All afternoon, planes land without any significant vortices. Then a CRJ9 flies overhead, leaving two beautiful swirls behind it. I place my camera between the two bars of the airport fence along Jean Gauvin Road and take a few shots.
Photography technique
I use a Canon 5DSR full-frame camera with ISO set to 200. The autofocus is set to SERVO mode. A shutter speed of 1/1000 is sufficient to follow the jet as it flies away. Cropping will then be necessary to bring the aircraft closer and position the vortices appropriately.
It is best to keep the runway lights in the frame to add more dynamism to the scene. They help to better situate the environment in which the CRJ9 is located at the moment the vortices appear.
The Dash 8-400 is also known as the DH8D or Q400 (Q standing for “quiet”). It is pictured here at the threshold of Runway 29 at Quebec City’s Jean Lesage International Airport. It is awaiting takeoff clearance.
PAL Airlines DH8D aircraft and Pascan Saab-340B at the Québec Jean-Lesage international airport.
Photography technique
I focus on the back of the aircraft. The limited depth of field blurs the rest of the image. The shutter speed is between 1/80 and 1/125, so as not to freeze the propellers. The result is a more dynamic photo.
With the plane’s back to the camera, interest is limited unless something special is happening. The frequency scanner indicates that a Pascan Saab-340 (SF32) will shortly be taking off from runway 24. With a bit of luck, I’ll be able to capture it and include it in the shot of the Q400.
A few seconds later, the aircraft enters the lens’ field of vision. The idea is to capture it while it’s still vis-a-vis the gasoline fumes from the engines. I took a few photos and kept the one with the best photographic composition.
Below is a photo of an Air Canada Rouge aircraft taking off from 24 after a heavy downpour.
An Air Canada Rouge Airbus jet takes-off from a wet runway at the Québec Jean-Lesage international airport.
This time, there’s no question of limiting the shutter speed to 1/125. The plane has no propellers, so you can choose 1/1000 without making a mistake. For greater dynamism, wait until the nose of the plane starts to lift. You can also keep a long trail of water splashes.
Finally, it’s often best to show a bit of landscape in the foreground to better situate the aircraft in its environment.
Click on the link for more aircraft photos on my blog. There are also photo galleries in the menu.
Of the 55 aircraft of this model built in the 1980s, only 26 remain in service worldwide. The Antonov 124 can carry a load 17% greater than that of the C-5A Galaxy.
I took the first photo in close-up to emphasize the enormity of the aircraft compared to a human. Note also the “Be brave like Kharkiv” logo on the nose of the aircraft, in reference to the war between Ukraine and Russia.
Antonov AN 124-100M departing the Québec Jean-Lesage international airport (CYQB) for Harrisburg (KMDT) in the United States.
Tips in photography
The aircraft took off from runway 24 bound for Harrisburg (KMDT) in Pennsylvania. As the runway was wet, a photographer positioned at the threshold of runway 24 to observe the takeoff would have seen only water being lifted by the engines.
The thresholds of runways 06 and 29 were therefore an excellent choice. Runway 29 provided a nice side-on shot with no visual contaminants. Curiously, while many photography enthusiasts were massed near the thresholds of 06 and 24, I was alone near 29. This made it possible to get a shot from an original angle.
As the cargo plane was quite a distance from my position, I used a Canon 70-200mm f2.8L IS II USM telephoto lens. An acceptable shutter speed to avoid motion blur meant sacrificing depth of field.
The full-frame sensor’s 50.6 megapixels then made it possible to crop the subject sufficiently without compromising photo quality.
Photography technique
A good photography session goes hand in hand with proper planning. Listen to ground frequency 121.9, control tower 118.65 and terminal 127.85 to improve your chances of success.
A cell phone allows you to use the Flightradar24 application (for scheduled arrivals and departures and current trajectories). Flightaware is also an excellent choice. The cell phone can also be used to find out if there are any road closures around the airport that would prevent us from getting to our desired destination. It also provides information on current weather conditions and forecasts. In Canada, the AWWS site is a mine of information for aviation enthusiasts.
