Airborne from the Isafjordur airport (BIIS) In Iceland with Microsoft Flight Simulator.
The third leg of the round-the-world flight simulation begins with a departure from Isafjordur (BIIS) in Iceland and ends at Vagar airport (EKVG) in the Faroe Islands, an autonomous archipelago belonging to the Kingdom of Denmark.
The departure from Isafjordur faces a mountain. You can see the shadows on the ground. But as visibility is perfect, this is no problem at all, as long as the rate of climb is sufficient.
Virtual flight BIIS EGVK
The Cessna Citation Longitude is airborne from the Isafjordur airport (BIIS) in Iceland with Microsoft Flight Simulator.
A left turn over the superb Icelandic landscape establishes the Cessna Citation Longitude on course for the Faroe Islands. The FMSensures that the aircraft will stay on course. But it’s important to remain vigilant: there’s a lot of other equipment that can cause surprises along the way.
The Cessna Citation is climbing slowly over Iceland.
The climb continues over a magnificent landscape. There’s no turbulence today; if there were, the flight simulator would make sure the plane was harder to control, even for the autopilot. I set the virtual flight to observe real air traffic during the flight, but the route between Iceland and the Faroe Islands is off the most popular routes, so it’s normal not to encounter too many aircrafts.
The Cessna Citation Longitude is heading to the Vagar airport (EKVG) in Feroe Islands
We are now established at our cruising altitude, leaving Iceland’s eastern border to fly over the Atlantic Ocean.
Visual approach for runway 12 at the Vagar airport (EKVG) Feroe Islands
We disconnect the autopilot to give us a free hand on the visual approach to Vagar (EKVG) airport. A small white dot, the lights of runway 12, can be seen straight ahead in the distance. The landing gear is down, as are the flaps, and the speed has stabilized at around 140 knots for the moment.
The Cessna Citation is on long final for runway 12 of the Vagar airport (EKVG) Faroe Islands
It’s an ideal time to arrive in the Faroe Islands, with the setting sun coloring all the surrounding clouds.
The Citation Longitude on visual approach to runway 12 at the Vagar airport (EKVG)
Runway 12 is visible on the far right in the photo above. The uneven cloud cover sometimes blocks the view of the airport for a few seconds, but the wind quickly blows the clouds away, preventing a missed approach. Virtual weather ensures a constant renewal of weather conditions.
The Cessna Citation exits runway 12 at the Vagar airport (EKVG) in Faroe Islands with Microsoft Flight Simulator
Landing is trouble-free, as the Vagar runway is long enough (5902 x 98 feet) to accommodate such a private jet.
Some 53,000 people lived in the Faroe Islands as of 2021. One of the most popular activities is bird and plant watching. To make it easier for residents and tourists to get around, tunnels have been built between some of the archipelago’s 18 islands.
The fourth leg of the round-the-world virtual flight will take place between Vagar and Ivalo (EFIV) in Finland. This is Finland’s northernmost airport.
Climbing from Iqaluit (CYFB) to Kangerlussuaq (BGSF)
For this second leg of the round-the-world flight simulation, the aircraft departs from Iqaluit (CYFB) in appalling weather conditions, but soon find itself above cloud and approaching an area of high pressure. The sky becomes increasingly clear as I approach runway 09 Kangerlussuaq (BGSF) in Greenland.
Virtual flights CYFB BGSF BIIS
The map shows the planned itinerary: departure from Iqaluit (CYFB), stopover in Kangerlussuaq (BGSF) and arrival at destination in Iceland, at Isafjordur airport (BIIS).
Cessna Citation Longitude on the final approach for the Kangerlussuaq virtual airport (BGSF)
Above, the approach to runway 09. You really need to be well prepared for a destination like BGSF. If the pilot arrives after the tower is closed, the fines are very steep. You can generally expect a little mechanical turbulence on the approach to Runway 09, as the mountains on either side of the aircraft change the airflow.
