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.
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.
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.
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.
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 (purchased in 2019 by the rich owner of the Gildan empire) to finally arrive at Grosse-Île.
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.
Below, the aircraft is on final for the 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.
Click on the link for more flight simulation experiences on my blog.
The book “J’étais le pilote de Hitler” tells a true story that was originally published in 1957. The 2020 French edition, presented and annotated by Claude Quétel, improves our understanding of Hans Baur, one of the founders of Lufthansa in 1926, Hitler‘s personal pilot, but also a high-ranking Nazi SS officer and a close friend of the Führer.
The information offered by Hans Baur is of great interest. Early in Hans Baur’s career, the pilots doing what he did were called aviation pioneers. At the time, planes contained virtually no air navigation instruments that could assist a pilot flying in difficult weather conditions. The Alps are tricky to fly through in good weather, so it gets a lot more challenging in bad weather and in a poorly equipped plane. If we add the freezing conditions, engine failures, cabins that are not heated and that are not equipped with devices providing supplemental oxygen to pilots, then there are flightsthat would be considered something like an “exploit”. This aspect of the book is therefore very interesting.
I also liked all of Hans Baur’s anecdotes about Hitler’s demands on him. Being a pilot for the Führer was no small task. Hitler had very high expectations regarding the performance and the punctuality of his personal pilot, and the latter certainly demonstrated extraordinary abilities to satisfy his superior.
Where we have to be wary is that we are still dealing with an SS pilot, who was a member of the Nazi organization before Hitler took power. We have to question his personal values and what he voluntarily neglected in his book. The regular massacres carried out during Barbarossa Operation in Russia, or the elimination of six million Jews, are not discussed, as the SS pilot maintains he was never involved in politics. He carried passengers without asking questions, but he had chosen Nazism as a political movement. When you are invited to Hitler’s table on a daily basis and are therefore part of his inner circle, it is clear that the Nazi represented by Hans Baur is speaking about more than piloting.
The experience in Russian prisons is described as inhuman by Hans Baur, who has been there ten years. He talks about the transport of German prisoners in cattle cars, very bad food, etc. But I couldn’t help but wonder what planet he lived on to denounce his condition as a prisoner while ignoring the treatment the Germans imposed on the Russians and all the people who were deported and massacred. The Einsatzgruppen were not altar boys. Moreover, Claude Quétel also questioned this remark from Hans Baur, adding that “although very harsh, the living and working conditions in the Soviet camps have nothing to do – as we sometimes read – with those of the German concentration camps.”(p.381).
There are also some inaccuracies and sometimes falsehoods that Claude Quétel does not hesitate to point out. Sometimes these are trivial errors resulting from poor memory. However, other important facts are downright inaccurate. As in this passage where Baur says that Hitler decided to attack Russia four weeks before the start of the war, which is not true. The conquest of the East and of more living space is specifically enunciated in Mein Kampfand is spoken of in a book written while Hitler was in prison in 1923 following a failed coup.
Conclusion
The book « J’étais le pilote de Hitler » is a very interesting book, one more about Nazi Germany. The history of Germany is fascinating and complex, from the time of the Holy Roman Empire to the present day. But it seems that it will always be the twelve years of the Nazi period that will achieve more success in bookstores.
Have a good read!
Click on the link for other books on war in my blog.
Before 1949, Newfoundland was called Dominion of Newfoundland and was part of the British Commonwealth . In 1949, it became a Canadian province.
The first non-stop flight eastward across the Atlantic.
The book « Our transatlantic flight » tells the story of the historic flight that was made in 1919, just after the First World War, from Newfoundland to Ireland. There was a 10,000 £ prize offered by Lord Northcliffe from Great Britain for whoever would succeed on the first non-stop flight eastward across the Atlantic.
