Turbine in a sentence

(1) The wind actuates the turbine.

(2) The wind turbine birled in the wind.

(3) The gas turbine exhaust is very hot.

(4) The wind turbine spins continuously.

(5) An engineer can design a wind turbine.

(6) The gas turbine generates electricity.

(7) The mill is powered by a large turbine.

(8) The wind turbine spun aerily in the wind.

(9) The wind is making the wind turbine spin.

(10) The pressurized steam powered the turbine.

Turbine sentence

(11) The force of the water powers the turbine.

(12) The wind turbine spun aloft in the breeze.

(13) The wind turbine base is made of concrete.

(14) The wind turbine was spinning in the wind.

(15) The output of the wind turbine was energy.

(16) The gas turbine is powered by natural gas.

(17) The wind turbine spun volant in the breeze.

(18) The wind turbine spun aloft on the hilltop.

(19) The gas turbine engine is used in aircraft.

(20) The gas turbine rotor spins at high speeds.

Turbine make sentence

(21) The wind made the wind turbine spin rapidly.

(22) The rotation of a wind turbine is clockwise.

(23) The gas turbine engine is used in airplanes.

(24) The wind turbine was whirling in the breeze.

(25) The generator is in series with the turbine.

(26) The air current made the wind turbine rotate.

(27) The wind turbine has a capacity of 500 watts.

(28) The wind turbine's blades spun in the breeze.

(29) A wind turbine stood erect near the wind farm.

(30) The water powers the water turbine in the dam.

Sentence of turbine

(31) The wind turbine spun aloft in the gusty wind.

(32) The wind turbine will spin and generate power.

(33) The wind turbine soared high above the fields.

(34) The pole was used to support the wind turbine.

(35) The output of the wind turbine was impressive.

(36) The wind turbine absorbed energy from the wind.

(37) The engineer created a model of a wind turbine.

(38) The pole is used for holding up a wind turbine.

(39) The wind turbine uses force to generate energy.

(40) The wind turbine's blade generates electricity.

Turbine meaningful sentence

(41) The wind turbine shredded the wind into energy.

(42) An engineer can help design a new wind turbine.

(43) The wind turbine churns to generate electricity.

(44) The ausformed nickel was used in turbine blades.

(45) A transistor can be used to make a wind turbine.

(46) The wind turbine foundation is made of concrete.

(47) The wind turbine's blades generated electricity.

(48) The gas turbine is used to generate electricity.

(49) The wind turbine cast a shadow on the open field.

(50) The gas turbine is commonly used in power plants.

Turbine sentence examples

(51) The wind turbine was suspended upon a tall tower.

(52) The wind turbine irradiates beside the wind farm.

(53) The wind turbine produces 2.5 megawatts of power.

(54) The wind turbine is spinning and creating energy.

(55) The wind turbine cast a shadow on the green field.

(56) The wind turbine will revolve on top of the tower.

(57) The active-power of the UPS wind turbine was 2 kW.

(58) The stator is an essential part of a wind turbine.

(59) The wind turbine was turning blowzily in the wind.

(60) The wind turbine generates 1,000 abwatts of power.

Sentence with turbine

(61) The working substance in a steam turbine is water.

(62) The wind turbine was erect behind the power plant.

(63) The wind turbine is spinning and generating power.

(64) The vane on the wind turbine generates electricity.

(65) The wind turbine blades flap around on a windy day.

(66) The steam turbine is driven by high-pressure steam.

(67) The engineer oversaw the babbitting of the turbine.

(68) The abradable liner is used in gas turbine engines.

(69) The arms on a wind turbine spin in a radial motion.

(70) The gas turbine generates electricity for the city.

Use turbine in a sentence

(71) The molten cobalt was poured into the turbine mold.

(72) The steam turbine revolutionized the power industry.

(73) The pressurised steam generator powered the turbine.

(74) The wind turbine cast a shadow over the countryside.

(75) The wind turbine's blades rotate in a rotary motion.

(76) The wind turbine rotated as it rocked with the wind.

(77) The wind turbine's blade sheared off during a storm.

(78) The superheated steam was used to power the turbine.

(79) The blaws of the wind turbine generated electricity.

(80) The steam turbine let out a hiss onto the generator.