When I worked at the Iqaluit Flight Service Station (CYFB), many pilots would come up to the tower to plan their flight to BGSF. The most frequent problem was the closing time of the control tower in Kangerlussuaq. They knew that a hefty fine awaited them if they arrived late, often due to stronger-than-expected winds or a departure time that was too tight from Iqaluit. Most of the time, they chose to sleep in Iqaluit and leave the next day, rather than force the issue and end up with a $1500.00 bill to pay.
We also had pilots ferrying single-engine planes over the ocean from Europe to America. In this case, the weather had to be excellent, and the captain had to have the necessary equipment on board to attempt (and I do mean attempt) to survive in the ocean in the event of engine failure.
Cessna Longitude parked at Kangerlussuaq (BGSF)
Above, a partial view of Kangerlussuaq’s virtual airport (BGSF), with the Cessna Citation Longitude at a standstill. On the other side of the runway (invisible here), the airport receives military aircraft.
Climbing from (BGSF) Kangerlussuaq to (BIIS) Isafjordur
The next day, after a stopover in Kangerlussuaq, it’s time to continue on to Isafjordur. Take-off is on runway 27. The pitot tube heating system and icing protection are activated before entering the cloud layer.
Airborne from the Kangerlussuaq (BGSF) airport
Flying in real weather makes for unexpected screenshots.
The Cessna Longitude arrives over Iceland in flight simulation
Above, the relief of Iceland shortly before arrival at Isafjordur airport (BIIS). As expected, the sky is clear.
Approaching Isafjordur (BIIS) with the Asobo Cessna Citation Longitude
The approach to Isafjorduris demanding, especially when flying a jet like the Cessna Citation Longitude. You have to save extra speed in the sharp left turn to avoid stalling. I made the turn downhill at 160 knots to get to the runway threshold at the right height. Towards the end of the approach, as the angle of the turn decreases, you immediately reduce speed to around 135 knots.
The Cessna Citation Longitude exits the runway at the Isafjordur virtual airport (BIIS)
Contrary to real life, it is difficult to have a constant view on a runway when doing a virtual approach in a steep turn. A flight simmer would need 3D glasses to quickly look at the runway and then check the instruments. After two unsuccessful attempts where I found myself a little too high above the runway threshold, I nonetheless managed to land. The instrument panel indicated, however, that the brakes worked pretty hard to slow down the plane, which didn’t really surprise me. There are more relaxing approaches…
The next leg on this trip around the world will be a departure from Isafjordur to Vagar (EKVG) in the Feroe Islands.
The flight simulation with Microsoft Flight Simulator lets you fly over the planet like never before from the comfort of your own home. As airports around the world transmit weather observations at all times, it’s possible to import this data into the flight simulator and fly virtually in the real weather conditions reported around the globe.
This data enhances the feeling of reality for the virtual pilot, but at the same time complicates his task, as he has to take into account the presence of thunderstorms and icing, surface and upper-level winds, changes in cloud cover, visibility, pressure, and so on.
Today’s virtual pilot must also anticipate that failures of all kinds may affect the flight, especially if he or she owns a high-quality virtual aircraft. The engine(s) may fail, a structural problem may affect the aircraft’s controls and navigation equipment may cease to function. Good planning is essential, just as in real life. And since the brain doesn’t differentiate too much between the real and the virtual, there’s plenty of fun to be had.
So, I’ve decided to fly around the world as a millionaire, at my own pace, i.e., using the types of aircraft that tempt me, and flying the routes that are of particular interest. All of this will be done in real weather, with all its joys and obstacles. I’ll be publishing one of these routes on my blog from time to time.
The initial route departs from Quebec’s Jean-Lesage airport (CYQB), passes through Goose Bay (CYYR), in the Canadian province of Newfoundland and Labrador, heads north to Kuujjuaq and ends in Iqaluit (CYFB).
Virtual Flight 2 will present a few photos of the Atlantic crossing from Iqaluit to Kangerlussuaq (BGSF) in Greenland, to Isafjordur (BIIS) in Iceland .
Isafjordur airport has a challenging approach. I don’t know if the Cessna Citation Longitude will be able to land there in one piece, but I intend to give it a try.
