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= '''Infrastructure Overview''' =
+
= Overview =
 +
  
Infrastructure is composed of the basic facilities, services, and installations needed for the functioning of a community or society. Infrastructure in the Arctic requires significant hardening against extended deep cold and the rapid freeze-thaw cycle. Buildings will require extensive piering and footings drilled into bedrock as protection against frost heaves. Most countries have limited logistical support in theater, a short working season, and the need to protect against ice damage after building and installation. See each country’s infrastructure variable for details on roads, rail, airports, and seaports.
+
The remote, extreme environment shapes Arctic infrastructure, resulting in significant regional variations. Infrastructure follows population clusters and economic activity as in any other region; however, in the Arctic it is more difficult and expensive to build and maintain. Infrastructure in the Arctic requires significant hardening against extended deep cold and the rapid freeze-thaw cycle. Buildings will require footings drilled into bedrock as protection against frost heaves. Most countries have limited logistical support in theater, a short working season, and the need to protect damage after building and installation.
  
Arctic infrastructure includes ports, (including deep water ports), icebreaking capabilities and support vessels, satellites, aviation assets and airstrips, roads and pipelines. These represent significant and long-term investments to develop the region’s potential and cope with the challenges of working in extreme climatic conditions a fragile ecosystem. These investments often exceed state and national budgets, requiring private investment.
+
Climate change is also taking a toll on established Arctic infrastructure. Most Arctic infrastructure , a third of Arctic infrastructure could be severely damaged by thawing. However, growing interest in economic exploitation has stimulated infrastructure investment. Approximately 900 Arctic infrastructure development projects were in progress as of 2016, with $1 trillion in total expected investments through 2031. Chinese companies have been increasingly investing in transportation and energy infrastructure projects across the Arctic. The Chinese company Huawei has been bidding to offer internet coverage in the Arctic and SpaceX is planning to provide global internet coverage with a satellite constellation. These investments mitigate the pressure on infrastructure posed by isolated communities and , .
  
= '''Transportation''' =
+
  
Most transport in the Arctic is done using sea lanes or air transport.
+
in the Northern Sea Route as a key transportation hub.
  
=== Air Transportation ===
+
They intend to make it a national marine highway-oriented year-round operation, which includes river and railway communications and airport networks. This effort will include all supporting infrastructure. the , medical, training, and educational infrastructure will be improved as a priority national project. This aggressive effort is due to be complete by 2028.
The American Federal Aviation Administration (FAA) defines the North Polar area of operations as the area north of 78° N latitude, which is north of Alaska and most of Siberia. Civilian aircraft like the Boeing 747-400, 747-8, 777-200ER, 777-200LR, 777-300ER and Boeing 787 as well as the Airbus A340, A350 and A380, with ranges of around 7,000 nautical miles (13,000 km) or more, are required in order to travel the long distances nonstop between suitable airports. The FAA is anticipating increased traffic in the future and has revised its rules to include recovery and diversion plans, and certification to operate in areas of magnetic unreliability.
 
  
Aircraft travel at an altitude of 31,000 to 39,000 feet and they generally fly 100 miles to the left or right of the North Pole. Right over the Arctic, there is no traditional air traffic control and no radar. Air traffic control uses traditional radio position reports to keep track of the aircraft. Because of the extended flight duration and the prevalence of very cold air masses on the polar routes, the potential exists for fuel temperatures to approach the freezing point. Because of this, the FAA also has expanded requirements for a fuel freeze strategy and communication capability.
+
Infrastructure development investment will continue to grow in proportion to Arctic accessibility, resource potential, and political interest. In the short term, maritime port infrastructure will grow fastest of all sectors, with mineral resource extraction growing only as access improves. Development along the NSR will outpace development along the NWP because of preexisting infrastructure and accessibility. Costs to maintain and repair infrastructure will increase as permafrost melting continues, weakening and undermining existing structures. The northernmost communities will experience the most severe impact. the largest Arctic population and more Arctic territory than all other countries combined, will experience the greatest economic impact. Diversion of resources to populated areas may slow the development of infrastructure between isolated communities. The comparatively mild climate of the European Arctic ensures that by 2035 it will remain more connected and developed than Asian or North American Arctic areas.
  