Dornier DO X stops its engines on a Swiss lake with Microsoft’s flight simulator
Microsoft has made the famous German Dornier DO X seaplane available to flight simulation enthusiasts. Designed in 1929 by Claude Dornier, this seaplane far surpassed anything else on the market at the time, in terms of weight, length and power.
Flyingboat Dornier DO X.
Unfortunately, the Germans couldn’t make a commercial success of it, as the aircraft was really too heavy to cover long distances at high altitude in an economical way. What’s more, bad experiences were piling up during the various stopovers: the left-wing canvas caught fire in Portugal, there was some problems with tropical weather, the tail was torn off during a poorly-planned ditching in Passau. What remains of the empennage after the accident can now be seen in the Dornier Museum in Friedrichshafen.
The Germans built the three DO X models at Altenheim, on the Swiss side of Lake Constance, to get round the restrictions imposed by the Treaty of Versailles.
Inside the flyingboat Dornier DO X with Microsoft flight simulator
One crew member was in charge of controlling and monitoring the engines. He obeyed the captain’s instructions.
Dornier DO X engine control
Dornier DO X engine room with Microsoft flight simulator
The layout of the engines caused headaches for the mechanics. Six propellers pulled the aircraft forward, while another six pushed the DO X. The engines driving the rear propellers received less air than those in front of the aircraft. This led to cooling problems, which reduced reliability on long-distance flights.
Dornier DO-X flyingboat over the Atlantic ocean with MSFS 2020 flight simulator.
The seaplane made its first test flight from Lake Constance (Bodensee) in 1929. Below, a screenshot of the flight near Lake Brienz in Switzerland.
Dornier DO X flyingboat over Lake Brienz in Switzerland with Microsoft flight simulator.
On its international routes, the DO X made stopovers in several European countries, Africa, South America, Miami, New York and Newfoundland. At the time, Newfoundland was not yet part of Canada. Newfoundlanders issued a stamp to commemorate the plane’s passage through Hollyrod. Naturally, those who kept a copy of the stamp have seen its value rise sharply over the years.
This legendary seaplane is still admired by aviation enthusiasts today. It’s available as a glue-on model, a desktop model and even as a remote-controlled model.
On Friday May 1st 2020, Quebec received a shipment of medical equipment destined to the people fighting COVID-19. An Antonov 225 was carrying the goods. The flight was organized thanks to a joint collaboration between Nolinor, Momentum Solutions and Antonov Airlines.
Departing from Tianjin, China, the plane made a stopover in Anchorage, Alaska, before continuing its flight over Canada towards the province of Quebec.
The Antonov 225 carrying medical supplies for Canada makes a stopover in Anchorage, Alaska.
The arrival of the Antonov 225 in Anchorage was announced in advance by the media, which allowed a large crowd to stand near the airport and monitor the approach of the aircraft. The following link allows you to view the approach and arrival: KTUU Video Antonov 225
At 5:35 on the KTUU video, we can see a Fedex MD-11F. It is worth mentioning, because this was a very impressive plane at the time of its conception, but companies are progressively getting rid of it due to the age and fuel costs associated with its operation. Today, the aircraft is only used for the transport of goods. The production of aircrafts of this size, with three engines, was stopped years ago. There is a good chance that the Antonov 225 will continue to fly long after the MD-11F has made its last flight. (Edit: The Russians destroyed the Antonov 225 during the invasion of Ukraine)
After taking off from Anchorage in the morning of May 1st, the Antonov 225 arrived in Mirabel, Quebec, in the evening of the same day at around 8:22 p.m. The aircraft’s flight path (ADB3381) could be followed on Flightradar24 at the time of its approach for Mirabel (CYMX).
The Antonov 225 ADB3381 on final for Mirabel airport in Canada on May 1st 2020.
We can see on the Flightradar24 screen capture that a helicopter (C-GSTV) is positioned to film the arrival of the world’s biggest aircraft. It is an AS 350 BA from TVA, a French-language news media in Quebec.
The Québec TVA news helicopter C-GSTV.
Source : FlightAware.
The Antonov 225 arrives in Mirabel from Anchorage on May 1st 2020.