Sentence using turbine

(81) The hydroelectric plant had a sluice on the turbine.

(82) The wind made the wind turbine generate electricity.

(83) The wind turbine oscillates to generate electricity.

(84) The wind turbine rotated frictionless in the breeze.

(85) The nominal voltage of this wind turbine is 48 volts.

(86) The gas turbine is a type of engine used in aircraft.

(87) The pulses of the wind turbine generated electricity.

(88) The wind turbine's blades propel it through the wind.

(89) The wind turbine's blades elongate above the horizon.

(90) Fire can be used to create energy for a wind turbine.

Turbine example sentence

(91) The gas turbine nozzle directs the flow of hot gases.

(92) The gas turbine intercooler cools the compressed air.

(93) The turbine is an essential component of a wind farm.

(94) The wind turbine's blades spun rapidly in the breeze.

(95) The wind turbine is spinning to generate electricity.

(96) The wind turbine spun aloft, generating clean energy.

(97) The wind turbine cast a long shadow on the open field.

(98) The vane on the wind turbine was damaged in the storm.

(99) The nominal output of the wind turbine is 2 megawatts.

(100) The wind turbine blades rotate to harness wind energy.

Sentence with word turbine

(101) The wind turbine produces one megawatt of electricity.

(102) The wind turbine will revolve on top of the wind farm.

(103) They skillfully positioned the shaft onto the turbine.

(104) The wind turbine will rotate down into a slower speed.

(105) The wind turbine serves as a sustainer of clean power.

(106) The wind turbine blades gust out against the open sky.

(107) The wind turbine irradiates beyond the blade rotation.

(108) The wind turbine irradiates inside the generator room.

(109) The wind turbine irradiates out of the generator room.

(110) The alnicos in this wind turbine provide clean energy.

Sentence of turbine

(111) The turbine blades are mounted rotatably on the shaft.

(112) The hydrokinetic turbine is a renewable energy source.

(113) The bird impinged on the wind turbine and got injured.

(114) The wind made the wind turbine spin faster and faster.

(115) The gas turbine generates electricity by burning fuel.

(116) The wind turbine was spinning to generate electricity.

(117) The wind turbine's blades turned slowly on a calm day.

(118) The mechanism of a wind turbine generates electricity.

(119) The number of blades on a wind turbine is beyond count.

(120) Balsa is used in the production of wind turbine blades.

Turbine used in a sentence

(121) The wind turbine's blades revolve over the countryside.

(122) The turbine converts fluid pressure into rotary motion.

(123) Eta is the symbol for the efficiency of a wind turbine.

(124) The wind turbine's rotor is made up of multiple blades.

(125) The wind turbine's vanes were spinning at a rapid pace.

(126) The natural gas turbine irradiates beside the pipeline.

(127) The transmission lines abut with the wind turbine farm.

(128) The wind turbine generated electricity from the breeze.

(129) A wind turbine emits energy in the form of electricity.

(130) The wind turbine was blown forward by the strong winds.

Turbine sentence in English

(131) The wind turbine has blades for generating electricity.

(132) The farm had a wind turbine for generating electricity.

(133) The wind turbine was tethered to the tower for support.

(134) Fiberglass is a common material in wind turbine blades.

(135) The wind turbine started to whir as the wind picked up.

(136) The revolutions of the wind turbine harness wind energy.

(137) The wind turbine blades revolve to generate electricity.

(138) The wind turbine's rotor spins in a clockwise direction.

(139) The power output of this wind turbine is 500 milliwatts.

(140) The engineer will pressurize the steam into the turbine.

(141) The wind turbine had a red blinking beacon on top of it.

(142) The worker had to climb down from the tall wind turbine.

(143) The wind turbine farm abuts upon the transmission lines.

(144) The combustors were the heart of the gas turbine engine.

(145) The rotative force of the turbine powered the generator.

(146) The building had a wind turbine to generate electricity.

(147) The roof of the engineering building has a wind turbine.

(148) The combined cycle gas turbine can produce 400 megawatts.

(149) The steam turbine is a crucial component in power plants.

(150) The air blow from the wind turbine generated electricity.

(151) The gas turbine produces electricity for the power plant.

(152) The wind turbine needed repairs after one blade went out.

(153) They rely on a wind turbine for electricity off the grid.

