1111

最近更新
  • 0 评论 0 分享 10 次浏览 0 0 收藏
  • 0 评论 0 分享 14 次浏览 1 0 收藏
  • 0 评论 0 分享 116 次浏览 0 收藏
  • Innsbruck - Tyrol, Austria
    Innsbruck - Tyrol, Austria
    0 评论 0 分享 132 次浏览 0 收藏
  • Iconic Fighter Jet Maneuvers

    1. Flat Spin
    Aircraft spins horizontally while staying level or slightly tilted.

    2. Kvochur's Bell
    Climb steeply, stall, fall backward, then recover.

    3. Hammerhead Turn
    Go vertical, stall, pivot, and dive back down.

    4. Pugachev's Cobra
    Nose rises steeply, nearly vertical, then levels out.

    5. Immelmann Turn
    Half-loop followed by a roll to reverse direction.

    6. Ranversman
    Slow pivot turn after climbing upward.
    Iconic Fighter Jet Maneuvers 1. Flat Spin 🔄 Aircraft spins horizontally while staying level or slightly tilted. 2. Kvochur's Bell 🛎️ Climb steeply, stall, fall backward, then recover. 3. Hammerhead Turn 🔨 Go vertical, stall, pivot, and dive back down. 4. Pugachev's Cobra 🐍 Nose rises steeply, nearly vertical, then levels out. 5. Immelmann Turn 🔄⬆️ Half-loop followed by a roll to reverse direction. 6. Ranversman 🌙 Slow pivot turn after climbing upward.
    0 评论 0 分享 136 次浏览 0 收藏
  • 0 评论 0 分享 124 次浏览 0 收藏
  • “The Takeoff Tango: When Pilots Meet Noise Limits and Angry Neighbors”

    Ever wondered what a 90%-plus engine roar at 5,700 feet of runway feels like? At John Wayne Airport, it’s part aviation marvel, part “hold on to your coffee.” With less tarmac than your average thrill ride and a neighborhood full of noise-sensitive eardrums, pilots have to dance a delicate waltz of speed, precision, and please-don’t-wake-the-neighbors.

    Here’s the choreography:
    • Step 1: Engage brakes, throttle to 90%+, release, and hope you packed your best socks for the G-force.
    • Step 2: At 800 feet, cut the engine back by 10-15%. Just enough to sound considerate but not enough to make you question physics.
    • Step 3: Climb to 1,000 feet and turn left like you’re avoiding an ex at the supermarket.

    With a takeoff angle so steep it feels like your seat is cosplaying as a rocket, it’s a move designed to clear the runway, silence the complainers, and deliver you to cruising altitude—all while following strict noise abatement protocols.

    #TakeoffTango, #AviationLovers, #Planespotting, #AvGeek, #JohnWayneAirport, #NoiseAbatement, #PilotLife, #FlyingHigh, #AviationHumor, #AircraftPrecision, #PlaneGeeks, #TakeoffDrama, #AviationDaily, #AirportStories, #FlightChoreography, #ModernAviation, #PassengerLife, #SkyDance, #NoiseSensitiveZones, #AirlineIndustry, #FlightPaths, #AviationWorld, #PilotManeuvers, #AirportNeighbors, #AircraftPerformance, #FlyingTactics, #FlightHumor, #PilotChallenges, #AirlineOperations, #SkyShowdown
    “The Takeoff Tango: When Pilots Meet Noise Limits and Angry Neighbors” Ever wondered what a 90%-plus engine roar at 5,700 feet of runway feels like? At John Wayne Airport, it’s part aviation marvel, part “hold on to your coffee.” With less tarmac than your average thrill ride and a neighborhood full of noise-sensitive eardrums, pilots have to dance a delicate waltz of speed, precision, and please-don’t-wake-the-neighbors. Here’s the choreography: • Step 1: Engage brakes, throttle to 90%+, release, and hope you packed your best socks for the G-force. • Step 2: At 800 feet, cut the engine back by 10-15%. Just enough to sound considerate but not enough to make you question physics. • Step 3: Climb to 1,000 feet and turn left like you’re avoiding an ex at the supermarket. With a takeoff angle so steep it feels like your seat is cosplaying as a rocket, it’s a move designed to clear the runway, silence the complainers, and deliver you to cruising altitude—all while following strict noise abatement protocols. #TakeoffTango, #AviationLovers, #Planespotting, #AvGeek, #JohnWayneAirport, #NoiseAbatement, #PilotLife, #FlyingHigh, #AviationHumor, #AircraftPrecision, #PlaneGeeks, #TakeoffDrama, #AviationDaily, #AirportStories, #FlightChoreography, #ModernAviation, #PassengerLife, #SkyDance, #NoiseSensitiveZones, #AirlineIndustry, #FlightPaths, #AviationWorld, #PilotManeuvers, #AirportNeighbors, #AircraftPerformance, #FlyingTactics, #FlightHumor, #PilotChallenges, #AirlineOperations, #SkyShowdown
    0 评论 0 分享 160 次浏览 0 收藏
  • 有道理
    有道理
    0 评论 0 分享 122 次浏览 1 0 收藏
  • Running
    Running
    0 评论 0 分享 170 次浏览 1 0 收藏
  • 免费的本地部署AI绘画 声音克隆 AI对话 等等
    免费的本地部署AI绘画 声音克隆 AI对话 等等
    文件类型: zip
    0 评论 0 分享 197 次浏览 0 收藏
  • Normal AC pack Mode

