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- Article number: AS14867
- Publisher: A2A Simulations
- Language: English
- Current version: 1.00
The Accu-Sim P-51 Mustang is here finally in its P3D V4 guise. Back in 2004, we released a P-51D for Microsoft Flight Simulator 9 that used a flight modelling process known as “Absolute Realism.” A lot of characteristics were being experienced for the first time in flight simulation. If you flew flight simulators, you were used to the old “yank and bank” as most flight simmers held the position that aircraft really didn’t spin. This was largely because, back then, developers were largely programmers, with no flying experience. Even today, while it’s getting more common, it’s still rare to find a developer who actually has even taken the controls of a real aircraft.
This version of the Accu-sim P-51D Military is for P3D V4 Academic only, please make sure that you have the right matching P3D V4 version.
Today, A2A has the wind at our back, with Accu-Sim helping to bring serious aviators and simulation together. However, the industry as a whole hasn’t really budged that much as people are discovering that it’s not enough to be a pilot, or even a highly experienced pilot. It takes an entirely different skill set to be able to observe, translate, and re-create the experience. It’s not being a pilot, aeronautical engineer, or even a highly skilled aircraft modeller that makes the difference. It’s the combination of “all the above” with, perhaps most importantly, a relentless drive to re-create the most believable experience possible. Even if you have never flown an aircraft before, you as a living person with an inherently deep sense of what is right or wrong in the physical world you live in. You touch things, see things, and hear things every minute of every day. So trust your instincts, because, if it doesn’t feel or sound right to you, it probably isn’t right.
Also, in the real world, actions create lasting results, both good and bad. There are consequences everywhere inside of a cockpit, especially a high performance, propeller-powered, combustion driven aircraft. This is where the persistent aircraft makes all the difference. In the real world, you don’t get a fresh new aircraft every time you strap yourself into the cockpit. The aircraft is a physical machine that exists in the world. If your aircraft was pulling to the right when you parked it, it will still be pulling when you taxi to the runway the next day. When things happen in a simulated world as you expect in the real world, you start to treat it as if it is just that, real. With lasting results, wrapped inside the newest modelling and advanced material-making techniques, you will have an aircraft that you can spend not just minutes, but hours admiring.. Together, with professionally recorded sounds and physics, the end result is the sense of having a complete, real, majestic, raw, flying machine stuffed inside your computer. And we hope, you don’t just treat it like any aircraft, but rather like “your” aircraft. We hope you enjoy your new beautiful bird, and hope you learn to fly and treat her well.
- The world’s most iconic WWII fighter aircraft
- As with every A2A aircraft, it is gorgeously constructed, inside and out, down to the last rivet.
- Designed and built to be flown “By The Book“.
- Custom Cockpit Systems and Gauges.
- Visual Real-Time Load Manager, with the ability to load fuel and stores in real-time.
- Naturally animated pilot.
- 3D Lights ‘M’ (built directly into the model) with under-wing landing light than can be turned on, deployed, and retracted and fully functional recognition lights, now utilising the new Dynamic lighting P3Dv4 offers.
- Pure3D Instrumentation now with natural 3D appearance with exceptional performance.
- Sound engineered by A2A sound professionals.
- Oil pressure system models oil viscosity (oil thickness).
- Authentically modeled pneumatic system.
- In cockpit pilot’s map for handy in-flight navigation.
- Auto-Mixture that actually performs as intended - Now you can set for “RUN” and the aircraft fuel-to-air ratio will be automatically determined and set by the carburetor based upon various factors, such as altitude.
- Dual speed, dual stage Supercharger modeled with accurate behavior.
- Fuel delivery system simulated.
- All models include A2A specialized materials with authentic metal enhanced with all new P3Dv4 features for a beautiful rendition inside and out.
- Pilot’s Notes pop-up 2D panel keeps important information easily available.
- A true dual-speed supercharged engine experience.
- Feel the exhilaration of flying an Accu-Sim-powered P-51 Mustang.
- Mach drag built and tested specifically for the P-51D airframe.
- Merlin V-12 liquid cooled V-1650 engine built to manufacturer’s specifications.
- A true propeller simulation.
- Electric starter with accurate cranking power.
- Dynamic ground physics including both hard pavement and soft grass modeling.
- Primer-only starts are now possible - Accu-Sim monitors the amount of fuel injected and it’s effectiveness to start and run the engine.
- Cold mornings require energizing the primer for long 3-4 seconds, and warm starts may only need a second or two.
- Immersive in-cockpit, physics-driven sound environment from A2A engineered P-51 recordings.
- Complete maintenance hangar including landing gear, internal systems and detailed engine tests including compression checks.
- Understand how a high-performance aircraft behaves and see how well you can cope with all of the unexpected things that can happen. No two flights are ever the same.
- Piston combustion engine modeling - Air comes in, it mixes with fuel and ignites, parts move, heat up, and all work in harmony to produce the wonderful sound of a V-12, liquid-cooled racing engine. Now the gauges look beneath the skin of your aircraft and show you what Accu-Sim is all about.
- Airflow, density and it’s temperature not only affect the way your aircraft flies, but how the internal systems operate.
- Real-world conditions affect system conditions, including engine temperatures. Manage temperatures with a radiator flap and proper flying techniques.
- Spark plugs can clog and eventually foul if the engine is allowed to idle too low for too long. Throttling up an engine with oil-soaked spark plugs can help clear them out and smoke.
- Overheating can cause scoring of cylinder head walls which could ultimately lead to failure if warnings are ignored and overly abused.
- Large engined aircraft like the P-51 like to be in the air, not on the ground. So don’t idle for too long, get in the air where the air supply is plentiful
- Engine, airframe, cockpit panel and individual gauges tremble from the power of a high-performance combustion engine.
- Authentic component drag - Dropping your gear will pull your aircraft realistically as the landing gear is deployed along with cooling flaps, ordnance and even opening the canopy. Drop your gear, deploy your flaps, or just try a dive, and listen to your airframe.
- System failures, including flaps that can independently jam or break based on the actual forces put upon them. If you deploy your flaps at too high a speed, you could find yourself in a very dangerous situation.
- Total audible cockpit made with recordings from the actual aircraft. Before you fly, enjoy clicking everything.
- Primer system modeled - Accu-Sim monitors the amount of fuel injected and it’s effectiveness to start the engine. Cold mornings require as many as 12 strokes and warm starts may only need a single shot.
- Authentic battery - The battery capacity is based on temperature. The major draw comes from engine starting.
- Oil pressure system is affected by oil viscosity (oil thickness). Oil viscosity is affected by oil temp and oil dilution level. Now when you start the engine, you need to be careful and not raise RPM too much until oil temp is high enough to give proper oil pressure. If you raise RPM too high on a cold engine, especially very cold, oil pressure can raise to over 150 psi. Oil pump failure can result. Extended inverted flight (negative g) can uncover the oil sump and reduce oil pressure. Do not fly in a negative g situation for more than 5 seconds.
- Oxygen starvation (hypoxia) is modeled - Just take off and climb without oxygen to see.
Lockheed Martin Prepar3D V4 Academic*
Operating System: Microsoft Windows 10 (64bit)
Processor: Quad Core CPU with 3.5 GHz
Memory: 16 GB DDR4 RAM, 2666 MHz
Graphics card: 4 GB VRAM, DirectX 11
Free disk space: 2.1 GB, SSD highly recommended
*This version is for academic users in Prepar3D, in accordance to the Lockheed Martin Prepar3D academic license. This software is to be used for flight simulation only, and not to be used for real world flight training. For real world flight training, use our commercial license which is intended to be used with flight simulators authorized by the FAA while using our software.