A triumph for British aviation
Sir John Alcock and Sir Arthur Whitten Brown , respectively pilot and navigator, wrote the story of their successful flight in this book which was published in 1969. The followings are pilot quotes from the book : « For the first time in the history of aviation the Atlantic had been crossed in direct, non-stop flight in the record time of 15 hours, 57 minutes. » (p.13) « The flight was a triumph for British aviation; the pilot and navigator were both British, the aircraft was a Vickers-Vimy and the twin engines were made by Rolls-Royce. » (p.13)
As with all great human achievements, a very good flight planning and some luck was needed to make this flight a success. If there was an engine failure during the flight, even if the planning was excellent, there was only one outcome : downward.
In order to make the flight, Alcock and Brown boarded a ship from England bound to Halifax. They then headed to Port aux Basques and finally arrived in St.John’s. There, they joined a small group of British aviators who had arrived a few days before and who were also preparing for the competition. « The evenings were mostly spent in playing cards with the other competitors at the Cochrane Hotel, or in visits to the neighbouring film theatres. St.John’s itself showed us every kindness. » (p.60)
Maritime transport was used to carry the Vickers-Vimy biplane to Newfoundland on May 4th. It was assembled in Newfoundland. « The reporters representing the Daily Mail, the New York Times, and the New York World were often of assistance when extra manpower was required. » (p.61).
While the aircraft was being built, there were more and more visiters coming to the site. Brown says : « Although we remained unworried so long as the crowd contented itself with just watching, we had to guard against petty damage. The testing of the fabric’s firmness with the point of an umbrella was a favourite pastime of the spectators […]. » (p.61)
It was difficult to find a field that could be improvised into an aerodrome : « Newfoundland is a hospitable place, but its best friends cannot claim that it is ideal for aviation. The whole of the island has no ground that might be made into a first-class aerodrome. The district around St.John’s is especially difficult. Some of the country is wooded, but for the most part it shows a rolling, switchback surface, across which aeroplanes cannot taxi with any degree of smoothness. The soil is soft and dotted with boulders, as only a light layer covers the rock stratum. Another handicap is the prevalence of thick fogs, which roll westward from the sea. » (p.59)
They flight tested the airplane on June 9th at Quidi Vidi. During the short flight, the crew could see icebergs near the coast. They did a second trial on June 12th and found that the transmitter constantly caused problems. But, at least, the engines seemed to be reliable…
The departure
The two men left Newfoundland on June 14th 1919. In order to fight the cold air in flight, they wore electrically heated clothing. A battery located between two seats provided for the necessary energy.
The short take-off was very difficult due to the wind and the rough surface of the aerodrome. Brown writes : « Several times I held my breath, from fear that our under-carriage would hit a roof or a tree-top. I am convinced that only Alcock’s clever piloting saved us from such an early disaster. » (p.73)
It took them 8 minutes to reach 1000 ft. Barely one hour after departure and once over the ocean, the generator broke and the flight crew was cut off from all means of communication.
As the airplane consumed petrol, the centre of gravity changed and since there was no trim on the machine, the pilot had to exert a permanent backward pressure on the joystick.
Flying in clouds, fog and turbulence.
During the flight with much clouds and fog, Brown, having almost no navigation aid, had real problems to estimate the aircraft’s position and limit the flying errors. He had to wait for a higher altitude and for the night to come to improve his calculations : « I waited impatiently for the first sight of the moon, the Pole Star and other old friends of every navigator. » (p.84). The fog and clouds were so thick that at times they « cut off from view parts of the Vickers-Vimy. » (p.95)
Without proper instruments to fly in clouds, they were relying on a « revolution-counter » to establish the climbing or the falling rate. That is pretty scary. « A sudden increase in revolutions would indicate that the plane was diving; a sudden loss of revs would show that she was climbing dangerously steeply. » (p.176)
But that was not enough. They also had to deal with turbulence that rocked the plane while they could not see anything outside. They became desoriented : « The airspeed indicator failed to register, and bad bumps prevented me from holding to our course. From side to side rocked the machine, and it was hard to know in what position we really were. A spin was the inevitable result. From an altitude of 4,000 feet we twirled rapidly downward.[…]. « Apart from the changing levels marked by aneroid, only the fact that our bodies were pressed tightly against the seats indicated that we were falling. How and at what angle we were falling, we knew not. Alcock tried to centralise the controls, but failed because we had lost all sense of what was central. I searched in every direction for an external sign, and saw nothing but opaque nebulousness. » (p.88)
« It was a tense moment for us, and when at last we emerged from the fog we were close down over the water at an extremely dangerous angle. The white-capped waves were rolling along too close to be comfortable, but a quick glimpse of the horizon enabled me to regain control of the machine. » (p.40).
