タイトル無し
スポンサーリンク
概要
- 論文の詳細を見る
With the increased consumption of LNG, more and more attention is given to the utilization of LNG-based cryogenic energy in various industries. Tokyo Electric has been involved in the development of cryogenic power generating systems with high efficiency and good load following capability to attain the goal of energy conservation. In 1979, as the first of its kind in the world a demonstration plant built by us in the premises of the Sodegaura Power Station was successfully put into operation. This 442kW demonstration unit adopted the direct expansion/propane Rankin system consuming LNG at the rate of 10tons/hour, which was selected among other systems and passed thorough design review in terms of system optimization best suited configuration and control system during the conceptual design stage.This was followed by another 241kW demonstration unit with 5ton/hour LNG consumption adopting mixed working fluid Rankine cycle system in December, 1980.They were subjected to various tests to verify their plant performance, load following capability, durability etc. under a number of conditions and proved suitable for commercial operation. Tokyo Electric as a utility company consuming more than half the total LNG imports, is promoting a commercial cryogenic power plant project in view of energy conservation through the utilization of cryogenic energy.We disire to make it efficient and best designed by incorporating the technologies established by and experiences acquired from the demonstration units, and also latest operational and technological suggestions given by other cryogenic power plants in operation.
- 公益社団法人 低温工学・超電導学会 (旧 社団法人 低温工学協会)の論文
公益社団法人 低温工学・超電導学会 (旧 社団法人 低温工学協会) | 論文
- Test Results of the SMES Model Coil. Cool-down and Thermal Characteristics.:Cool-down and Thermal Characteristics
- Crystal Growth of Y Based Superconductors on Solidification Processing.
- Refrigeration of pressurized He II using a 3He circulation system. (II). Behavior of the system during the initial cooling and after a pulsed heat generation.:Behavior of the System during the Initial Cooling and after a Pulsed Heat Generation
- Quench simulation analysis of a superconducting coil. II. Simulation.:II. Simulation
- タイトル無し