC power system in the Okinawa area.
High heat transfer titanium sheet: HEET™
Kobe Steel’s high heat transfer titanium sheet, made of commercially pure titanium, has minute convex-shaped bumps to increase heat conductivity. When using this high heat transfer titanium sheet in heat exchangers for OTEC power systems, the boiling heat transfer increases by more than 20 percent without changing the design of the heat exchanger. By increasing the heat transfer performance, it is possible to generate electricity from smaller temperature differences. This broadens the areas where electricity can be generated.
In addition, reducing the amount of seawater that is drawn up decreases electricity consumption within the OTEC plant, leading to an actual increase in power generation capacity. The compact size of the heat exchanger lowers equipment costs, which contribute to lowering power generation costs. In this demonstration project, the economic benefits of using high heat transfer titanium sheet in the power generation business will be specifically studied, as will the commercial application of the OTEC power system.
In 2000, Kobe Steel began research on titanium sheet for heat exchangers in OTEC power systems. Kobe Steel collaborated with Saga University’s Institute of Ocean Energy to increase the advancement of titanium materials. Kobe Steel is actively working to expand sales of high heat transfer titanium sheet to domestic and overseas users in industrial sectors that use heat exchangers including the energy, plant engineering and shipbuilding fields. At the same time, by contributing to the effective utilization of renewable energy, Kobe Steel aims to help build a sustainable society.
Source: http://www.kobelco.co.jp/english/releases/2013/1188441_13522.html