(154) The wind turbine blades rotate in a circle anticlockwise.

(155) The sprag unit in the wind turbine needed to be repaired.

(156) The axis of a wind turbine helps it generate electricity.

(157) The compressor is used to make the air in a wind turbine.

(158) The torque in a wind turbine determines its power output.

(159) The wind turbine was spinning and generating electricity.

(160) The gas turbine blade is made of high-strength materials.

(161) The gas turbine generator is used to produce electricity.

(162) The gas turbine rotor is the rotating part of the engine.

(163) The steam turbine is a key component in the Rankine cycle.

(164) The vane on the wind turbine rotated smoothly in the wind.

(165) The torque through the wind turbine generated electricity.

(166) A gas turbine is an efficient way to generate electricity.

(167) Inconel is often used in the production of turbine blades.

(168) The propellers of the wind turbine generated clean energy.

(169) The wind turbine rotated to harness the power of the wind.

(170) High steam pressure is necessary for powering the turbine.

(171) The wind turbine's rotor turns with the force of the wind.

(172) The wind turbine stopped spinning when one blade went out.

(173) The wind turbine stood idle and windlessly on the hilltop.

(174) The wind turbine's blades rotated gracefully, blade apart.

(175) The wind turbine blades whirred at generating electricity.

(176) The axialities of the turbine were causing inefficiencies.

(177) The axis of a wind turbine is perpendicular to the ground.

(178) The abradable coating on the turbine blade is wearing off.

(179) The motion of the wind turbine generated renewable energy.

(180) The wind turbine's blades spun rapidly in the strong wind.

(181) The wind turbine's blade sheared off during a severe storm.

(182) The wind turbine generated electricity at a constant speed.

(183) The whooshing noise of the wind turbine was a constant hum.

(184) The dampers on the wind turbine help to regulate its speed.

(185) The wind turbine will emit out clean energy to power homes.

(186) The wind turbine's rotor is mounted on top of a tall tower.

(187) The air current made the wind turbine generate electricity.

(188) The steam turbine rotates at high speeds to generate power.

(189) The wind turbine's vanes were painted white for visibility.

(190) The twostage turbine generated electricity from wind power.

(191) The wind turbine produces 2.5 gigawatts of energy annually.

(192) The wind turbine produces two megawatts of energy in a day.

(193) The torque over a wind turbine determines its power output.

(194) The giant wind turbine generated clean energy for the city.

(195) The generator is a significant component of a wind turbine.

(196) The wind turbine generated electricity for the entire town.

(197) The gas turbine exhaust is hot and can be used for heating.

(198) The gas turbine combustor burns the fuel to produce energy.

(199) The gas turbine combustion chamber is where fuel is burned.

(200) The wind turbine was an obstruction to the view of the sea.

(201) The axis of a wind turbine rotates to generate electricity.

(202) The whir of the wind turbine could be heard from miles away.

(203) The energy change in the wind turbine generates electricity.

(204) The gas turbine is known for its high power-to-weight ratio.

(205) The crane at the power plant was repairing a broken turbine.

(206) Stellite is often used in the production of turbine nozzles.

(207) The wind turbine's vanes captured the energy from the gusts.

(208) The active-power of the wind turbine was measured at 500 kW.

(209) The axis of a wind turbine helps it to generate electricity.

(210) The wind turbine generates 5000 watthours of energy per day.

(211) Vapor can be used to create a steam turbine for electricity.

(212) The farm had a wind turbine for generating renewable energy.

(213) The gas turbine lubrication system ensures smooth operation.

(214) The gas turbine power plant is used to generate electricity.

(215) The gas turbine engine is used in aircraft and power plants.

(216) The wind turbine spun in the breeze, generating electricity.

(217) The artesian flow was strong enough to power a small turbine.

(218) The wind turbine starts to spin down when the wind dies down.

(219) The blades of a wind turbine revolve to generate electricity.

(220) The terawatt wind turbine is one of the largest in the world.

(221) The whirligig's movement was powered by a small wind turbine.

(222) The steam turbine is an integral part of a steam power plant.

(223) The wind turbine's blades rotated in a smooth circumvolution.

(224) The wind turbine's blades generated electricity, blade apart.

(225) The nacelle of the wind turbine was damaged during the storm.

