Categories
Flight Simulation

The Jungfraujoch in flight simulation.

On the train heading for the Jungfraujoch, Switzerland 2013.
On the train heading for the Jungfraujoch, Switzerland 2013.

Ten years ago this year, we took the train to the Jungfraujoch Top of Europe station.

Sphinx astronomical observatory on the Jungfraujoch in Switzerland.
Sphinx astronomical observatory on the Jungfraujoch in Switzerland.

The latter is located in the Jungfraujoch pass in Switzerland, at an altitude of 3571 meters (11,716 feet MSL).

The construction of this station was a feat of engineering at the time, but cost the lives of many workers. One does not make one’s way through a mountain range with sticks of dynamite without the occasional unforeseen agenda imposed by nitroglycerine.

The train can therefore only reach this station by traveling inside the mountains on a steep slope requiring a hydraulic mechanism to pull the train forward. The tourist must trust the engineers and the technical support…

To remind myself of our trip to this region, I thought of taking a virtual helicopter flight from Lauterbrunnen to land directly on the platform of the Sphinx astronomical observatory, this world famous tourist attraction of the Jungfraujoch. Fortunately for me, the company Red Wing Simulations recently created a virtual scene including these two magnificent sites.

Lauterbrunnen, Switzerland and the Microsoft Flight Simulator Bell 407.
Lauterbrunnen, Switzerland and the Microsoft Flight Simulator Bell 407.

Flight simulation enthusiasts will be well advised to use the Bell 407, as the operating limit of the Guimbal Cabri G2  provided by the Microsoft flight simulator is capped at 13,000 feet. It is best to fly with a slightly more powerful aircraft when maneuvering at this altitude.

Airborne from Lauterbrunnen, Switzerland, with Microsoft Flight Simulator 2020.
Airborne from Lauterbrunnen, Switzerland, with Microsoft Flight Simulator 2020.

From a green landscape in the summer one gradually flies towards the eternal snow of the highest peaks in the Valais.

Getting closer to the Jungfraujoch, Switzerland.
Getting closer to the Jungfraujoch, Switzerland.

The scenery was spectacular on the train and it is just as spectacular in virtual flight. A mechanical problem with the helicopter in this environment of grandiose cliffs would leave little chance for the pilot.

Approaching the Sphinx Observatory on the Jungfraujoch, Switzerland.
Approaching the Sphinx Observatory on the Jungfraujoch, Switzerland.

Here we are on approach: it is possible to land on the platform of the Sphinx observatory, but the pilot needs to be prepared for wind shear and unforeseen clouds at this altitude while taking care during the approach to avoid touching the flagpole and the protective fences surrounding the platform.

The Sphinx observatory on the Jungfraujoch with the Bell 407 helicopter on the platform using Microsoft Flight Simulator.
The Sphinx observatory on the Jungfraujoch with the Bell 407 helicopter on the platform using Microsoft Flight Simulator.

The Red Wing Simulations company has done an outstanding job designing this virtual scenery. In the photo below, you can even see skiers at the bottom of the cliff warming up before their first run.

Red Wing Simulations skiers at the base of the Jungfraujoch observatory on Microsoft Flight Simulator.
Red Wing Simulations skiers at the base of the Jungfraujoch observatory on Microsoft Flight Simulator.

Even if the virtual scene includes something other than Lauterbrunnen and the Jungfraujoch, the pleasure of making a successful approach on the Sphinx platform alone is worth the cost of acquiring the software.

The Sphinx observatory on the Jungfraujoch and the helicopter on the platform using Microsoft Flight Simulator
The Sphinx observatory on the Jungfraujoch and the helicopter on the platform using Microsoft Flight Simulator
Microsoft Flight Simulator and Red Wing Simulations representation of the Jungfraujoch Observatory platform.
Microsoft Flight Simulator and Red Wing Simulations representation of the Jungfraujoch Observatory platform.

Click on the links for more challenging virtual flights or flight simulation information on my blog.

Categories
Flight Simulation

Grosse-Île airstrip and MSFS 2020.