De-icing a gauge installed outside of the cockpit.
Snow and sleet were falling. They didn’t realize how lucky they were to continue flying in such a weather. Nowadays, there are many ways to dislodge ice from a wing while the aircraft is in flight. Here is what Brown says about their situation : « […] The top sides of the plane were covered completely by a crusting of frozen sleet. The sleet imbedded itself in the hinges of the ailerons and jammed them, so that for about an hour the machine had scarcely any lateral control. Fortunately, the Vickers-Vimy possesses plenty of inherent lateral stability; and, as the rudder controls were never clogged by sleet, we were able to hold to the right direction. » (p.95)
After twelve hours of flying, the glass of a gauge outside the cockpit became obscured by clotted snow. Brown had to deal with it, while Alcock was flying. « The only way to reach it was by climbing out of the cockpit and kneeling on top of the fuselage, while holding a strut for the maintenance of balance. […] The violent rush of air, which tended to push me backward, was another discomfort. […] Until the storm ended, a repetition of this performance, at fairly frequent intervals, continued to be necessary. » (p.94)
In order to save themselves, they executed a descent from 11,000 to 1000 feet and in the warmer air the ailerons started to operate again. As they continued their descent below 1000 feet over the ocean, they were still surrounded by fog. They had to do some serious low altitude flying : « Alcock was feeling his way downward gently and alertly, not knowing whether the cloud extended to the ocean, nor at what moment the machine’s undercarriage might touch the waves. He had loosened his safety belt, and was ready to abandon ship if we hit the water […]. » (p.96)
The arrival.
They saw Ireland at 8.15 am on June 15th and crossed the coast ten minutes later. They did not expect a very challenging landing as the field looked solid enough to support an aircraft. They landed at 8 :40 am at Clifden on top of what happened to be a bog; the aircraft rolled on its nose and suffered serious material damages. The first non-stop transatlantic flight ended in a crash. Both both crewmen were alive and well, although they were dealing with fatigue…
Initially, nobody in Ireland believed that the plane arrived from North America. But when they saw mail-bags from Newfoundland, there were « cheers and painful hand-shakes » (p.102).
They were cheered by the crowds in Ireland and England and received their prize from Winston Churchill.
Their record stood unchallenged for eight years until Lindbergh’s flight in 1927.
The future of transatlantic flight.
Towards the end of the book, the authors risk a prediction on the future of transatlantic flight. But aviation made such a progress in a very short time that, inevitably, their thoughts on the subject was obsolete in a matter of a few years. Here are some examples :
« Nothwithstanding that the first two flights across the Atlantic were made respectively by a flying boat and an aeroplane, it is evident that the future of transatlantic flight belongs to the airship. » (p.121)
« […] The heavy type of aeroplane necessary to carry an economical load for long distances would not be capable of much more than 85 to 90 miles an hour. The difference between this and the present airship speed of 60 miles an hour would be reduced by the fact that an aeroplane must land at intermediate stations for fuel replenishment. » (p.123)
« It is undesirable to fly at great heights owing to the low temperature; but with suitable provision for heating there is no reason why flying at 10,000 feet should not be common. » (p.136)
The Air Age.