(226) The wind turbine manufacturer used fiberglass for the blades.

(227) The wind turbine blades circumrotate to generate electricity.

(228) The turbine is a fundamental component part of a power plant.

(229) The wind turbine emits a low hum as it generates electricity.

(230) The wind turbine blades rotate round, generating electricity.

(231) The manifold of the steam turbine controls the flow of steam.

(232) The gas turbine compressor increases the pressure of the air.

(233) The gas turbine inlet filter removes impurities from the air.

(234) The wind turbine's blades generated electricity for the town.

(235) The gas turbine exhaust gas is used to power a steam turbine.

(236) The axis of the wind turbine rotates to generate electricity.

(237) The steam turbine is a reliable and efficient source of power.

(238) The wind caused the wind turbine to spin in the gusty weather.

(239) The wind turbine generates electricity for the entire village.

(240) The wind turbine churns silently, harnessing renewable energy.

(241) The wind turbine blades whirred in the electricity generation.

(242) The cogeneration plant uses a turbine to generate electricity.

(243) The alidades were used to measure the angle of a wind turbine.

(244) The wind turbine generated the most power on the blowiest day.

(245) The axis of a wind turbine is the shaft that turns the blades.

(246) The penstock gate controls the flow of water into the turbine.

(247) The wind turbine blades had to be craned down for replacement.

(248) The plume under the wind turbine was a sign of its efficiency.

(249) The sluice below the turbine was used to generate electricity.

(250) The emission of energy from the wind turbine powered our home.

(251) The absolute pressure of the steam in the turbine was too low.

(252) A steam turbine converts thermal energy into mechanical energy.

(253) The steam turbine is a reliable and durable piece of equipment.

(254) The torque through the wind turbine generated renewable energy.

(255) Homeowners who install a wind turbine can receive a tax credit.

(256) The wind turbine can sustain up to 50 mph winds without damage.

(257) The oscillation of the wind turbine generated renewable energy.

(258) The wind turbine's rotor is designed to withstand strong winds.

(259) The wind turbine rotates by capturing the energy from the wind.

(260) The company plans to erect a wind turbine about the open field.

(261) He used a reverser to change the direction of the wind turbine.

(262) The steam turbine operates on the principle of expanding steam.

(263) The wind turbine's blades circumrotate to generate electricity.

(264) The wind turbine blades whirred on as it generated electricity.

(265) The wind turbine was slewing to face the direction of the wind.

(266) The use of a wind turbine can amplify the power of wind energy.

(267) The propulsive energy around the turbine generated electricity.

(268) The wind turbine can operate without the need for fossil fuels.

(269) The gas turbine intercooler is used to cool the compressed air.

(270) The wind turbine generates 1000 foot-pounds of energy per hour.

(271) The capacity factor of a wind turbine determines its efficiency.

(272) The gas turbine is a key component in many industrial processes.

(273) The gas turbine is a crucial component in the aviation industry.

(274) The main shaft of the wind turbine rotated slowly in the breeze.

(275) The centripetal force of a spinning turbine causes it to rotate.

(276) The whirring of the wind turbine could be heard from miles away.

(277) The wind turbine's arm rotated with the force of the gusty wind.

(278) The combustor is located between the compressor and the turbine.

(279) The wind turbine stood motionless and windlessly on the horizon.

(280) The wind turbine blades were built using a form with fiberglass.

(281) The electrical generator uses a turbine to generate electricity.

(282) The towering wind turbine occupied space in the rural landscape.

(283) The wind turbine blades whirred to start generating electricity.

(284) The axes-of-rotation of a wind turbine determine its efficiency.

(285) The turbine blades were aligned axially for optimal performance.

(286) The vaned blades of the wind turbine spun rapidly in the breeze.

(287) The cermet material is used in the production of turbine blades.

(288) The wind turbine's strakes helped to reduce noise and vibration.

(289) The nonrotating wind turbine was unable to generate electricity.

(290) The gas turbine is used in power plants to generate electricity.

(291) The wind turbine blades turn counterclockwise to generate power.

(292) The gas turbine inlet guide vane is used to control the airflow.

(293) The mechanism of a wind turbine is used to generate electricity.

(294) The wind turbine blades spin counterclockwise to generate power.

(295) The wind turbine's blades turned slowly, generating electricity.