Close-up view of the Grosse-île runway and the area with the Microsoft flight simulator (MSFS 2020).
Close-up view of the Grosse-île runway and the area with the Microsoft flight simulator (MSFS 2020).

It took the Microsoft Flight Simulator (MSFS 2020) for me to discover this landing strip on Grosse-Île. Even the Canada Flight Supplement (CFS) from Nav Canada does not mention it.

Decades ago, Canadian authorities used this island in the middle of the St. Lawrence River as a quarantine site for immigrants arriving in Canada. Many Irish people, among others, made an obligatory stop on this strip of land before being allowed to continue their journey to Canada.

At one time, a section of the island was reserved for Canadian and American researchers for their top secret research on Anthrax.The most amazing thing about reading the article is realizing that the entire production of this bacteriological weapon (439 liters) was mixed with formaldehyde and put in barrels that were dumped somewhere in the St. Lawrence River when it was decided that it would no longer be useful, as the Second World War took a turn in favor of the Allies. It seems to me that formaldehyde does not prevent barrels from rusting, but hey… back to the point.

Today, tourists can visit Grosse Île and the Irish Memorial National Historic Site during the summer months using the services of Croisières Lachance, located in Berthier-sur-Mer.

Where is Grosse-Île located? In the province of Quebec, a little east of Quebec City. It is one of the many islands that you can fly over once you have left Île d’Orléans behind. Below, a screenshot from Google Maps.

Grosse-Île in Quebec on Google Maps.
Grosse-Île in Quebec on Google Maps.

The satellite image below clearly shows that this is not an invention. Microsoft designates this runway as CYMN Montmagny: a mistake that one can easily live with, since by giving an official code to this Grosse-Île runway, the pilot can use it as a navigation point in his GPS.

Satellite view of Grosse-Île and its runway.
Satellite view of Grosse-Île and its runway.

So, let’s use a small Cessna in US Coast Guard colors to make a virtual flight from Quebec City airport (CYQB) to Grosse-Île (CYMN). It was a bit chilly on this February day in Quebec City, so I decided to transport us to July for this flight, adding a few cumuliform clouds in the process.

Leaving Quebec City for Grosse-Île with MSFS 2020.
Leaving Quebec City for Grosse-Île with MSFS 2020.

This short flight will allow us to fly over Île d’Orléans, Île Madame (owned by Laurent Beaudoin, former major shareholder of Bombardier), Île au Ruau https://www.journaldequebec.com/2019/11/12/lile-au-ruau-vendue-395m (purchased in 2019 by the rich boss of the Gildan empire) to finally arrive at Grosse-Île.

Approaching Grosse-Île over the St Lawrence Seaway with the MSFS 2020 flight simulator.
Approaching Grosse-Île over the St Lawrence Seaway with the MSFS 2020 flight simulator.

The picture below shows the aircraft on a right base for the Grosse-Île runway. I do not know the official dimensions of this dirt airstrip, but it can easily accept a Cessna aircraft such as ours.

Cessna in base for the Grosse-Île runway with the MSFS 2020 flight simulator.
Cessna in base for the Grosse-Île runway with the MSFS 2020 flight simulator.

Below, the aircraft is on final for the runway.

On final for the Grosse-Île runway.
On final for the Grosse-Île runway.

A final screenshot shows the Cessna taxiing down the runway after landing. As you can see, the runway can accommodate much larger aircraft. If you want to make a real flight to this island, find out beforehand about the condition of the runway and the restrictions surrounding its use by visiting pilots.

Cessna aircraft on Grosse-Île after the landing.
Cessna aircraft on Grosse-Île after the landing.

Click on the link for more flight simulation https://francoisouellet.ca/en/flight-simulation/ experiences on my blog.

Categories
Flight Simulation

42MX Mexican Mountain in MSFS

Fox2 bushplane at 42MX Mexican Mountain with MSFS
Fox2 bushplane at 42MX Mexican Mountain with MSFS

The Mexican Mountain Virtual Landing Strip (42MX) under Microsoft Flight Simulator 2020 (MSFS) is located in the United States, in Utah. It is a 1800 x 40 feet dirt runway, sloping slightly to the west.