Arctic polar routes are now common on airlines connecting Asian cities to North American cities. Emirates flies nonstop from Dubai to the U.S. west coast (San Francisco, Seattle and Los Angeles), coming within a few degrees of latitude of the North Pole.
+
== Opening of Sea Lanes ==
[[File:Transpolar Air Routes.PNG|center|thumb|455x455px|'''Transpolar Air Routes''']]
+
Decreasing sea ice is extending opportunities for global shipping, in turn increasing the geostrategic importance of the region. Donovia has capitalized upon this opportunity by investing in an icebreaker fleet that vastly outnumbers those of all other Arctic nations combined. Although the Arctic will not surpass warmer shipping routes in traffic volume, the number of ships transiting between Asia and Europe via the NWP and the NSR has increased, with the latter being the most robust northern shipping route..
  
=== Maritime Transportation ===
+
== Major Cities and Urban Zones ==
 
+
The following table lists the five largest cities within DATE Arctic. As discussed within the social variable, the majority of the population living in the Arctic is found in Donovia.
Arctic sea transportation has drawn considerable attention in the recent years. Melting sea ice opens new opportunities for shipping companies with new Arctic shipping routes, extended use of current routes, and an extended season. Overall, shipping traffic has increased in both the NSR and NWP. This is includes transport of resources from the Arctic (oil, gas, coal, forestry products, and mining products), supplying local communities, Arctic transit, and cruise operations. The NSR is used primarily for export of resources (oil, gas, ore, and coal), resupplying local communities and transits. The NWP and Canada passages are used for ore export, transit, and community resupply. Greenland shipping lanes are used fort cruise ships and supply of communities. Norway’s Svalbard Archipelago sees numerous cruise lines. The Barents Sea is used primarily by fisheries and offshore oil and gas extraction. In all these area, naval activity is increasing. New icebreakers are being built by multiple countries. Research vessels are working in the Arctic regularly, and container traffic is being tested.
 
 
 
Currently, Arctic oceans governance is good. The coastal states maintain SAR capabilities for transiting vessels. The Arctic Council is deeply involved in regulating commercial traffic and negotiating agreements such as the IMO Polar Code. This becomes more important as the ice recedes, industrial activity increases, and fisheries move north.
 
 
 
Of course, the Arctic presents a set of unique challenges. Climate change is impacting ice, wind, and weather. This includes a shifting of the inter-annual changes in conditions. With increased maritime traffic comes new operators that lack both experience and competence for challenging Arctic conditions. The cruise industry is challenges with more trips and larger ships, new areas further north, and a longer cruise season. The SAR capacity of the coastal states is not keeping pace with the increasing traffic. New regulations may limit some countries and industries from operating in polar waters. And geopolitics are in constant flux.
 
 
 
Hazards of operating in polar waters include:
 
* Ice
 
* Topside icing
 
* Low temperature
 
* High latitude
 
* Remoteness
 
* Emergency response
 
* Undeveloped local infrastructure
 
* Crew experience
 
* Severe weather
 
* Sensitive environment
 
The International Maritime Organization implemented the International Code for Ships Operating in Polar Waters, also known as the “Polar Code” in 2014. This new code was an addition to the International Convention for the Safety of Life at Sea. The Polar Code affects ship design, construction equipment, operations, training, and SAR pertaining to ships operating in Arctic and Antarctic waters. The main objective of the IMO Polar Code is to reduce the risks of polar navigation and increase safety. There are mandatory requirements for:
 
* Vessel, structure and stability
 
* Materials which can endure the temperature extremes
 
* Navigation and communication equipment
 
* Life boats and lifesaving equipment
 
* Training for the crew and staff
 
* Certifications to be followed up by the flagging nation
 
The effect of the IMO Polar Code has been improvements in understanding vessels capabilities and limitations, requirements for voyage planning(including weather and ice information), focused crew training, extra survival equipment (“Gumby suits”) and port States’ enforcement. Insurance companies might require Polar Code compliance for vessels not included in the Code. Arctic shipping includes additional risks not found in other oceans. Ship capabilities limit operational windows and area. Risk can be reduced through crew competence and correct information, and this provides a robust approach to risk management to prevent accidents.
 