There is a short section in the book on the « Air Age ». I chose two small excerpts on Germany and Canada :
On Germany’s excellent Zeppelins : « The new type of Zeppelin – the Bodensee – is so efficient that no weather conditions, except a strong cross-hangar wind, prevents it from making its daily flight of 390 miles between Friedrichshafen and Staalsen, thirteen miles from Berlin. » (p.140)
On Canada’s use of aeroplanes : « Canada has found a highly successful use for aeroplanes in prospecting the Labrador timber country. A group of machines returned from an exploration with valuable photographs and maps of hundreds of thousands of pound’s worth of forest land. Aerial fire patrols, also, are sent out over forests.» (p.142) and « Already, the Canadian Northwest Mounted Police [today the RCMP] have captured criminals by means of aeroplane patrols. » (p.146)
Conclusion
The Manchester Guardian stated, on June 16th 1919 : « […] As far as can be foreseen, the future of air transport over the Atlantic is not for the aeroplane. It may be used many times for personal feats of daring. But to make the aeroplane safe enough for business use on such sea routes we should have to have all the cyclones of the Atlantic marked on the chart, and their progress marked in from hour to hour. »(p.169)
Title : Our Transatlantic Flight
Authors : Sir John Alcock and Sir Arthur Whitten Brown
The CLP5 semi-official stamp was issued on October 1st,1924 and put on airmail covers for the first airmail flight planned from Estevan, Saskatchewan to Winnipeg, Manitoba. What initially seemed to be a publicity stunt toward the use of airmail was instead a marketing operation planned by two promoters of a local industry, coal mining.
The Estevan to Winnipeg flight promoter and his associate had personal interests in the Eureka Coal and Brick mining company. On the back cover, we even have a commercial invitation: « Buy Estevan Brick ».
The pilot, E.A.Alton took-off from Estevan under nice weather on the morning of October 1st,1924 and headed east toward Winnipeg. He was supposed to do a stopover in Brandon, to refuel, but engine problems forced him to land in a field in Bienfait. During the landing, the wheels hit hidden rocks and the aircraft was wrecked.
The pilot quickly transferred the mail to the Bienfait Post Office where it was put on the Souris train to Winnipeg. The mail arrived late but on the same day at destination.
December 2013. Time for retirement had come. On my last working shift as a flight service specialist (FSS), I was able to share good memories of the past experiences as a Transport Canada and later Nav Canada employee. A shift supervisor had bought an excellent chocolate cake which was rapidly taken care of by the employees.
The next year, during an official retirement party including two other retirees, the Nav Canada flight information center (FIC) employees in Quebec City (CYQB) presented us with several gifts. I used the gift certificates to book a helicopter ride.
The pilot headed towards the Quebec Bridge then followed the St-Lawrence Seaway to Old Quebec. He then flew towards the Davie shipyard, Île d’Orléans, the Montmorency falls and then returned to the Quebec Jean-Lesage international airport. During the flight, we were able to witness the arrival of the Queen Mary II cruise ship in Old Quebec. Here are some pictures that I took during the flight:
I hope you liked the real life stories as pilot, flight instructor, Transport Canada student and flight service specialist in Inukjuak, Rouyn-Noranda, Iqaluit and Quebec City, as well as FSS for Nav Canada at the flight information center in Quebec City. I have included all the stories and photos on my web site www.francoisouellet.ca , in the following “real life stories” sections:
There were naturally many more stories that would have deserved to be written but, due to their particular nature, those stories had to stay confidential.
Thanks for the encouragements and comments shared in person or via electronic communication.
N.B.: All the articles published on the web site https://francoisouellet.ca/en/ are under copyright protection. All rights reserved. Thanks for your understanding.
The Nav Canada flight service specialists (FSS) working at the flight information center (FIC) at the Quebec Jean-Lesage international airport (CYQB) regularly receive telephone calls from hot air balloon pilots preparing their next flight. Actual and forecasted wind conditions are important, be it on the ground or in the air. But the FSS must also take into account the slightest possibility of a rain shower that would wet the balloon’s envelope, the variation in the convection according to the time of the day which would then affect the winds, the local effects, etc.