The MX42 Mexican Mountain airstrip with visitors (MSFS)
The MX42 Mexican Mountain airstrip with visitors (MSFS)

The surrounding landscape is characterized by large cliffs and mountains whose peaks reach 6900 feet.

Airborne from the 42MX Mexican Mountain airstrip in MSFS flight simulation
Airborne from the 42MX Mexican Mountain airstrip in MSFS flight simulation
Virtual scenery around the 42MX Mexican Mountain airstrip (MSFS)
Virtual scenery around the 42MX Mexican Mountain airstrip (MSFS)

Once on the ground and near the campfire, we can hear the fire crackling and the RC Plane activities through the walkie-talkie left on the table. We can’t tell if anyone will be there when we arrive. This time, a young couple was enjoying the good weather and had taken the time to light a fire in my absence…

42MX Mexican Mountain visitors taking a break in MSFS
42MX Mexican Mountain visitors taking a break in MSFS

One final note from the company: pineapples on pizza are not allowed on the site.

If you have purchased the Bushplane Campout 42BC, the simulation will be all the more realistic.

Click on the link for more flight simulation pictures on my blog.

Categories
Flight Simulation

Short Landings in Flight Simulation with MSFS 2020

On approach for Île d'Orléans.
On approach for Île d’Orléans.

Today’s flight consists of two virtual short landings using the MSFS 2020 flight simulator (or as some call it, FS2020). We will be landing on Île d’Orléans and on the Battlefields Park.

First of all, I admit that the Cessna 170B’s windows are dirty. For realism, the designer Carenado left a little dirt here and there to show the wear and tear of this very old aircraft.

The picture above shows Île d’Orléans as seen from the Cessna. Since there is no landing strip but a golf club in the area, we will use the open fairways to land the aircraft. If there is a golfer on the course, I will open the window and yell, as is customary, “Fore!” (Falling Object Returning to Earth).

On final for Île d'Orléans
On final for Île d’Orléans

We are established on final for the small portion of open ground ahead. With 40 degrees of flaps, the stall speed is particularly low and the landing should not be too difficult.

On Île d'Orléans ready for take-off.
On Île d’Orléans ready for take-off.

Although the available strip was not very wide, it was long enough for the landing, the taxiing and the maneuvering to turn the aircraft 180 degrees for its take-off to Quebec City.

Airborne from Île d'Orléans with a Cessna 170B
Airborne from Île d’Orléans with a Cessna 170B

Back in the air, direction Quebec City. The take-off on soft ground requires about 20 degrees of flaps.

Enroute towards Quebec City.
Enroute towards Quebec City.

Quebec City is in sight. In the Cessna C-170B I flew in 1981 across Canada from St-Jean-sur-Richelieu to Edmonton, Alberta, there was no modern navigation aid installed on board as in the photo above, where the GPS helps the pilot find his way. The flight was flown using 14 VFR charts and nothing more. (If you are interested, click to read more about real-life flying stories on my blog).

Hôtel le Concorde and its revolving restaurant, visible on the right.
Hôtel le Concorde and its revolving restaurant, visible on the right.

We are now above the Plains of Abraham. On the picture above, on the right, you can see the Hotel le Concorde and its revolving restaurant. We will possibly disturb the quiet atmosphere of the meal as we fly by…

The MNBAQ and the Battlefields Park are in sight.
The MNBAQ and the Battlefields Park are in sight.

Above, straight ahead, the gray buildings represent a portion of the Musée National des Beaux-Arts de Québec (MNBAQ). A little further on is the open area of the Battlefields Park. In 1928, Lindbergh landed on that field to bring badly needed medicine for his friend Floyd Bennett. Can we normally land on the Battlefields Park, in the heart of Quebec City? Of course not. But that’s the beauty of a flight simulation; you can do whatever you want!

Cessna 170B on the Battlefields Park in Québec City.
Cessna 170B on the Battlefields Park in Québec City.

