Gas Turbine Stocks List

Recent Signals

Date Stock Signal Type
2021-04-16 ARNC Narrow Range Bar Range Contraction
2021-04-16 ARNC NR7 Range Contraction
2021-04-16 B 20 DMA Support Bullish
2021-04-16 B Bollinger Band Squeeze Range Contraction
2021-04-16 CETX Doji - Bullish? Reversal
2021-04-16 CETX Stochastic Buy Signal Bullish
2021-04-16 HAYN 20 DMA Support Bullish
2021-04-16 HAYN 50 DMA Support Bullish
2021-04-16 HAYN Bollinger Band Squeeze Range Contraction
2021-04-16 MG 20 DMA Support Bullish
2021-04-16 NI Lizard Bearish Bearish Day Trade Setup
2021-04-16 NI Upper Bollinger Band Walk Strength
2021-04-16 NI Calm After Storm Range Contraction
2021-04-16 NI Doji - Bearish? Reversal
2021-04-16 NI Shooting Star Candlestick Bearish
2021-04-16 SIF MACD Bullish Signal Line Cross Bullish
2021-04-16 TGI Bollinger Band Squeeze Range Contraction
2021-04-16 TVC Cup with Handle Other
2021-04-16 TVE Shooting Star Candlestick Bearish
2021-04-16 TVE Wide Range Bar Range Expansion
2021-04-16 TVE Doji - Bearish? Reversal
2021-04-16 TVE Upper Bollinger Band Walk Strength
2021-04-16 TVE Expansion Breakout Bullish Swing Setup
2021-04-16 WWD Cup with Handle Other
2021-04-16 WWD Three Weeks Tight Range Contraction
2021-04-16 WWD Bollinger Band Squeeze Range Contraction
2021-04-16 YPF Stochastic Buy Signal Bullish

Recent News for Gas Turbine Stocks

A gas turbine, also called a combustion turbine, is a type of continuous combustion, internal combustion engine. There are three main components:

An upstream rotating gas compressor;
A downstream turbine on the same shaft;
A combustion chamber or area, called a combustor, in between 1. and 2. above.A fourth component is often used to increase efficiency (turboprop, turbofan), to convert power into mechanical or electric form (turboshaft, electric generator), or to achieve greater power to mass/volume ratio (afterburner).
The basic operation of the gas turbine is a Brayton cycle with air as the working fluid. Fresh atmospheric air flows through the compressor that brings it to higher pressure. Energy is then added by spraying fuel into the air and igniting it so the combustion generates a high-temperature flow. This high-temperature high-pressure gas enters a turbine, where it expands down to the exhaust pressure, producing a shaft work output in the process. The turbine shaft work is used to drive the compressor; the energy that is not used for shaft work comes out in the exhaust gases that produce thrust. The purpose of the gas turbine determines the design so that the most desirable split of energy between the thrust and the shaft work is achieved. The fourth step of the Brayton cycle (cooling of the working fluid) is omitted, as gas turbines are open systems that do not use the same air again.
Gas turbines are used to power aircraft, trains, ships, electrical generators, pumps, gas compressors, and tanks.

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