(296) The flywheel is an important part of a wind turbine's generator.

(297) The anemometer's accuracy is crucial for wind turbine operations.

(298) The watts of power generated by the wind turbine were impressive.

(299) The rotary motion of the wind turbine generates renewable energy.

(300) The development of tidal turbine technology is advancing rapidly.

(301) The wind turbine generated electricity as it ran before the wind.

(302) The wind turbine rotates around with renewable energy generation.

(303) The steam turbine converts thermal energy into mechanical energy.

(304) The steam turbine is a key component in renewable energy systems.

(305) The natural gas turbine irradiates beyond the combustion chamber.

(306) The natural gas turbine irradiates inside the combustion chamber.

(307) The natural gas turbine irradiates out of the combustion chamber.

(308) The axis-of-rotation of a wind turbine determines its efficiency.

(309) The water flows through the penstock before reaching the turbine.

(310) The torque of the wind turbine was enough to power several homes.

(311) The engineering project required us to gasify behind the turbine.

(312) The blades of a wind turbine revolve under the force of the wind.

(313) The wind turbine was able to deflect the wind to generate energy.

(314) The gas turbine blade is designed to withstand high temperatures.

(315) The gas turbine nozzle is used to direct the flow of exhaust gas.

(316) The wind turbine was flapping its blades to generate electricity.

(317) The wind turbine will blast away the wind to generate electricity.

(318) The centripetal force of a spinning turbine generates electricity.

(319) The steam turbine generated waste heat as it produced electricity.

(320) The propeller of the wind turbine turned gracefully in the breeze.

(321) The rotor of a wind turbine converts wind energy into electricity.

(322) The blades of a turbine revolve in a turn to generate electricity.

(323) The wind turbine bombinates as it harnesses the power of the wind.

(324) The counterrotating blades of a wind turbine generate electricity.

(325) The anemometers on the wind turbine help optimize its performance.

(326) The sonic wave produced by the wind turbine generated electricity.

(327) The combustor is a critical component in gas turbine power plants.

(328) The steam turbine is a critical component in nuclear power plants.

(329) The turbine blades were helically arranged for maximum efficiency.

(330) The downwash from the wind turbine's blades generated electricity.

(331) The wind turbine's blade could shear off if it's hit by lightning.

(332) The inlet inside the wind turbine was where the wind was captured.

(333) The torque under a wind turbine blade determines its power output.

(334) The wind turbine generated electricity from the speed of the wind.

(335) The wind turbine blades rotate counterclockwise to generate power.

(336) The gas turbine compressor is used to compress air for combustion.

(337) The operator of the wind turbine monitored the wind speed closely.

(338) The wind turbine spins faster when there is a strong gust of wind.

(339) The gas turbine is a reliable source of power for many industries.

(340) The wind turbine's kinetic energy made it spin and generate power.

(341) The steam turbine is an integral part of many cogeneration systems.

(342) The autorotating blades of the wind turbine generated clean energy.

(343) The wind turbine produced 1000 kwh of clean energy in a single day.

(344) The wind turbine rotated and generated electricity before the wind.

(345) The gas turbine is a key technology in the renewable energy sector.

(346) The wind turbine made a rhythmic whirr as it generated electricity.

(347) The aeroengine's turbine blades are critical for converting energy.

(348) Balsa wood is also used in the construction of wind turbine blades.

(349) The steam turbine is a vital part of the energy conversion process.

(350) The wind turbine's blades spun in a circle, generating electricity.

(351) The wind turbine was churning up electricity from the strong gusts.

(352) The cermet material is used in the manufacturing of turbine blades.

(353) The peller was a crucial component in the wind turbine's operation.

(354) The blades of a wind turbine rotate around to generate electricity.

(355) The gas turbine control system regulates the speed and temperature.

(356) The shield on the wind turbine protected it from lightning strikes.

(357) The steam turbine is an essential part of many industrial processes.

(358) Nickel alloy is frequently used in the production of turbine blades.

(359) The roller bearing is an essential part of a wind turbine's gearbox.

(360) The gas turbine is a reliable source of energy for remote locations.

(361) The centrifugal force of the spinning turbine generated electricity.

(362) The propelling force of the wind turbine generated renewable energy.