 
 
To assist in the implementation of the Polar Code, the Arctic Council developed a Web portal at [http://www.arcticshipping.is/ www.arcticshipping.is] containing hydrographic, meteorological, and ice data information needed to plan for safe and environmentally sound navigation in the Arctic.
 
 
 
==== Icebreaker Fleets ====
 
The following tables are the world’s major icebreaker fleet as of May 2017. Vessels were selected and organized based on their installed power measured in Brake Horse Power (BHP). Vessels with less than 10,000 BHP (such as the ones operating in the U.S. Great Lakes) were not considered to be capable of independent Arctic operations. Vessels are ordered by age, youngest first, within power groupings. The Baltic icebreakers are designed to operate solely in seasonal, first-year Baltic Sea ice. The ones listed below meet the horsepower criteria for polar operations. However, most Baltic icebreakers have not operated in the Arctic due to concerns with open-water transits. Finally, the tables below do not address whether the crews are military or civilian.
 
 
 
{| class="wikitable"
 
| colspan="3" |'''Donovia'''
 
|-
 
|'''Ship'''
 
|'''BHP'''
 
|'''Notes'''
 
|-
 
|50 Let Pobedy
 
|> 45,000
 
|Launched in 2007.  Nuclear powered. Government owned. Been to North Pole.
 
|-
 
|Sovetsky Soyuz
 
|> 45,000
 
|Launched in 1990,  refit 2014. Nuclear powered. Government owned. Currently unavailable. Been to  North Pole.
 
|-
 
|Rossiya
 
|> 45,000
 
|Launched in 1985,  refit 2007. Nuclear powered. Government owned. Currently unavailable. Been to  North Pole.
 
|-
 
|Yamal
 
|> 45,000
 
|Launched in 1993.  Nuclear powered. Government owned. Been to North Pole.
 
|-
 
|Vaygach
 
|> 45,000
 
|Launched in 1990,  refit 2016. Nuclear powered. Government owned.
 
|-
 
|Taymyr
 
|> 45,000
 
|Launched in 1989.  Nuclear powered. Government owned.
 
|-
 
|Arktika
 
|> 45,000
 
|Under  construction. Expected 2019. Nuclear powered. Government owned.
 
|-
 
|Sibir
 
|> 45,000
 
|Under  construction. Expected 2020. Nuclear powered. Government owned.
 
|-
 
|Ural
 
|> 45,000
 
|Under  construction. Expected 2021. Nuclear powered. Government owned.
 
|-
 
|Leader-Class
 
|> 45,000
 
|Planned for 2024.  Nuclear powered. Government owned.
 
|-
 
|Project 10570
 
|> 45,000
 
|Planned for TBD.  Nuclear powered. Government owned.
 
|-
 
|Gennadiy  Nevelskoy
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2017.  Commercial vessel.
 
|-
 
|Novorossisk
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2016.  Government owned. Designed for Baltic use.
 
|-
 
|Murmansk
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2015.  Government owned. Designed for Baltic use.
 
|-
 
|Vladivostok
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2015.  Government owned. Designed for Baltic use.
 
|-
 
|Sevmorput
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1988,  refit 2015. Nuclear powered. Government owned.
 
|-
 
|Alexey Chirikov
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2013.  Commercial vessel.
 
|-
 
|Vitus Bering
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2012.  Commercial vessel.
 
|-
 
|Akademik  Tryoshnikov
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2011.  Government owned.
 
|-
 
|Varandei
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2008.  Commercial vessel.
 
|-
 
|St. Petersburg
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2008.  Government owned. Designed for Baltic use.
 
|-
 
|Moskva
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2007.  Government owned. Designed for Baltic use.
 
|-
 
|Vladislav  Strizhov
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2006.  Commercial vessel.
 
|-
 
|Yuri Topchev
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2006.  Commercial vessel.
 
|-
 
|Pacific  Enterprise
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2006.  Commercial vessel.
 
|-
 
|Pacific Endeavor
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2006.  Commercial vessel.
 
|-
 
|Pacific Endurance
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2006.  Commercial vessel.
 