Virtual flight 1.
Virtual flights CYQB CYYR CYVP CYFB
Enroute from Quebec City (CYQB) to Goose Bay (CYYR)
Above, the setting sun illuminates the clouds and the Cessna Citation Longitude en route from Quebec City to Goose Bay. At high altitude, the pilot sets the altimeter to the standard atmospheric pressure of 29.92 inches of mercury. Since all the other pilots are doing the same, a safe separation between the aircraft is ensured.
Approaching the Kuujjuaq airport (CYVP) in Quebec.
The next day, the aircraft is seen approaching Kuujjuaq (CYVP) in Nunavik. The altimeter is set to the airport’s atmospheric pressure to reflect the correct height of the runways in relation to the aircraft. Near the airport, the autopilot is disconnected, and the approach is made manually and visually. The desired speed is around 135 knots for the final.
Departing Kuujjuaq airport (CYVP) with the Cessna Citation Longitude
Above, the jet takes off from Kuujjuaq bound for Iqaluit (CYFB) on Baffin Island in Nunavut.
Enroute to Iqaluit airport (CYFB)
The setting sun illuminates the aircraft’s windows. The approach to Iqaluit has begun. The descent is gradual, so as not to cause discomfort to the virtual passengers…
On final for runway 34 of the Iqaluit airport (CYFB)
Above, the aircraft is on final for runway 34 at Iqaluit (CYFB).
The yellow Iqaluit flight service station (FSS) in Iqaluit (CYFB)
The first leg of our virtual flight around the world ends in Iqaluit, the airport where I worked for two and a half years as Flight Service Specialist (FSS) in the yellow tower on the left of the photo.
Flight service specialists at work at the Iqaluit flight service station in 1989
Above, a photo of the interior of the Flight Service Station at the time. One FSS worked on arrivals and departures at the airport, while the other handled transatlantic flights between Europe and mainly the western USA.
« Passer par le Nord » (Northern Sea Route), by Isabelle Autissier and Érik Orsenna, is an essential book for the reader who wishes to learn more about the profound transformations brought on by global warming, with regards to geopolitical, economic and ecological issues in the Arctic.
The book is at the same time a lesson in geography, history, politics, ecology and economy. It will certainly captivate those who are interested in maritime traffic and the development of new maritime routes, as well as the race towards the appropriation and exploitation of the immense oil and gas resources of the North.
Book cover of “Passer par le Nord” by Isabelle Autissier and Érik Orsenna
In order to sustain the reader’s interest, several maps are included in the book. They are very useful when comes the time to better understand the history and different uses, past and present, of the seas, islands and territories like: Kara Sea, Barents Sea, Laptev Sea, Franz Josef Land, Novaya Zemlya, Aleutian Islands, New Siberian Islands, North Land, Wrangel, Bering Strait, Svalbard, Spitzberg, Oslo, Tromsö, Kirkenes, Murmansk, etc.
Some of the seaways of Russia, which are among the longest in the world, are equally presented: Ob, Yenisei, Lena and Kolyma.
The numbers talk for themselves: to go from Rotterdam to Yokohama, a ship must travel 20,600 kilometers when passing through the Suez Canal. Only 12,800 kilometers are needed when using the northeast passage along the Siberian coast and 11,800 kilometers when traveling across the pole in the absence of ice during summer (this new transpolar route could be usable as soon as 2025). The need of resources by China and India, associated with melting ice in the poles, are rapidly taking Siberia out of its isolation.
Important people
The reader will certainly be interested by the information on the people who played a significant role in the discovery and exploitation of seas, islands and lands bordering the Northeast maritime route. Here are few of those names: the Viking Otar, Willem Barents, Simon Dejnev, Vitus Bering, Peter the Great, Alexander Baranov, Ivan Veniaminov, Adolf Erik Nordenskjöld, Ada Blackjack, etc.
The first northern crossing from the Atlantic to the Pacific belongs to a Swedish named Adolf Erik Nordenskjöld in 1879. Thirty-six years (1915) were needed to witness the second complete crossing, this time by Russian icebreakers under the command of Boris Vilkitski.