Although it is interesting to brief a hot air balloon pilot on the telephone, it is far better to witness their activity when getting ready for a flight. And the effect is even more striking when you position yourself in the middle of a field where more than a hundred hot air balloons lift altogether.
Summer 2012. A beautiful day was expected in St-Jean-sur-Richelieu. Blue sky and calm winds were forecasted for the evening. There would certainly be photo opportunities (Canon 5D MKII).
The field where the balloons were being prepared was fenced, but there were here and there openings and it seemed possible to enter the area without attracting too much attention. I made an attempt and could rapidly live the frenzy associated with the preparation and launch of more than one hundred hot air balloons.
The balloons progressively took shape and it became possible to see their designs and superb colours. Each team was taking care of the last details that ensure a synchronized launch when the signal would be given. The organizer eventually gave the go ahead signal and the hot air balloons all lifted up within a very short time span. This was a magnificent show!
Few years earlier, during summer 2005, a hot air balloon had flown over our house in Quebec City at about one hundred feet. This was not a normal situation to witness that balloon slowly lose altitude and get closer to electrical wires. I had taken my bike and followed the balloon since it became obvious that the pilot was trying to land, possibly short of propane gas.
The pilot did not have an easy task, flying low over the city streets, close to the wires and other obstacles. The passengers must have been wondering what would be the issue of that flight. Arriving near a school, the pilot had seen a small parking lot and tried to land there, avoiding the church steeple on the other side of the street.
We were few citizens to hang to the basket and immobilize it while the balloon’s envelope was slowly deflating. I was able to take a shot of that unusual balloon’s approach…
On a stormy summer day, Air Canada called the Nav Canada flight information center (FIC) at the Quebec Jean-Lesage international airport (CYQB) on the Montreal frequency. The pilot was flying an Airbus and was about to take-off from the Montreal Pierre-Elliott-Trudeau international airport to Halifax, but there was violent weather that had to be avoided.
Normally, big airlines have their own briefing and flight planning services. However, rapidly changing weather sometimes requires last minute adjustments. In the case of the Air Canada flight, severe thunderstorms forbid a direct path from Montreal to Halifax. The pilot was looking for the best option: go around the thunderstorms by flying north over Mont-Joli then eastward to Halifax or fly southward to United States then head east to Halifax.
Both solutions were possible but the objective was to pick the route that would diminish the pilot’s chances to have to divert to an alternate airport.
Radar imagery became the essential tool to propose a solution. Knowing the time lapse between two images, it was possible to evaluate the weather system’s speed. By calculating what was the distance left for the system to arrive in Halifax, and knowing the system’s speed, the flight service specialist (FSS) was able to estimate as precisely as possible the time when the thunderstorms would move over the destination airport.
The pilot having calculated the estimated time of arrival to Halifax for both the south and north routes, and now knowing at what time the weather system would be over Halifax, he understood that the best option was the southern route through United States. If there was no last minute modification in the system’s speed, he would be able to land in Halifax between twenty and thirty minutes before the first thunderstorm cells arrive over the airport.
It is fairly uncommon to receive an official feedback from the pilot of a big company like Air Canada. But the next day, surprising the flight service specialist (FSS), the pilot called back, presenting himself as the one who had made a flight from Montreal to Halifax the precedent day. He wanted to thank the FSS who had helped him in his decision making since, as he said it, the route via the United States had been a success and he was able to land his Airbus thirty minutes before the arrival of the thunderstorms. That kind of call certainly helps any employee to start a working day on the good foot…!
Around 1996, during the summer, an Air Canada DC-9 captain visited the Transport Canada flight service station in Québec City (CYQB) to receive a last minute briefing on the weather conditions between Quebec and Toronto.