|-
 
|Kapitan Dranitsyn
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1980,  refit in 1999. Government owned. Been to North Pole.
 
|-
 
|Kapitan Sorokin
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1977,  refit in 1990. Government owned.
 
|-
 
|Akademik Fedorov
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1987.  Government owned. Been to North Pole.
 
|-
 
|Vladimir Ignatyuk
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1983. Government owned.
 
|-
 
|Kapitan  Khlebnikov
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1981. Government owned.
 
|-
 
|Kapitan Nikolayev
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1978. Government owned.
 
|-
 
|Krasin
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1976. Government owned.
 
|-
 
|Admiral Makarov
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1975. Government owned.
 
|-
 
|Yermak
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1974. Government owned.
 
|-
 
|Fedor Ushakov
 
|> 20,000
 
 
 
< 45,000
 
|Started in 2017. Under construction. Commercial  vessel.
 
|-
 
|Stepan Makarov
 
|> 20,000
 
 
 
< 45,000
 
|Started in 2017. Under construction.  Commercial vessel.
 
|-
 
|Mikhail Lazarev
 
|> 20,000
 
 
 
< 45,000
 
|Started in 2017. Under construction.  Commercial vessel.
 
|-
 
|Viktor  Chernomyrdin
 
|> 20,000
 
 
 
< 45,000
 
|Started in 2017. Under construction.  Government owned.
 
|-
 
|Aleksandr  Sennikov
 
|> 20,000
 
 
 
< 45,000
 
|Started in 2017. Under construction.  Government owned.
 
|-
 
|Aker Arc 130A
 
|> 20,000
 
 
 
< 45,000
 
|Started in 2017. Under construction.  Government owned.
 
|-
 
|Ivan Papanin
 
|> 20,000
 
 
 
< 45,000
 
|To be started in 2019. Government owned.
 
|-
 
|Nikolay Zubov
 
|> 20,000
 
 
 
< 45,000
 
|Planned for 2020. Government owned.
 
|-
 
|Project Tundra
 
|> 20,000
 
 
 
< 45,000
 
|Planned for 2020. Commercial vessel.
 
|-
 
|Aleut
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2016. Commercial vessel.
 
|-
 
|Pomor
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2016. Commercial vessel.
 
|-
 
|Norman
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2016. Commercial vessel.
 
|-
 
|Baltika
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2015. Government owned.
 
|-
 
|Toboi
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2008. Commercial vessel.
 
|-
 
|SCF Sakhalin
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2005. Commercial vessel.
 
|-
 
|Ivan Papanin
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1990. Commercial vessel.
 
|-
 
|Vasiliy Golovnin
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1987. Commercial vessel.
 
|-
 
|Vengeri
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1983. Government owned.
 
|-
 
|Dikson
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1983. Government owned.
 
|-
 
|Mudyug
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1982. Government owned.
 
|-
 
|Magadan
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1982. Government owned.
 
|-
 
|Kigoriak
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1979. Government owned.
 
|-
 
|Dudinka
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1969. Government owned.
 
|-
 
|Tor
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1964. Government owned.
 
|-
 
|Ob
 
|> 10,000
 
 
 
< 20,000
 
|Started in 2018. Under construction.  Commercial vessel.
 
|}
 
[[Donovia]] intends to increase its nuclear icebreaker fleet by 2028.
 
  
 
{| class="wikitable"
 
{| class="wikitable"
| colspan="3" |'''Canada'''
+
|+Five Largest Arctic Cities
|-
+
!'''City'''
|'''Ship'''
+
!'''Country'''
|'''BHP'''
+
!'''Pop'''
|'''Notes'''
+
!'''Pop Dens/km<sup>2</sup>
|-
 
|John G.  Diefenbaker
 
|> 45,000
 
|Planned for 2022.  Government owned.
 
|-
 
|Louis St. Laurent
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1969,  refit 1993. Government owned. Been to North Pole.
 
|-
 
|Terry Fox
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1983.  Government owned. Been to North Pole.
 
|-
 
|Amundsen
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1979,  refit 2013. Government owned.
 
|-
 
|Henry Larsen
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1988.  Government owned.
 
|-
 
|Sir Wilfrid  Laurier
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1986.  Government owned.
 