Once landed, the aircraft is allowed to decelerate gradually and then turned 180 degrees for the next takeoff. When winds are light, there is no need to worry about the direction of the takeoff.

Aerial view of Battlefield Parks with the Cessna 170B under MSFS 2020.
Aerial view of Battlefield Parks with the Cessna 170B under MSFS 2020.

Above, an aerial view of the Battlefields Park, with the virtual Cessna C-170B ready to take off again.

Partial view of Quebec City in flight simulation with MSFS 2020
Partial view of Quebec City in flight simulation with MSFS 2020

One last picture, this time with some additional buildings. The realism of the virtual scene with FS2020 is amazing!

I hope you enjoyed these two short flights. Whether you use the short landing technique for the Battlefields Park is really up to you, as there is enough space for a normal landing. But it is good to practice landing in the shortest distance possible. You never know when your engine will quit!

You can click on the following link for other challenging virtual flights   on my blog.

Categories
Flight Simulation

Virtual flight with the MSFS 2020 flight simulator.

Taking of from Rivière des Mille-Îles near Marina Venise
Taking of from Rivière des Mille-Îles near Marina Venise

Today’s flight is part of my blog’s standard virtual flight category. The take-off is from the Mille-Îles River in Quebec. There will be a touch and go at Mirabel (CYMX) and a flight over Quebec and Ontario to the Cascades hydrobase (CTY3).

Towards the Mirabel international airport (CYMX) with the MSFS 2020 flight simulator.
Towards the Mirabel international airport (CYMX) with the MSFS 2020 flight simulator.

Flying at low altitude towards Mirabel airport, for a touch and go.

The Mirabel (CYMX) runway is in sight.
The Mirabel (CYMX) runway is in sight.

One of the CYMX runways can be seen straight ahead. If a virtual pilot does not find the runway long enough to do a touch and go, then a refresher course is in order.

Touch and go at the Mirabel airport with MSFS 2020
Touch and go at the Mirabel airport with MSFS 2020

Takeoff from Mirabel. This is the advantage of an amphibious aircraft; you can land anywhere.

The virtual weather shows the difference between the snow in the north and the green vegetation in the south.
The virtual weather shows the difference between the snow in the north and the green vegetation in the south.

The Lachute airport (CSE4) is visible (buildings in red in the foreground). Flying in April in Quebec allows to notice the demarcation between the still white landscapes (the snow persists) in the north and the areas where everything has already melted.

Over Hawksbury, Ontario, with the MSFS 2020 flight simulator.
Over Hawksbury, Ontario, with the MSFS 2020 flight simulator.

The flight continues to the Cascades waterbase (CTY3). The Ottawa River separates Quebec from Ontario. The aircraft is currently over the town of , Ontario, with Hamilton Island on the left.

Realism of the flight simulation under MSFS 2020
Realism of the flight simulation under MSFS 2020

The screenshot above shows the very realistic effect of the virtual landscape, both in terms of the virtual weather, the multiple color tones of the ground and the shading on the ground and on the aircraft caused by the breaks between the clouds.

Overflying the Plaisance National Park in Quebec with MSFS 2020
Overflying the Plaisance National Park in Quebec with MSFS 2020

Above Parc national Plaisance, a Quebec property.

Visibilty lowers slightly near Gatineau (CYND)
Visibilty lowers slightly near Gatineau (CYND)

Descending for 1500 feet. Near Gatineau, the weather conditions deteriorate slightly. But it will be short-lived.

Turning towards the Gatineau river with the MSFS 2020 flight simulator.
Turning towards the Gatineau river with the MSFS 2020 flight simulator.

Right turn for a water landing on the Gatineau River. The destination is in sight.

Water landing of the Gatineau river near the Wakefield hydrobase (CTY3)
Water landing of the Gatineau river near the Wakefield hydrobase (CTY3)

The plane progresses slowly towards the hydrobase.