The importance of icebreakers
Icebreakers are extremely important for Russia, so much for protecting its recognized sovereignty and defending its new territorial claims than for economic reasons (insure the usability of the Northeast Passage and the continuous exploitation of the oil and gas resources along the Siberian coast).
The United States must also build icebreakers, so much for geopolitical and economic reasons than to insure the protection of a growing number of cruise ships that are about to use the narrow and risky channels of the Arctic.
An obvious collaboration exists between Russia and Norway with regards to fishing in the Barents Sea and in the south of Svalbard, a sector rapidly becoming more strategic with the northern migration of several fish species caused by the climatic changes. Ecosystems are nonetheless in danger due to the rapidly warming waters and insufficient time to adapt.
What are the obstacles presented by the Barents Sea towards tankers, ships and platforms? First the fog, which can last for weeks, than the “lows” which destroy vessels and twist superstructures. Finally, freezing spray adds excessive weight and freezes every crank on ships and platforms. In the event of an accident caused by oil or gas exploitation, the extreme meteorological conditions will present very important challenges.
One note on Siberia
The exploitation of mineral resources in Siberia was initially made possible, under Lenin, through work camps (gulags), since there were no volunteers ready to exile themselves in that hostile region.
The authors suggest, for whoever is interested in Siberia, the soon to be published book by Éric Hoesli. He has already published, in 2006, a very well documented book on the Caucasus: À la conquête du Caucase.
Oslo: Tschudi and Aker Solutions
The authors present two Norwegian companies based in Oslo which deal with logistics at sea: TSCHUDI and Aker Solutions.
Back cover of the book ” Passer par le Nord ” by Isabelle Autissier and Érik Orsenna
Shtokman and Yuzhno-Tambeyskoye natural gas reserves
The reader will certainly appreciate the chapter on the “eldorados glacés” (iced eldorados) which develops on the Shtockman and Yuzhno-Tambeyskoyenatural gas reserves fields (the latter holds 25% of the world reserve of natural gas). There are numerous challenges with regards to the exploitation of those fields: investments of twenty billion dollars, a necessary alliance between Russia, France (TOTAL) and China (CNPC), gigantic infrastructures to be built, the stabilization of all installations using thousands of posts, a constant fight against ice, the construction of thirty tankers (among them sixteen icebreakers), and the obligation to use the Northern maritime route.
Global warming
The book covers at length the accumulated effects of military, industrial and commercial activities on animal life and the environment. The fragility of the Arctic is well demonstrated. The reader will be surprised by the extent of nuclear wastes spread around the Novaya Zemlya.
The global warming favors the migration of species northward, an increase in the number of fishing vessels in the Arctic and political tensions between nations related to the ownership of the zone located between 12 and 200 miles along the different coasts. The native species are losing ground to the profit of the invasive species.
“[My translation] The diminishing polar ice will favor an increase in the number of ships in the Arctic with the added risk of collisions and the emission of all kind of noises that disrupt animals and prevent them from feeding correctly and communicate properly between them or with their offspring. Seismic tests or low-frequency sonars used by fishermen and militaries are particularly devastating.” (p.203)
“With few exceptions (Norway, Japan, Iceland), the moratorium on whale hunting is respected. The official predation by Inuit and the Russian poaching are limited.” (p.203)
Map showing the links behind the accelerated warming of the Arctic (Source: http://arctic-news.blogspot.ca/2012/09/storm-enters-arctic-region.html)
Increase in extreme weather events
“[My translation] The diminishing pack ice will act on the oceanic currents, but also on the atmosphere by slowing down the higher jet streams. This phenomenon will favor an increase in extreme [weather] events (cold spells or heat waves, droughts or floods) at our mid-latitudes.”(p.219)
Response time when faced with an ecological disaster in the Arctic
The Bureau of Ocean Energy Management (USA) “[my translation] estimates that 61 000 barrels [of oil] would spill in the sea every day if a well exploded. The Shell Company indicates that it would need thirty-eight days to drill a relief well while it needed eighty-five in the Gulf of Mexico, infinitely more accessible and less dangerous. Admitting that it would show the same celerity as for Deepwater Horizon , which in itself would be a feat, more than 800 000 tons of oil would spill in the Arctic.