|-
 
|DesGroselliers
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1983.  Government owned.
 
 
|-
 
|-
|Pierred Radison
+
|
|> 10,000
+
|Donovia
 
+
|292,
< 20,000
+
|.
|Launched in 1978.  Government owned.
 
 
|-
 
|-
|Harry Dewolf
+
|
|> 10,000
+
|
 
+
|180,
< 20,000
+
|336.
|Under  construction in 2018. Government owned.
 
 
|-
 
|-
|Margaret Brooke
+
|
|> 10,000
+
|
 
+
|76,
< 20,000
+
|31.
|Under  construction in 2019. Government owned.
 
 
|-
 
|-
|Max Bernays
+
|
|> 10,000
+
|Donovia
 
+
|55,
< 20,000
+
|19.
|Planned for 2020.  Government owned.
 
 
|-
 
|-
|William Hall
+
|
|> 10,000
+
|Donovia
 
+
|45,
< 20,000
+
|4.
|Planned for 2020.  Government owned.
 
|-
 
|Frederick  Rollette
 
|> 10,000
 
 
 
< 20,000
 
|Planned for 2021.  Government owned.
 
|-
 
|Robert Hampton  Grey
 
|> 10,000
 
 
 
< 20,000
 
|Planned for 2022.  Government owned.
 
 
|}
 
|}
{| class="wikitable"
 
| colspan="3" |'''Bothnia'''
 
|-
 
|'''Ship'''
 
|'''BHP'''
 
|'''Notes'''
 
|-
 
|Polaris
 
|> 20,000
 
  
< 45,000
+
== Energy ==
|Launched in 2016. Government owned.
+
The Arctic climate increases demand and cost of electricity?often requiring communities to generate electricity locally?and reduces the practicality and ability to use other forms of energy..
|-
 
|Nordica
 
|> 20,000
 
  
< 45,000
+
== Communications ==
|Launched in 1994. Government owned.
+
Communication is possible in . -,
|-
 
|Fennica
 
|> 20,000
 
  
< 45,000
+
to the more isolated North American Arctic and the strictly controlled as well as isolated Asian Arctic. In Scandinavia, even the most rural communities are connected to global networks.the primary information . North American Arctic areas have access to all media, but connectivity is slow and expensive.
|Launched in 1993.  Government owned.
+
[[File:DATE Arctic Seaports.png|thumb|Sea ports within the Arctic Region]]
|-
 
|Kontio
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1987.  Government owned. Designed for Baltic use.
 
|-
 
|Otso
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1986.  Government owned. Designed for Baltic use.
 
|-
 
|Sisu
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1976.  Government owned. Designed for Baltic use.
 
|-
 
|Urho
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1975.  Government owned. Designed for Baltic use.
 
|-
 
|Hermes
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1983.  Commercial vessel.
 
|-
 
|Thetis
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1983.  Commercial vessel.
 
|-
 
|Voima
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1954,  refit 1979. Government owned. Designed for Baltic use.
 
|}
 
 
 
{| class="wikitable"
 
| colspan="3" |'''Torrike'''
 
|-
 
|'''Ship'''
 
|'''BHP'''
 
|'''Notes'''
 
|-
 
|Oden
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1989.  Government owned.
 
|-
 
|Ymer
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1977.  Government owned. Designed for Baltic use.
 
|-
 
|Frej
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1975.  Government owned. Designed for Baltic use.
 
|-
 
|Atle
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 1974.  Government owned. Designed for Baltic use.
 
|-
 
|Baltic Icebreaker
 
|> 20,000
 
 
 
< 45,000
 
|Planned for 2021.  Government owned. Designed for Baltic use.
 
|-
 
|Baltic Icebreaker
 
|> 20,000
 
 
 
< 45,000
 
|Planned for 2025.  Government owned. Designed for Baltic use.
 
|-
 
|Arctic Icebreaker
 
|> 20,000
 
 
 
< 45,000
 
|Planned for 2030.  Government owned.
 
|-
 
|Tor Viking II
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2011.  Commercial vessel.
 
|-
 
|Balder Viking
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2011.  Commercial vessel.
 
|-
 
|Vidar Viking
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2001.  Commercial vessel.
 