Aerial view of the Wakefield hydrobase (CTY3) with MSFS 2020
Aerial view of the Wakefield hydrobase (CTY3) with MSFS 2020

There is not yet a virtual waterbase worthy of the name for Cascades under Microsoft. At low altitude, the virtual pilot notes that he is only flying over a photo with aircraft footprints. An aerial view shows the CTY3 hydrobase.

Those who wish to repeat the experience will find the ride quite interesting.

Click on the link for more standard virtual flights on my blog.

Categories
Flight Simulation

The Bugalaga runway (WX53) in Indonesia with MSFS 2020

Bugalaga airstrip in Indonesia photographed by Nico Sanchez
Bugalaga airstrip in Indonesia photographed by Nico Sanchez

Takeoffs and landings on the Bugalaga runway (WX53) in Indonesia can be classified as being in the challenging virtual flight category. The runway is not extraordinarily demanding, due to its comfortable size of 1478 feet by 75 feet. But the approach still requires more skill than a standard approach, especially with the trees on final and the steep slope.

Today’s flight with the MSFS 2020 flight simulator consists of taking off and landing on this sloping runway. To add to the fun, the flight must be done during adverse weather conditions. Indeed, the thunderstorms programmed in the virtual weather system complicate the task of the virtual pilot, as he has to deal with gusty winds and mechanical turbulence. And to add to the fun, the Pilatus normally used is replaced by a Cessna Grand Caravan 208B. The photo above represents the Bugalaga runway in reality.

View of the Bugalaga (WX53) sloped airstrip using MSFS 2020 flight simulator.
View of the Bugalaga (WX53) sloped airstrip using MSFS 2020 flight simulator.

Above is the virtual graphic interpretation of this runway located at 6233 feet above sea level (MSL) with the Cessna ready to take off. Asobo (Microsoft) did a good job.

Cessna Grand Caravan 208B ready for departure at Bugalaga airstrip with MSFS 2020
Cessna Grand Caravan 208B ready for departure at Bugalaga airstrip with MSFS 2020

The visibility could be better, but it does not prevent the aircraft from taking off on runway 06.

Cessna Grand Caravan 208B airborne from the Bugalaga sloped airstrip (WX53) using MSFS 2020 flight simulator
Cessna Grand Caravan 208B airborne from the Bugalaga sloped airstrip (WX53) using MSFS 2020 flight simulator

As you can see, the margin of error is pretty small for this aircraft that is less efficient than the Pilatus normally used in reality.

Mountains around the Bugalaga airstrip during a thunderstorm using MSFS 2020.
Mountains around the Bugalaga airstrip during a thunderstorm using MSFS 2020.

Immediately after takeoff, preparation begins for the outbound procedure and the 180 degrees turn that will put the aircraft on final for runway 24. The surrounding mountains require the pilot’s full attention.

Cessna Grand Caravan 208B approaching the Bugalaga airstrip in flight simulation.
Cessna Grand Caravan 208B approaching the Bugalaga airstrip in flight simulation.

Acceptable visibility but strong winds characterize the approach to Bugalaga.

The Bugalaga virtual sloped airstrip is visible in the distance in the mountains.
The Bugalaga virtual sloped airstrip is visible in the distance in the mountains.

Runway 24 is now visible in the mountains.

On final at 82 kts for the Bugalaga sloped airstrip (WX53) using MSFS 2020
On final at 82 kts for the Bugalaga sloped airstrip (WX53) using MSFS 2020

The approach speed with flaps out is about 82 knots.

Touching down on rwy 24 on the Bugalaga sloped airstrip using MSFS 2020
Touching down on rwy 24 on the Bugalaga sloped airstrip using MSFS 2020

The Cessna Grand Caravan C208B is about to touch down. You can see the steepness of the runway, which gets even steeper towards the end.

Cessna Grand Caravan 208B keeping enough speed to climb the sloped airstrip at Bugalaga in Indonesia (MSFS 2020)
Cessna Grand Caravan 208B keeping enough speed to climb the sloped airstrip at Bugalaga in Indonesia (MSFS 2020)

Once the aircraft has touched down, the virtual pilot must maintain enough speed to climb the hill at the end of the strip.