(363) The wind turbine's rotor is designed to capture maximum wind energy.

(364) The steel in this wind turbine generates clean and renewable energy.

(365) The torque generated by the wind turbine powered the entire village.

(366) The wind turbine's blades rotated silently, generating clean energy.

(367) The wind turbine's blades rotate with ease, generating clean energy.

(368) The wind turbine rotated anticlockwise, generating renewable energy.

(369) The steam turbine is a proven technology for electricity generation.

(370) The wind turbine's blades whirr around, generating renewable energy.

(371) The use of aluminises can improve the performance of turbine blades.

(372) The impellers in the turbine were damaged and needed to be replaced.

(373) The working substance in a gas turbine is a mixture of air and fuel.

(374) The wind turbine's rotor blade was designed to withstand high winds.

(375) The interstage of the turbine allowed for optimal energy conversion.

(376) The gas turbine starter motor initiates the rotation of the turbine.

(377) The engineer designed the wind turbine to generate renewable energy.

(378) The gas turbine is a critical component in the energy infrastructure.

(379) The wind gust up and made the wind turbine generate more electricity.

(380) The propeller on the wind turbine propels it to generate electricity.

(381) The stellite alloy is often used in the production of turbine blades.

(382) The operation of a tidal turbine is automated and monitored remotely.

(383) The wind turbine's blades whirred round, generating renewable energy.

(384) A wind turbine was erected near the farm to harness renewable energy.

(385) The wind turbine's blades revolve in circles, generating electricity.

(386) The wind turbine spun rapidly, whooshing and generating clean energy.

(387) The wind turbine soared towards the sky, harnessing renewable energy.

(388) The wind turbine's blades propelled it forward with renewable energy.

(389) The wind turbine churns gracefully, harnessing the power of the wind.

(390) The augmentor is used to improve the performance of a turbine engine.

(391) The rotators on the wind turbine generated electricity from the wind.

(392) The wind turbine technician was bratticing the tower for maintenance.

(393) The counterrotating blades of the wind turbine generated electricity.

(394) The wind turbine blades rotate anticlockwise to generate electricity.

(395) The engineer aluminizes the turbine blades to make them more durable.

(396) The steam is piped through to the turbine for generating electricity.

(397) The convective flow of air in the wind turbine generates electricity.

(398) The engineer used frustums to design the shape of the turbine blades.

(399) The force from the wind turbine generated electricity for the campus.

(400) The outmost base of the wind turbine was anchored deep in the ground.

(401) The aerodynamic shape of the wind turbine improved its energy output.

(402) The wind turbine generates electricity at 1500 revolutions per minute.

(403) The salient pole is an essential component in wind turbine generators.

(404) The rotational energy of a wind turbine is converted into electricity.

(405) Columbium is used in the production of turbine blades for jet engines.

(406) The axial flow turbine is commonly used in hydroelectric power plants.

(407) The wind turbine holds in elevation the potential of renewable energy.

(408) The vanes on the wind turbine were designed to withstand strong winds.

(409) The armature of the wind turbine rotated to generate renewable energy.

(410) The wind turbine whisked along, generating clean and renewable energy.

(411) The wind turbine hummed through the wind, generating renewable energy.

(412) The wind turbine's blades began to gyrate past us as we approached it.

(413) The wind turbine was designed to rotate in an anticlockwise direction.

(414) The wind turbine blades rotate back and forth to generate electricity.

(415) The water jacket on the turbine was essential for efficient operation.

(416) The sprags in the wind turbine were causing it to produce less energy.

(417) The wind turbine was installed up on the roof to generate electricity.

(418) Watt within a wind turbine determines its power output and efficiency.

(419) The engineer created a model of a wind turbine to test its efficiency.

(420) The gargantuan wind turbine generated electricity for the entire town.

(421) The wind turbine soared high above the fields, generating electricity.

(422) The gears in a wind turbine help convert wind energy into electricity.

(423) The steam turbine is a key technology in the field of renewable energy.

(424) The power from a wind turbine can be stored in batteries for later use.

(425) The mach of the wind turbine generated electricity for the entire town.

(426) The ideal material to use for making wind turbine blades is fiberglass.

(427) The wind turbine's blades propelled it forward with sustainable energy.

(428) The wind turbine absorbed energy from the wind to generate electricity.