All the passengers were already on board, but the captain had noticed a rapid change in the size of thunderstorms approaching the Québec City airport. Wishing to make the best decision, he requested the latest information on the approaching line of thunderstorms before proceeding with the takeoff.
The weather radar and satellite pictures showed a wall of convective cells that a DC-9 would not be able to go through. It would not fly high enough nor be able to go around the system unless it made a detour through Val-d’Or to the north or the Tennessee to the south.
The captain already knew the consequences of his decision. He nonetheless took the phone and called Air Canada’s dispatch in Toronto, announcing that he would not leave Quebec until the weather was acceptable. He could envision the missed transfers in Toronto for most of his passengers, and their bad mood in face of the lengthy delays he expected in Québec City.
Nevertheless, his decision was made and he left the flight service station satisfied. He knew very well that a line of heavy thunderstorms had often been the cause of accidents and that no aircraft, whatever the size, was safe when dealing with a wall of severe thunderstorms.
The flight service specialists (FSS) were happy with the captain’s decision since, throughout the years, the FSS often witnessed far less commendable behaviour from pilots of all categories. Judgment is the capacity to evaluate consequences, and it is not given to everybody.
April 2013, at the Nav Canada Flight Information Center (FIC) in Québec City. This morning’s meterological forecasts indicate the possibility of dust devils. This type of obstacle to visibility is rare. The pilots call the flight service specialists (FSS) to know what “PO” means on the weather charts.
In spite of the calm winds and blue sky all over southern Quebec, the weather conditions can give birth to local wind shears. If they lift sand, dust or other small particles, those wind shears will become visible and cause dust devils five to ten meters in diameter.
A pilot would have to be unlucky to cross a rare dust devil. However, I remember an event I witnessed thirty years ago while I was working at the Transport Canada Rouyn-Noranda flight service station.
On a hot summer day, an aircraft landed in Rouyn-Noranda after a cross-country flight from Montreal. The pilot was making a short stopover to have his logbook stamped at the flight service station. The weather conditions were ideal at the airport: dry air, calm winds and a cloudless sky.
Once his run-up was completed on the taxiway, the pilot slowly headed for the runway 26 threshold. Once aligned and ready for take-off, he made the last few adjustments.
Few seconds later, the flight service specialists heard an emergency locater transmitter signal. Looking again at the runway, they saw that the aircraft was still on the threshold, but upside down.
A strong windshear had overturned the single-engine aircraft. The airport wind speed indicator being located farther away from the threshold only indicated calm winds.
The souvenir of this story reminded me that nature can always surprise the best prepared pilot. I imagine that this event shocked the student pilot as he tried, like us, to figure out what had just happened. I do hope that this adventure did not discourage him from flying.
During the September 11th 2001 crisis, the Canadian sky belonged, for a short period, to the military. The latter had taken the decision that every aircraft that had not taken-off yet had to stay on the ground, and those which were airborne had to expedite the landing.
There were a few exceptions for medical evacuations, but those flights were tightly monitored. All air traffic services units communicated with aircrafts in flight and agencies on the ground to advise them of the new rules now in place.
Generally speaking, regardless of the initial surprise, all pilots with whom the Transport Canada flight service specialists (FSS) in Quebec City had talked, through their multiple frequencies, offered no resistance.
But I remember the case of a pilot flying a twin-engine aircraft over the Laurentides region to whom the order of landing as soon as possible had been given. He refused to obey since it was out of the question for him to lose money on already booked charter flights, especially on a beautiful day.
The flight service specialists could understand his frustration. Nonetheless, it was not a good time to debate. It was, for all air traffic services units involved, a particularly busy day and nobody had extra time to argue at length about a request.
The message was repeated one more time. In view of his refusal to obey, NORAD (North American Aerospace Defense Command) was contacted. The reply came back quickly and the pilot was given two choices: either he landed or an CF-18 fighter jet would be launched to take care of the situation.
No need to add anything else. The pilot complied immediately.