Cessna Grand Caravan 208B after landing in Bugalaga in flight simulation.
Cessna Grand Caravan 208B after landing in Bugalaga in flight simulation.

A last screen capture shows the aircraft having crossed the last hillock at the end of runway 24. The flight is short, but requires your full attention. Good luck to those who will try the experience!

Categories
Flight Simulation Screen captures

A few Microsoft Flight Simulator 2020 screenshots.

Below are a few Microsoft Flight Simulator 2020 (MFS 2020) screen captures taken during virtual flights.

Le Mont St-Michel en France, sous MFS 2020.
Le Mont St-Michel en France, sous MFS 2020.

Mont St-Michel is a very nice addition to the France virtual scenery provided by MFS 2020. Such great sites can be found in many places in the Microsoft Flight Simulator 2020 program, but many more are also available for free through the flight simulation community : they can then be downloaded and installed in MFS 2020, thus ever improving the overall experience.

Heading to KLAX from KBUR with a TBM 930 on the flight simulator MFS 2020.
Heading to KLAX from KBUR with a TBM 930 on the flight simulator MFS 2020.

The haze is quite present in the Los Angeles area and adds to the realism in the screenshot above. The FedEx livery comes from « Liveries Mega Pack Manager ».

Puerto Vallarta with MFS 2020 and improved scenery by John Lovell
Puerto Vallarta with MFS 2020 and improved scenery by John Lovell

The Icon A5 Kingfisher is seen flying along the Puerto Vallarta coast in Mexico. The scenery was hugely improved by John Lovell and is available through Flightsim.to. But it will require 5 GiG on your hard disk!

The Burbank Bob Hope (KBUR) modelized by Orbx on the flight simulator MFS 2020.
The Burbank Bob Hope (KBUR) modelized by Orbx on the flight simulator MFS 2020.

The picture above shows a small part of the Burbank Bob Hope airport (KBUR) modelized by Orbx. The screen capture was taken with the X-Box drone. This drone is a fantastic addition to what is now available to flight simulation enthousiasts when comes the time to bring back souvenirs from a flight.

Heading to Iqaluit with the flight simulator MFS 2020.
Heading to Iqaluit with the flight simulator MFS 2020.

Enroute to Iqaluit (CYFB), the jet just got out of the cloud deck and some rime icing is still visible on the nose and the wing’s leading edge. That evening, there was a sigmet reporting high level turbulence and it is exactly what I experienced during the flight, using REX Weather Force 2020 as a weather engine.

I’ll be back with more flight simulation screen captures soon. Meanwhile, have a good virtual flight!

Click on the following link for virtual flight simulation pictures on my blog.

Categories
Aviation art Flight Simulation

Flight simulation : three screen captures.

The virtual sceneries shown below were used for flight simulation exercises. They are all available online, for sale or free, at ORBX ( https://orbxdirect.com/ ).

Piper Pacer approaching the dock at Robert's Lake in Ontario, Canada.
Piper Pacer approaching the dock at Robert’s Lake in Ontario, Canada.

In the scenery above, the red Piper Pacer, which is made by Lionheart Creations Ltd ( http://www.lionheartcreations.com/ ), arrives at a Pier at Robert’s Lake, in Canada. This lake was modelized jointly with the Parry Sound (CNK4) virtual scenery.

Virtual Cessna C188B Agtruck near Claresholm Industrial Park in Alberta, Canada.
Virtual Cessna C188B Agtruck near Claresholm Industrial Park in Alberta, Canada.

In the picture above, a virtual Cessna C188B Agtruck created by the Alabeo company ( https://www.alabeo.com/sitealabeo/ ) is parked near the Claresholm Industrial Park (CEJ4), in Canada. The virtual airport is available for  free download at ORBX. Who said that nothing in life is free?!

A virtual UH-60L Black Hawk belonging to the Columbian Police Force is hovering in the jungle.
A virtual UH-60L Black Hawk belonging to the Columbian Police Force is hovering in the jungle.