    The "AC Pack Mode" refers to the operational modes of the Air Conditioning (AC) packs on an aircraft. AC packs are part of the environmental control system (ECS) and are responsible for conditioning and circulating air throughout the aircraft cabin and cockpit. The AC packs provide pressurized, conditioned air from the engine bleed air or, on some aircraft, from an auxiliary power unit (APU).

    The normal modes for AC packs in aviation are:
    Normal Mode (Auto Mode):
    In this mode, the air conditioning packs operate automatically based on the aircraft's current flight conditions, including altitude, airspeed, and cabin pressure needs.
    The system adjusts the flow of air from the engine bleed air or APU to maintain a comfortable temperature and pressurization in the cabin.
    The packs are typically configured to provide continuous, reliable airflow with minimal pilot intervention.

    High Flow Mode:
    In this mode, the AC packs operate at a higher capacity to provide increased airflow, typically during takeoff, climb, or other high-demand phases of flight.
    It helps maintain the necessary cabin pressure and temperature during periods of high engine load or rapid altitude changes.

    Low Flow Mode:
    When the aircraft is cruising at a lower altitude or during descent, the AC packs might switch to low flow mode to reduce the energy consumption and avoid over-cooling the cabin.

    Pack Shutoff Mode:
    In certain situations, one or both of the AC packs can be shut off (either manually by the pilots or automatically in the case of a fault) to reduce system load or to troubleshoot issues.
    In this case, the remaining pack will increase its output to compensate for the loss of airflow from the shut-off pack.

    Standby or Backup Mode:
    In case of failure of the primary packs or systems, the aircraft may switch to a standby mode where backup air conditioning or cooling systems are used, such as relying on the APU for bleed air or activating emergency air systems.

    Overall, AC pack modes are crucial for maintaining cabin comfort, temperature, and pressure, and are designed to automatically adjust based on the needs of the aircraft's systems and environment.

    #aviationknowledge #aviationdaily #aviationlovers #aviationgeek #aviation #fypシ
    Normal AC pack Mode ✈️ The "AC Pack Mode" refers to the operational modes of the Air Conditioning (AC) packs on an aircraft. AC packs are part of the environmental control system (ECS) and are responsible for conditioning and circulating air throughout the aircraft cabin and cockpit. The AC packs provide pressurized, conditioned air from the engine bleed air or, on some aircraft, from an auxiliary power unit (APU). The normal modes for AC packs in aviation are: 📌Normal Mode (Auto Mode): In this mode, the air conditioning packs operate automatically based on the aircraft's current flight conditions, including altitude, airspeed, and cabin pressure needs. The system adjusts the flow of air from the engine bleed air or APU to maintain a comfortable temperature and pressurization in the cabin. The packs are typically configured to provide continuous, reliable airflow with minimal pilot intervention. 📌High Flow Mode: In this mode, the AC packs operate at a higher capacity to provide increased airflow, typically during takeoff, climb, or other high-demand phases of flight. It helps maintain the necessary cabin pressure and temperature during periods of high engine load or rapid altitude changes. 📌Low Flow Mode: When the aircraft is cruising at a lower altitude or during descent, the AC packs might switch to low flow mode to reduce the energy consumption and avoid over-cooling the cabin. 📌Pack Shutoff Mode: In certain situations, one or both of the AC packs can be shut off (either manually by the pilots or automatically in the case of a fault) to reduce system load or to troubleshoot issues. In this case, the remaining pack will increase its output to compensate for the loss of airflow from the shut-off pack. 📌Standby or Backup Mode: In case of failure of the primary packs or systems, the aircraft may switch to a standby mode where backup air conditioning or cooling systems are used, such as relying on the APU for bleed air or activating emergency air systems. Overall, AC pack modes are crucial for maintaining cabin comfort, temperature, and pressure, and are designed to automatically adjust based on the needs of the aircraft's systems and environment. #aviationknowledge #aviationdaily #aviationlovers #aviationgeek #aviation #fypシ
    0 评论 0 分享 212 次浏览 0 收藏
  • Dolomite Mountains in northeastern Italy
    Dolomite Mountains in northeastern Italy
    0 评论 0 分享 191 次浏览 0 收藏
更多故事