Wind Energy Stocks List
|AMSC||F||American Superconductor Corporation||5.49|
|BWEN||F||Broadwind Energy, Inc.||3.27|
|MTSC||D||MTS Systems Corporation||0.00|
|FAN||C||First Trust ISE Global Wind Energy ETF||0.75|
|PNM||A||PNM Resources, Inc. (Holding Co.)||0.37|
|PPG||A||PPG Industries, Inc.||2.04|
|RDS.B||D||Royal Dutch Shell PLC Royal Dutch Shell PLC Class B||0.41|
|XEL||B||Xcel Energy Inc.||-0.29|
|RDS.A||D||Royal Dutch Shell PLC Class A||0.31|
|CPSH||D||CPS Technologies Corp.||0.72|
|TPIC||D||TPI Composites, Inc.||2.58|
|IPLDP||A||Interstate Power and Light Company - Interstate Power & Light Company Perp Preferred 5.10% Series D||0.62|
|MP||D||MP Materials Corp.||3.97|
|MNA||B||IQ Merger Arbitrage ETF||5.52|
|JHMU||A||John Hancock Multifactor Utilities ETF||5.32|
|FDD||A||First Trust Dow Jones STOXX Select Dividend 30 Index Fund||5.25|
|ECLN||A||First Trust EIP Carbon Impact ETF||5.1|
|JHMA||A||John Hancock Multifactor Materials ETF||4.97|
View all Wind Energy related ETFs...
|2021-04-20||CPSH||Narrow Range Bar||Range Contraction|
|2021-04-20||FAN||Fell Below 20 DMA||Bearish|
|2021-04-20||FAN||MACD Bearish Signal Line Cross||Bearish|
|2021-04-20||FAN||Bollinger Band Squeeze||Range Contraction|
|2021-04-20||GGG||Doji - Bearish?||Reversal|
|2021-04-20||GGG||Expansion Breakout||Bullish Swing Setup|
|2021-04-20||IPLDP||MACD Bearish Signal Line Cross||Bearish|
|2021-04-20||PPG||Calm After Storm||Range Contraction|
|2021-04-20||PPG||Upper Bollinger Band Walk||Strength|
|2021-04-20||PPG||Stochastic Reached Overbought||Strength|
|2021-04-20||PPG||New 52 Week Closing High||Bullish|
|2021-04-20||RDS.A||Bollinger Band Squeeze||Range Contraction|
|2021-04-20||RDS.B||Bollinger Band Squeeze||Range Contraction|
|2021-04-20||RDS.B||MACD Bearish Signal Line Cross||Bearish|
|2021-04-20||RXN||MACD Bearish Signal Line Cross||Bearish|
|2021-04-20||XEL||Pocket Pivot||Bullish Swing Setup|
Wind power is the use of air flow through wind turbines to provide the mechanical power to turn electric generators. Wind power, as an alternative to burning fossil fuels, is plentiful, renewable, widely distributed, clean, produces no greenhouse gas emissions during operation, consumes no water, and uses little land. The net effects on the environment are far less problematic than those of fossil fuel sources.
Wind farms consist of many individual wind turbines, which are connected to the electric power transmission network. Onshore wind is an inexpensive source of electric power, competitive with or in many places cheaper than coal or gas plants. Offshore wind is steadier and stronger than on land and offshore farms have less visual impact, but construction and maintenance costs are considerably higher. Small onshore wind farms can feed some energy into the grid or provide electric power to isolated off-grid locations.Wind power gives variable power, which is very consistent from year to year but has significant variation over shorter time scales.
It is therefore used in conjunction with other electric power sources to give a reliable supply.
As the proportion of wind power in a region increases, a need to upgrade the grid and a lowered ability to supplant conventional production can occur.
Power-management techniques such as having excess capacity, geographically distributed turbines, dispatchable sources, sufficient hydroelectric power, exporting and importing power to neighboring areas, energy storage, or reducing demand when wind production is low, can in many cases overcome these problems.Weather forecasting permits the electric-power network to be readied for the predictable variations in production that occur.In 2017, global wind power capacity expanded 10% to 539 GW.. Yearly wind energy production grew 17% reaching 4.4% of worldwide electric power usage, and providing 11.6% of the electricity in the European Union.Denmark is the country with the highest penetration of wind power, with 43.4% of its consumed electricity from wind in 2017.
At least 83 other countries around the world are using wind power to supply their electric power grids.