Above, a UH-60L Black Hawk virtual helicopter created by the Cerasim company ( https://www.cerasimaircraft.com/ ) is flying over the Papua New Guinea territory. It should normally be hovering over Columbia, but the ORBX company has not yet developed very well defined airports for that country. It was more interesting to fly over an area that was already well modelized.

The three screen captures were slightly digitally improved following each virtual flight. The FSX flight simulation platform, although still interesting, is getting a bit old. The original screen captures often benefit from additional digital processing, especially when it comes to posting for the international contest held monthly by the ORBX company.

Categories
Flight Simulation

The treacherous Launumu short sloped runway in Papua New Guinea.

An Air Saguenay DHC-3 Otter has made it from Québec to Kokoda, in Papua New Guinea. It is expected to work around the remote mountain airfields for a while.

The Air Saguenay Otter is taxiing for the Kokoda runway towards Launumu in Papua New Guinea.
The Air Saguenay Otter is taxiing for the Kokoda runway towards Launumu in Papua New Guinea.

Today, the Otter heads for Launumu, a mountain airfield that is at an elevation of 5082 ft asl and 1200 feet long.

The Air Saguenay Otter departing Kokoda.
The Air Saguenay Otter departing Kokoda.

The pilot has to watch for the birds in order to avoid any collision in flight…

Otter aircraft and birds.
Otter aircraft and birds.

Following the Kokoda trail is a good way to reach Launumu.

The Otter in the Papua New Guinea mountains, following the Kokoda Trail.
The Otter in the Papua New Guinea mountains, following the Kokoda Trail.

If the mixture is not adjusted, the Otter will lose a lot of steam trying to climb up to 7,500 feet to cross the first line of mountains.

Inside the Otter cockpit, with the mixture adjusted.
Inside the Otter cockpit, with the mixture adjusted.

Anybody landing and departing from Launumu deals with high density altitude. This is not only due to the elevation of the airfield but also to the very warm and moist air present in the region. Consequently, some additional airspeed is required on the approach and on the departure.

The Launumu runway is in sight.
The Launumu runway is in sight.

When a pilot lands southwestward in Launumu coming from Kokoda, he must dive in a valley to lose altitude, which will increase the aircraft’s airspeed. The Launumu runway is in sight.

If the airspeed is not promptly corrected, the approach to the Launumu runway will be too fast. Any airspeed above 60 knots forces the pilot to overshoot (unless you are ready to virtually die a few times while trying).

Losing altitude while respecting the flaps speed limit.
Losing altitude while respecting the flaps speed limit.

So, once the higher mountains are crossed, a good way of losing altitude without gaining airspeed is to use flaps (at the corresponding airspeed) and do a tight 360 degree coordinated turn while descending. That way, the pilot will end up in line with the runway and at the speed you want, which is around 50 knots.

Turning and descending in the valley during an approach for Launumu.
Turning and descending in the valley during an approach for Launumu.

The Otter floats endlessly because of its huge wings.

The Air Saguenay Otter is on approach for the Launumu short runway in Papua New Guinea.
The Air Saguenay Otter is on approach for the Launumu short runway in Papua New Guinea.

On final for Launumu, the pilot might end up having to deal with the bushes that are close to the runway. It is not unusual for the Otter or the Beaver to complete a difficult approach with bushes wrapped around the landing gear.

A Air Saguenay Otter is on final for the Launumu mountain runway.
A Air Saguenay Otter is on final for the Launumu mountain runway.

A Otter aircraft is arriving on the Launumu high altitude runway.
A Otter aircraft is arriving on the Launumu high altitude runway.

Launumu has a surprise for the newcomers. If the pilot lands southwestward, like it was just done here, and the aircraft is not stopped within approximately 600 feet, it starts accelerating since there is a pronounced slope downward in the second half of the runway. This slope leads to a cliff. In case of a missed approach, the pilot can use the slope downwards and dive in the valley at the end of the runway to build up airspeed and start a new approach.

