Gas Turbine GT13E2 dựa trên nền tảng thiết kế của GT13E đã lắp đặt ở nhiều nhà máy điện trên thế giới như Deeside ở Anh, Kuala Langat ở Malaysia và Nhà Máy Điện Meishi II tại tỉnh quảng Đông Trung Quốc. Tháng 08 năm 2004 cụm Nhà Máy Điện Chu Trình Hỗn Hợp Phú Mỹ 4 (hình 1) với tổng công suất khoảng 450 MW mà trong đó bao gồm 02 tổ máy tuabin khí GT13E2 chính thức đưa vào vận hành thương mại đến nay được đánh giá là tổ máy vận hành ổn định và hiệu suất...
A wide range of issues related to analysis of gas turbines and their engineering applications are considered in the book. Analytical and experimental methods are employed to identify failures and quantify operating conditions and efficiency of gas turbines. Gas turbine engine defect diagnostic and condition monitoring systems, operating conditions of open gas turbines, reduction of jet mixing noise, recovery of exhaust heat from gas turbines, appropriate materials and coatings, ultra micro gas turbines and applications of gas turbines are discussed.
Aircraft Gas Turbine Engine Technology provides a comprehensive, easy-to-understand treatment of the background, development, and applications of the gas turbine engine it its various forms, such as turobjet, turbofan, turboprop, and turboshaft powerplants. Designed primarily as a resource for technicians preparing for the FAA aircraft powerplant mechanic certification, Aircraft Gas Turbine Engine Technology also may be used a reference. The text also discusses the changing maintenance and overhaul procedures and philosophies and the role of fuel metering in engine operation....
During my experience of research for the last 25 years, I have felt the need for a text book
written specifi cally for Design Engineers and Materials Scientists. Although there have
been a number of excellent books written on the subject, they are now either out of date or
fundamental in nature. There is a growing need to adopt advanced techniques / technologies
to meet the ever increasing demand for high effi ciency in existing engines and to develop
modern gas turbines for strategic and special applications....
With increasing energy demands, dwindling fossil energy resources, and environmental concerns associated with criteria pollutants and greenhouse gases, signiﬁcant attention in the power generation community has been focused on increasing efﬁciency and reducing emissions. A highly efﬁcient and low-emission concept is the fuel cell gas turbine (GT) hybrid. Hybrid systems are comprised of fuel cells integrated with a GT engine. A variety of potential conﬁgurations have been proposed and a number of cycles have been investigated.
Like other internal combustion engines, the gas turbine requires an outside source of starting power. This is provided by an electrical motor or diesel engine connected through a gear box to the shaft of the gas turbine (the high-pressure shaft in a multishaft configuration). Other devices can be used, including the generator of large electric utility gas turbines, by using a variable frequency power supply.
World energy demand is likely to increase over the next 20 years, and it is well
ascertained that fossil fuels will still be the dominant source for power generation all
over the world. In this scenario, gas turbine (GT) engines will still represent a key
technology, either in stand-alone applications or combined with other power
The confluence of market demand for greatly improved
compact power sources for portable electronics with the rapidly
expanding capability of micromachining technology has made
feasible the development of gas turbines in the millimeter-size
range. With airfoil spans measured in 100’s of microns rather
than meters, these “microengines” have about 1 millionth the
air flow of large gas turbines and thus should produce about 1
millionth the power, 10-100 W.