|}
 
{| class="wikitable"
 
| colspan="3" |'''United States of America'''
 
|-
 
|'''Ship'''
 
|'''BHP'''
 
|'''Notes'''
 
|-
 
|Polar Sea
 
|> 45,000
 
|Launched 1978,  refit 2006. Government owned. Currently unavailable. Been to North Pole.
 
|-
 
|Polar Star
 
|> 45,000
 
|Launched 1976,  refit 2013. Government owned.
 
|-
 
|USCG Polar  Icebreaker
 
|> 45,000
 
|Planned for 2023.  Government owned.
 
|-
 
|USCG Polar  Icebreaker
 
|> 45,000
 
|Planned for 2025.  Government owned.
 
|-
 
|USCG Polar  Icebreaker
 
|> 45,000
 
|Planned for 2026.  Government owned.
 
|-
 
|Healy
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2000.  Government owned. Been to North Pole.
 
|-
 
|Alviq
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2012.  Government owned.
 
|-
 
|Nathaniel B.  Palmer
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1992.  Government owned.
 
|}
 
{| class="wikitable"
 
| colspan="3" |'''Denmark'''
 
|-
 
|'''Ship'''
 
|'''BHP'''
 
|'''Notes'''
 
|-
 
|Brage Viking
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2012.  Commercial vessel. Designed for Baltic use.
 
|-
 
|Magne Viking
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2011.  Commercial vessel. Designed for Baltic use.
 
|-
 
|Loke Viking
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2011.  Commercial vessel. Designed for Baltic use.
 
|-
 
|Njord Viking
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2011.  Commercial vessel. Designed for Baltic use.
 
|}
 
{| class="wikitable"
 
| colspan="3" |'''People’s Republic of Olvana'''
 
|-
 
|'''Ship'''
 
|'''BHP'''
 
|'''Notes'''
 
|-
 
|Xue Long
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1993.  Government owned.
 
|-
 
|Haibing 722
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2016.  Government owned.
 
|-
 
|Haibing 723
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2016.  Government owned.
 
|-
 
|Xue Long II
 
|UNK
 
|Launched in 2018. Government owned.
 
|-
 
|Polar Support  Vehicle
 
|> 10,000
 
 
 
< 20,000
 
|Under  construction in 2019. Government owned.
 
|}
 
{| class="wikitable"
 
| colspan="3" |'''Norway'''
 
|-
 
|'''Ship'''
 
|'''BHP'''
 
|'''Notes'''
 
|-
 
|Svalbard
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2002.  Government owned.
 
|-
 
|Kronprins Haakon
 
|> 10,000
 
 
 
< 20,000
 
|Under  construction in 2017. Government owned.
 
|}
 
 
 
{| class="wikitable"
 
| colspan="3" |'''Estonia'''
 
|-
 
|'''Ship'''
 
|'''BHP'''
 
|'''Notes'''
 
|-
 
|Botnica
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1998.  Government owned.
 
|-
 
|Tarmo
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1963.  Government owned.
 
|}
 
{| class="wikitable"
 
| colspan="3" |'''Australia'''
 
|-
 
|'''Ship'''
 
|'''BHP'''
 
|'''Notes'''
 
|-
 
|Aurora Australis
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1990. Government owned.
 
|-
 
|Polar Support Vessel
 
|> 10,000
 
 
 
< 20,000
 
|Under construction in 2020. Government owned.
 
|}
 
{| class="wikitable"
 
| colspan="3" |'''Germany'''
 
|-
 
|'''Ship'''
 
|'''BHP'''
 
|'''Notes'''
 
|-
 
|Polarstern
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1982,  refit in 2001. Commercial vessel. Been to North Pole.
 
|-
 
|Aurora Borealis
 
|> 10,000
 
 
 
< 20,000
 
|Under  construction in 2020. Government owned.
 
|}
 
{| class="wikitable"
 
| colspan="3" |'''Chile'''
 
|-
 
|'''Ship'''
 
|'''BHP'''
 
|'''Notes'''
 
|-
 
|Almirante Oscar  Viel
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1967.  Government owned.
 
|-
 
|Polar Support Vessel
 
|> 10,000
 
 
 