(429) The axis of a wind turbine is the point around which the blades rotate.

(430) The gas turbine inlet filter is used to remove impurities from the air.

(431) The tiny house dwelling was powered by solar panels and a wind turbine.

(432) The anemometric data was used to optimize the design of a wind turbine.

(433) The maximum power output of a wind turbine can be expressed in abwatts.

(434) Turbojets are a type of gas turbine engine used in aircraft propulsion.

(435) The drag coefficient of a wind turbine blade can impact its efficiency.

(436) The wind turbine will propel the blades aloft and generate electricity.

(437) The turbocharger is driven by a turbine connected to the exhaust system.

(438) The undershot turbine was a breakthrough in renewable energy technology.

(439) The undershot turbine was a key component in hydroelectric power plants.

(440) Cobalt is also used in the production of superalloys for turbine blades.

(441) Apply a damper to the wind turbine blades to reduce the noise generated.

(442) The wind turbine was churning up renewable energy from the strong winds.

(443) The wind turbine's blades slowed and began to gyrate away from the wind.

(444) The axis of a wind turbine allows it to rotate and generate electricity.

(445) The manifold of a wind turbine helps control the rotation of the blades.

(446) The wind turbine blades rotate counterclockwise to generate electricity.

(447) The pinion under with the force of the water caused the turbine to spin.

(448) The propulsive energy underneath the wind turbine generated electricity.

(449) The wind turbine produces 2,000 watt hours of energy per day on average.

(450) The maximum power output of a wind turbine is often measured in abwatts.

(451) The engineer designed the turbine to prevent cavitations from occurring.

(452) The hypersonically rotating turbine generated massive amounts of energy.

(453) The impellor design was crucial to the efficiency of the turbine engine.

(454) The wind turbine eddies with a steady flow, generating renewable energy.

(455) The engineer explained the mechanics behind the gears in a wind turbine.

(456) The torque within a wind turbine's blades is what generates electricity.

(457) The inventor ingeniously converted the cog into a miniature wind turbine.

(458) The vane on the wind turbine was designed to capture maximum wind energy.

(459) The propeller on the wind turbine was designed to withstand strong winds.

(460) The wind turbine's rotor spins at different speeds depending on the wind.

(461) The wind turbine's rotor is designed to capture wind from all directions.

(462) The wind turbine generated electricity, propulsive without any emissions.

(463) The wind turbine's blades began to pinion around, generating electricity.

(464) The engineer used ellipsoids to optimize the shape of the turbine blades.

(465) The blades of a wind turbine rotate rotationally to generate electricity.

(466) The wind turbine has an aerodynamic blade design to generate electricity.

(467) We have a wind turbine on the campus where we can learn about wind power.

(468) The wind turbine's aerodynamic blades allowed it to generate more energy.

(469) The thermal energy of a wind turbine can be used to generate electricity.

(470) A wind turbine generates electricity from the kinetic energy of the wind.

(471) The utility of a wind turbine is to generate electricity from wind power.

(472) The hybrid wind turbine can generate electricity even at low wind speeds.

(473) The aerometers were used to measure the air pressure in the wind turbine.

(474) The blades of a wind turbine revolve in a series to generate electricity.

(475) The wind turbine started to power up towards generating renewable energy.

(476) The engineers recommended putting down a foundation for the wind turbine.

(477) The water turbine was cavitating, leading to a decrease in energy output.

(478) The uniflow turbine design is used in many power generation applications.

(479) The torque beneath a wind turbine's blades is what generates electricity.

(480) The aerofoil shape of a wind turbine blade helps to generate electricity.

(481) The ballast in the wind turbine helped to stabilize it during high winds.

(482) The ballast under the wind turbine helps to keep it steady in high winds.

(483) The ballast around the wind turbine helped to keep it from toppling over.

(484) The gyration of the wind turbine generated clean energy for the community.

(485) The laminar design of the wind turbine blades maximizes energy generation.

(486) The main shaft of the wind turbine was designed to withstand strong winds.

(487) The undershot turbine efficiently converted water energy into electricity.

(488) Glass fibre is a key component in the construction of wind turbine blades.

(489) The gear wheel in the wind turbine converted wind energy into electricity.

(490) The power rate of this wind turbine is sufficient to generate electricity.