More likely, operating conditions in ice, fog and storms would prevent the realization of the work within only one summer. Once the polar night would set, a decision to let the well spill all winter would have to be taken, if not for many years in a row.” (p.229)
Methane
“[My translation] Methane has a greenhouse effect that is twenty-three time superior to that of the CO2, that is already presented as our worst enemy” (p.216)
“In the Laptev Sea, what looks like real fountains of several hundred of meters in diameter spew out methane. One can see the sea boil like if it was in a gigantic cauldron. 80% of surface waters and 50% of deep waters present methane concentrations varying from 8 to … 1 400 times the oceanic average!”(p.216)
Mammoth’s tusks poaching
There is a short passage in the book on the poaching of mammoth’s tusks buried in the ground on Liakhov Island. The operation is financed by Mafiosi. The tusks are carved then resold to Chinese collectors for a very good profit.
Global warming, and the thaw it provokes in Siberia, would indirectly protect the African elephant by allowing access to mammoth’s tusks. The new and important stock of ivory in Siberia drives the price down by increasing the offer, thus making the African elephant’s tusks less interesting financially.
Some names to remember
The Port of Kirkenes, in Norway, is one of the main ports of the new northern sea route. It has an ideal geographical position and its harbour is protected against storms. The city favors the development of the port. The efficiency of Norwegian employees is recognized. The Norwegians are used to deal with Russians, their immediate neighbours.
Murmansk, in Russia, is also expected to benefit from global warming. There are already dozens of mines in exploitation, with several of those mines producing rare earths which are vital for modern technology applications.
In the Arctic, the disappearance of the summer ice pack is expected between 2020 and 2030. The Northeast Passage could be accessible beyond the EEZ 200 miles, “which will favor Iceland “which could become a transport hub between America and Europe.”(p.218). “And it is said that some Beijing investors would be ready to offer 5 billion dollars to take control of the future Port of Reykjavik, the one that aims to be the hub of the North.” (p.245)
The Arctic Council
For a long time now, the Arctic has been a strategic area where numerous countries, among them few superpowers, claim an important part of the territory and resources. With the acceleration of the melting process, things get even more complicated.
In 1996, the Arctic Council was created to ease communications and reduce political tensions between the countries pretending to part of the Arctic territory and resources. These countries include Canada, Denmark, United States, Finland, Iceland, Norway, Sweden and Russia. Associations of indigenous population are also part of the group, but as “permanent members”.
Militarization of the North
The Cold War between Russia and United States forced the construction of the DEW line by Americans and Canadians, a line that was eventually replaced by the North Warning System.
Today, the militarization of the area still goes on: “[my translation] Russia multiplies the signs and acts of militarization in the zone. Military exercises (parachuting, air patrols), reconstruction of installations in all of the islands (Wrangel, New Siberian, Novaya Zemlya, Franz Josef Land), orders of numerous ships among them new generation submarines (attack submarines and missile launchers), a complete program for the upgrading of the Boulava missiles … The [Northern Fleet] underwater base, near Murmansk (Severomorsk), seems to be in a state of complete reactivation.”(p.238)
Russia fortifying bases in Arctic region (Source: Heritage.org)
The transpolar maritime route
Geographic map showing the potential northern maritime routes (Source: www.businessinsider.com)
The Northeast Passage maritime route along the Siberian coast will be favored until the ice pack has melted at the pole (expected for 2025 instead of 2060 initially forecasted). So, in 2025, a new transpolar maritime route will be available to ship-owners. They will then be able to decide if they avoid the Siberian coast and the associated administrative hassle while they save an additional one thousand kilometers for a route from Rotterdam to Yokohama.
For more articles on geopolitics on my web site, click on the following link : Geopolitics