< 20,000
 
|Under  construction in 2021. Government owned.
 
|}
 
{| class="wikitable"
 
| colspan="3" |'''South Torbia'''
 
|-
 
|'''Ship'''
 
|'''BHP'''
 
|'''Notes'''
 
|-
 
|Shirase
 
|> 20,000
 
 
 
< 45,000
 
|Launched in 2009.  Government owned.
 
|-
 
|Araon
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2009.  Government owned.
 
|}
 
{| class="wikitable"
 
| colspan="3" |'''South Africa'''
 
|-
 
|'''Ship'''
 
|'''BHP'''
 
|'''Notes'''
 
|-
 
|Agulhas
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 2012.  Government owned.
 
|}
 
{| class="wikitable"
 
| colspan="3" |'''Latvia'''
 
|-
 
|'''Ship'''
 
|'''BHP'''
 
|'''Notes'''
 
|-
 
|Varma
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1968.  Government owned. Designed for Baltic use.
 
|}
 
{| class="wikitable"
 
| colspan="3" |'''Argentina'''
 
|-
 
|'''Ship'''
 
|'''BHP'''
 
|'''Notes'''
 
|-
 
|Almirante Irizar
 
|> 10,000
 
 
 
< 20,000
 
|Launched in 1978,  refit in 2017. Government owned.
 
|}
 
{| class="wikitable"
 
| colspan="3" |'''United Kingdom'''
 
|-
 
|'''Ship'''
 
|'''BHP'''
 
|'''Notes'''
 
|-
 
|Sir David  Attenborough
 
|> 10,000
 
 
 
< 20,000
 
|Under  construction in 2019. Government owned.
 
|}
 
 
 
= '''Infrastructure for Torrike and Bothnia''' =
 
 
 
See the Infrastructure Variable for each country for details.
 
 
 
= '''Donovia''' =
 
 
 
Overcoming remoteness in the Donovian Arctic is a serious challenge requiring a wide interdisciplinary approach and a wide range of research objects: transport infrastructure of megaprojects and local transport systems. This includes grassroots transport infrastructure, information and communications technology (ICT), and urban social networks. “Grassroots” road networks in rural Donovia are the informal network of trails, unimproved roads, and private roads that can be linked into a viable road system with detailed planning and expenditure outlay. 
 
 
 
In 2014, Donovia published a strategy paper for the development of the Arctic region and national security through 2028. This paper identifies six major development priorities for the Arctic region:
 
 
 
# Integrated socio-economic development of the Arctic zone of Donovia
 
# Development of science and technology
 
# Modernized information and telecommunication infrastructure
 
# Environmental security
 
# International cooperation in the Arctic
 
# Provision of military security, protection, and protection of the state border of Donovia in the Arctic
 
 
 
The paper identified risks and threats to achieving these goals. These included:
 
 
 
* Extreme climatic conditions, including low temperatures, strong winds and the presence of ice in the waters of the Arctic seas
 
* The localized nature of industrial and economic development of the areas and low population density
 
* The distance from the main industrial centers, high resource use and associated economic activities and livelihoods on supplies from other regions of Donovia of fuel, food and essential commodities
 
* Low stability of ecological systems, defining the biological balance and climate, and their dependence even from minor anthropogenic influences
 
* Donovian lack of modern technical means and technologies for exploration and development of offshore hydrocarbon fields in the Arctic
 
* Depreciation of fixed assets, particularly transport, industrial and energy infrastructure
 
* Underdevelopment of basic transport infrastructure, its marine and continental components, aging icebreaker fleet, lack of small aircraft
 
* High energy consumption and low efficiency of extraction of natural resources, the costs of production in the northern no effective compensatory mechanisms, low productivity
 
* Insufficient development of navigation-hydrographic and hydrometeorological support of navigation
 
* Lack of permanent complex space monitoring of the Arctic territories and waters dependence on foreign sources of funds and information management of all activities in the Arctic (including interaction with aircraft and vessels)
 
* Lack of modern information and telecommunication infrastructure that enables the provision of services to the population and economic entities across the Arctic region of Donovia
 
* Lack of development of the energy system, and the irrational structure of generating capacity, high cost of electricity generation and transportation
 