(491) The azimuth of a wind turbine affects its ability to generate electricity.

(492) The kinetic energy of a wind turbine is harnessed to generate electricity.

(493) The principal axis of a wind turbine determines the direction of rotation.

(494) The gas turbine lets out nitrogen oxide emissions during power generation.

(495) The wind turbine's blades whirred round, harnessing the power of the wind.

(496) The emission from the wind turbine was causing electricity to be produced.

(497) The operator of the wind turbine generated clean energy for the community.

(498) The blades of a wind turbine revolve in a pattern to generate electricity.

(499) The armatures of the wind turbine were designed to capture maximum energy.

(500) A wind turbine can generate several kilowatt hours of electricity per day.

(501) The airfoil design of the wind turbine blades maximizes energy production.

(502) The gearless wind turbine is more efficient and requires less maintenance.

(503) The wind turbine emitted a low whirring sound as it generated electricity.

(504) The steam turbine is often coupled with a generator to produce electricity.

(505) The combustion chamber is where the fuel is ignited to power a gas turbine.

(506) The wind turbine's blades churned up the air as they generated electricity.

(507) Glass fiber is a key component in the manufacturing of wind turbine blades.

(508) The gas turbine is a highly efficient way to convert fuel into electricity.

(509) The gas turbine is a compact and lightweight solution for power generation.

(510) The omnibearing wind turbine generated electricity from any wind direction.

(511) The valves in the steam turbine convert steam energy into mechanical power.

(512) The installation of a tidal turbine can provide clean and renewable energy.

(513) The wind turbine was overproped, causing it to spin too fast in high winds.

(514) The wind turbine's blades rotated slowly, harnessing the power of the wind.

(515) The angles-of-incidence of the wind turbine blades affect their efficiency.

(516) The water turbine provides the motive power for hydroelectric power plants.

(517) The axis of a wind turbine is used to generate electricity from wind power.

(518) The wind turbine blades turn counterclockwise to generate renewable energy.

(519) The wind turbine's blades were so large they could be seen from miles away.

(520) The wind turbine blades spin counterclockwise to generate renewable energy.

(521) The wind turbine's blades were strengthened by adding layers of fiberglass.

(522) The engineer designed a pennate-shaped turbine blade for better efficiency.

(523) The hydrodynamical model was used to design a more efficient water turbine.

(524) The wind turbine was erected by the energy company to generate electricity.

(525) The torque from the wind turbine generated electricity for the entire town.

(526) The torque of the wind turbine generated electricity for the entire village.

(527) The gear train in a wind turbine converts wind energy into electrical power.

(528) The contraclockwise movement of the wind turbine harnessed renewable energy.

(529) The torque in the wind turbine generated electricity for the entire village.

(530) The torque in the wind turbine generated renewable energy for the community.

(531) The kinetic motion of the wind turbine generated clean and renewable energy.

(532) The wind turbine's rotor is connected to a generator to produce electricity.

(533) The factor of safety for the wind turbine's blades was determined to be 3.4.

(534) The steam turbine is a key element in the conversion of heat to electricity.

(535) The wind turbine converts on radiation from the wind into mechanical energy.

(536) The wind turbine charged up below its rated power output and needed repairs.

(537) The rotative speed of the turbine produced enough power for the entire city.

(538) The wind turbine's blades were designed aspherically for maximum efficiency.

(539) The wind turbine generates power by converting wind energy into electricity.

(540) The airplane's engine was equipped with a turbine that helped it fly faster.

(541) The wind turbine was tethered to the ground to prevent it from falling over.

(542) The gas turbine power plant is more efficient than a coal-fired power plant.

(543) The conflagration in the power plant was caused by a malfunctioning turbine.

(544) The asce of the wind turbine blades allowed for efficient energy production.

(545) The combined cycle gas turbine can generate up to thirty megawatts of power.

(546) The wind turbine was vaneless, relying on a unique design to capture energy.

(547) The wind turbine blades were spinning fast, making them fly through the air.

(548) The technician had to pump down the gas turbine before replacing the blades.

(549) The flow around a wind turbine is important for maximizing its power output.

(550) The engineer designed a new shaft behind the turbine to increase efficiency.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Turbine. They do not represent the opinions of TranslateEN.com.