Now that the hard work is done, it is time to wait for the passengers and cargo, and plan the next leg…

A Otter aircraft is backtracking the Launumu runway after landing.
A Otter aircraft is backtracking the Launumu runway after landing.

A Otter aircraft is parked on the Launumu runway in Papua New Guinea.
A Otter aircraft is parked on the Launumu runway in Papua New Guinea.

The virtual scenery and clouds required softwares like REX, REX Texture Direct, Cumulus X, FTX Global, FTX Global Vector and Pilot’s FS Global 2010.

Categories
Flight Simulation

Gliding operations on a 12 degree sloped runway in Papua New Guinea

Well, that is it! The first glider just arrived at the Fane Parish airport in Papua New Guinea

Glider on the Fane Parish short grass runway in Papua New Guinea.
Glider on the Fane Parish short grass runway in Papua New Guinea.

Before it is officially offered as a tourist attraction for the region, some attempts at taking-off and landing must be done. The first trial attracts a few people!

Aircraft and glider on the Fane Parish mountain airfield.
Aircraft and glider on the Fane Parish mountain airfield.

The descent along the twelve degree sloped runway is a bit rough for the glider’s low wings, as there are some bushes that will have to be trimmed!

An aircraft pulls a glider after the take-off from the Fane Parish sloped runway in Papua New Guinea.
An aircraft pulls a glider after the take-off from the Fane Parish sloped runway in Papua New Guinea.

The weather is nice and very warm. The only potential problem is the mountain ahead.

Glider being towed by an aircraft after the take-off from the Fane Parish mountain airfield.
Glider being towed by an aircraft after the take-off from the Fane Parish mountain airfield.

Finally, the pilot cuts the link. He is free to go!

The link is cut between the plane and the glider after the take-off from Fane Parish.
The link is cut between the plane and the glider after the take-off from Fane Parish.

The glider flies silently over the lush area of Papua New Guinea.

Virtually gliding over the Papua New Guinea territory (FSX).
Virtually gliding over the Papua New Guinea territory (FSX).

Using the rising warm air currents, the glider gains altitude.

The glider gains altitude.
The glider gains altitude.

Why not a pass over Fane?

Gliding over the Fane Parish village.
Gliding over the Fane Parish village.

Here is another isolated village alongside a mountain.

Flight with a virtual glider over an isolated village of Papua New Guinea.
Flight with a virtual glider over an isolated village of Papua New Guinea.

A last steep turn in order to realign for the approach at Fane Parish.

Last steep turn for a short landing on the Fane Parish mountain sloped runway.
Last steep turn for a short landing on the Fane Parish mountain sloped runway.

The airbrakes are out and the speed reasonable. The sloped runway is just ahead, on top of the mountain to the right.

Approach of a glider on the elevated airfield at Fane Parish in Papua New Guinea. The speed and angle of approach are right on target.
Approach of a glider on the elevated airfield at Fane Parish in Papua New Guinea. The speed and angle of approach are right on target.

Keeping just enough altitude on the approach to be safe.

Glider approaching the 12 degree sloped runway of the Fane Parish aerodrome.
Glider approaching the 12 degree sloped runway of the Fane Parish aerodrome.

Now that the landing is a sure thing, it is time to use the airbrakes again to slow down as much as possible.

Virtual glider arriving over the Fane Parish runway in Papua New Guinea. The airbrakes are being used.
Virtual glider arriving over the Fane Parish runway in Papua New Guinea. The airbrakes are being used.

Keeping in mind that this mountain airfield as a good slope, it is better to have a bit of extra speed. Nobody likes to stall a few feet over a runway!

Virtual glider with airbrakes over the Fane Parish runway
Virtual glider with airbrakes over the Fane Parish runway

What an experience it was! But I’ll need some help to pull the glider up the slope!

Glider on the Fane Parish runway
Glider on the Fane Parish runway

The virtual flight was great, the view was worth every penny, and I think that this could become a new touristic attraction for the region and the more wealthy visitors…

The glider has landed on the runway at the Fane Parish airport in Papua New Guinea.
The glider has landed on the runway at the Fane Parish airport in Papua New Guinea.