Several challenges were encountered for this flight to be a success: the language barrier, the verification of equipment quality (contaminated material is not of a big help), the airport operation’s requirements from China, customs limited hours of operation, maximum daily time in service for the Antonov 225 crew, international competition for slot times and orders, initiatives from some countries to acquire shipments not intended for them, etc. But finally, after hard work, Quebec finally received the precious cargo.
A Cathay Pacific Cargo Boeing 747 and the London Eye in London (2015)
The photo above requires a very quick moment of reflection before being correctly interpreted. Most of the people who have seen the picture for the first time immediately had the feeling that the aircraft was heading toward one of the London Eye’s capsules.
The viewers referred to images that they had already seen during the 9/11 attacks, images that were printed in their memory.
The Cathay Pacific Boeing 747 cargo was inbound for the London Heathrow international airport while my family and I were waiting in line to live the London Eye experience, the Ferris wheel installed in the center of London, United Kingdom.
Instead of capturing a large scene, which would have given a far better idea of the scale of objects and eliminated any confusion, I opted for a close-up plan, leaving the viewer with the work of interpreting the photo correctly.
One of the pleasures of street photography is to find a second interpretation to what would normally be an ordinary scene.
For other street photography pictures posted on my site, click on the following link:
Sunset colors reflecting on an Air Canada Bombardier Q-400 in Toronto
The Air Canada Terminal installations at the Toronto Lester B. Pearson international airport are such that a voyager intending to do a flight from Toronto to Quebec has to walk outside the building to catch his plane. This has some advantages, especially when it is an evening flight and there is, at the time of boarding, a superb sunset.
But to directly photograph the sunset colors without any filter or tripod, while hand holding the camera, is a recipe for disaster. And a photographer cannot stay immobile for very long in that restricted area where security agents and passengers walking towards the DHC-8-400 demand that everyone move with the flow.
A practical method that offers very good results is to indirectly photograph the beautiful sunset colors by using the aircraft as a reflector.
First, it is better to use a camera lens that requires very little light. This will limit the grain size while allowing a shutter speed that is high enough to avoid a blurred picture. The scenery was thus captured with a Canon 5DSR full-frame camera equipped with a Canon EF 50mm f/1.4 USM lens.
Secondly, the photographer must crop the photography using an image editing software so that all useless details are absent from the final shot. There are two objectives: 1) it is obviously necessary to keep the aircraft parts that will best show the sunset colors and 2) do the best possible use of the elements presenting graphic interests for the viewer.
If I had kept only several oversized windows in order to show the superb sunset colours, there would have been only clear bright colours, without contrasts. That would have given an uninteresting photo. The advantages of protecting the shadowy top of the aircraft are that it adds a strong luminosity contrast, allows the inclusion of the Q-400 diagonal lines (1-2-3-4-5) and a reflection of the reflections themselves (6) under the aircraft’s wing. All this is highlighted in the photo below.
Photography theory: diagonal lines on a Bombardier Q-400 photo
Harbour Air Twin Otter floatplane C-GQKN and Turbo Otter floatplane C-FODH in the sunset in the Port of Vancouver during summer 2016
The picture above has been taken with a Canon 5DSR full-frame camera in the Port of Vancouver, in British Columbia, during summer 2016. Following a very busy day of take-offs and landings, everything is now peaceful. The Harbour Air Twin Otter floatplane C-GQKN and Turbo Otter floatplane C-FODH are now parked for the night.
Pictures taken at dusk or dawn benefit from a unique light. Nonetheless, taking pictures of aircrafts against the light, with the last sunrays still visible, requires a special attention with regards to blown out highlights.
When contrasts are too important, it is possible to correct the situation by taking several pictures with different exposures and merging them using an image editing software like Photomatix (HDR photography). This is done in a few minutes only. Nonetheless, with floatplane aircrafts that are still slightly moving even when tied for the night, there is an increased risk of a blurred picture. The best way to proceed is to use a ND grad filter and to place it exactly where the light is the strongest. Naturally, there will still be some blown out highlights.
This being said, you still have a good margin of manoeuver, since there is no problem in showing a limited amount of over-exposed highlights in the brighter part of the sunrays, as there is not much details to lose there anyway. While purists would argue otherwise and spend hours in front of their computer trying to correct everything, you are making the best of another day of photographic exploration.
If the picture was taken using RAW files (or RAW with JPEG), it is possible to improve the scene even more by correcting some aspects like the contrasts, the brightness, the colours, the saturation and ambient light, etc. This also requires very limited time in front of the computer once you understand the basic principles of an image editing software.
Harbour Air Twin Otter floatplane C-GQKN on final for Vancouver Harbour, in British-Columbia, during Summer 2016. Photo taken with a Canon 5DSR full frame camera.
It looked like it would be an average day for a photography session at the Vancouver Harbour. The sky was quite ordinary, which means totally cloudless. But around noon, a new and more humid air mass made its way in British Columbia and rapidly the blue sky was replaced by clouds and precipitations. At the same time, the high intensity light that was prevailing around noon suddenly took more acceptable levels for photography.
Pilots of different bush floatplanes like the Twin Otter (DHC-6), Turbo Otter (DHC-3T) and Beaver (DHC-2) had to deal with the sudden weather deterioration in order to complete the daily planned flights. But one man’s loss is another man’s gain. For aviation photography, low clouds and light intensity meant that the pictures would be more interesting.
The photo above was taken with a Canon 5DSR full-frame DSLR camera equipped with a Canon 70-200 f2.8L IS II USM telephoto lens. In order to capture the moving propellers, I had to set a low shutter speed. The scene was then cropped to avoid visual distractions. The 50.6 megapixels full-frame sensor of the Canon 5DSR facilitates cropping when it is required.
In the foreground, there is a Harbour Air Twin Otter floatplane (C-GQKN) approaching to land in the Vancouver Harbour. In the background, far away and in the superior right corner of the photo, the pilot of a Turbo Otter floatplane also deals with worsening weather while ensuring that he maintains a visual contact with high ground obstacles surrounding the harbour.
Westcoast Air Twin Otter floatplane C-FGQH arriving in Vancouver Harbour, in British-Columbia, during Summer 2016. The photo was taken with a Canon 5DSR camera.
The picture above was taken in British Columbia, during summer 2016, with a Canon 5DSR full-frame camera equipped with a Canon 70-200 f2.8L IS II USM telephoto lens.
A Westcoast Air (C-FGQH) Twin Otter floatplane (DHC-6) was about to land in the Vancouver Harbour. It is obvious that adjusting the shutter speed to 1/1200 would have given enough speed to obtain a clear image. But this would have taken away any movement sensation by freezing the propellers and background.
The shutter speed had to be slow enough to allow the rotation of propellers. It is clear that an aircraft’s propeller rotates more slowly on final for landing than during take-off. So the camera had to be adjusted for a shutter speed varying between 1/40 and 1/125.
A slower shutter speed increases the risk of getting a blurred photo, especially when the photograph must move with the camera to obtain the desired effect of movement. The fact that a telephoto lens is used also increases the possibility of a blurred picture. It is thus imperative to activate the stabilizer and horizontal panning function of the telephoto lens.
To obtain a background without any precise details, the camera is panning and follows exactly the aircraft’s movement. This requires a progressive acceleration of the panning, according to the aircraft’s position from the photographer.
When the Twin Otter gets closer, things get a bit more complicated as everything speeds up. It is necessary to already have positioned the feet in the appropriate direction in order to avoid a major switch in the body’s posture. The slightest useless or brisk movement would immediately be visible on the photo.
With a bit of practice, a photographer will achieve success by respecting the following elements: a shutter speed between 1/40 and 1/125, an appropriate position of the feet, no brisk movement while pivoting and a progressive acceleration of the body’s rotation aligned with the aircraft’s speed. A slower shutter speed will enhance the aircraft movement. But expect more blurred pictures when working with speeds between 1/40 and 1/60.
A last detail: as soon as the aircraft’s floats touch the water, the deceleration starts. The photographer’s pivoting speed must immediately slow down otherwise the photo will be blurred.