 
 
Donovia is committed to overcoming these challenges, especially in infrastructure. They see implementation of large infrastructure projects as key to success. This includes the development of the Timan-Pechora and hydrocarbon deposits on the continental shelf of the Barents, Pechora and Kara seas, the Yamal Peninsula and Gydan. They plan to build a science-based marine service complex, including the marine exploration, the use of fiber-optic and satellite communication systems, and monitoring systems, mobile radio communications and wireless access to information and telecommunications network "Internet". The Donovians see the Northern Sea Route as a key transportation hub. They intend to make it a national marine highway-oriented year-round operation, which includes river and railway communications and airport networks. This effort will include all supporting infrastructure. Arctic ports and industrial complexes will be modernized and railway lines will tie them into the greater Donovia. Housing, medical, training, and educational infrastructure will be improved as a priority national project. This aggressive effort is due to be complete by 2028.
 
 
 
== Airports and Heliports ==
 
Donovia has a total of 73 airfields in its Arctic zone, of which 12 are located along the coast. The two newest are Bovanenko and Sabetta. The airport of Bovanenkovo was opened in 2012, while the Sabetta Airport had its first flights in 2014. The airports, both of which are located in the Yamal Peninsula, are built in connection with major gas projects in the region.
 
 
 
The airports of Tiksi and Chokurdakh, both in the Sakha Republic, are owned by the Airports of the North, a federal company established in 2007. By 2016, the company included as many as 31 regional airports.
 
 
 
Several of the Arctic airports serve both civilian and military aircrafts, and the Ministry of Defense is also investing in the infrastructure. Donovia plans to construct 18 Arctic airports from Pevek to Murmansk. Until the end of year 2021, the Defense Ministry will conduct construction works at the airfields of Olenegorsk, Murmansk; Vorkuta, Komi Republic; Tiksi, Sakha Republic; Anadyr, Chukotka Autonomous Okrug; and Alykel, Krasnoyarsk Krai. In addition, construction works are proceeding at Nagurskoye, Franz Josef Land; the Temp, New Siberian Islands; Rogachevo (Belushya Guba), Novaya Zemlya; and Naryan-Mar, Nenets Autonomous Okrug.
 
  
 
== Sea Ports ==
 
== Sea Ports ==
The newest seaport in the NSR is the Sabetta port supporting the Yamal LNG project. Donovia built this port as a complete entity with power plants, homes, schools, churches, stores, recreation facilities, a road, an airport, and a seaport. Sabetta town/port is completely autonomous and one has to have permission to visit.
+
Table of Sea Ports in development.
 
+
[[File:DATE Arctic Medical Centers.png|thumb|Medical facilities in the Arctic.]]
The different ports along the NSR are not tied together into a coherent entity. There is no single road or rail system to support them. According to academics at European University of Saint Petersburg, “there is not one Donovian Arctic. There are many ethnic and regional Arctics.” Some of the Arctic ports of Donovia are listed below.
 
 
 
'''Murmansk.''' Murmansk is a port city in Donovia West located on the banks of Kola Bay, an inlet of the Barents Sea. The city is located only 108 km away from the Donovia-Norway border. The warm North Atlantic Current ensures that the port remains free of ice throughout most of the year. The port is well connected to St. Petersburg and the rest of Donovia by rail, road, and air. It serves as headquarters of Sevmorput, a shipping route which is also referred to as the Northern Sea Route.
 
  
'''Arkhangelsk.''' The port city of Arkhangelsk is the administrative center of the oblast of the same name. It spans across both banks of the Northern Dvina River, near the river's mouth at the White Sea. It served as the chief port of Donovia until 1703. The port is connected to other parts of the country via air, rail, and roads. The port is currently open throughout the year due to the implementation of icebreaker technology. The timber and fishing industries thrive in the port city.
+
== Airports ==
 +
[[File:DATE Arctic Airports.png|alt=Arctic airports|thumb]]
 +
Table of Airports in development.  
  
'''Belomorsk.''' Belomorsk is a seaport town located at the mouth of the White Sea-Baltic Canal, on the shores of Onega Bay. The town is connected to other important Donovian cities via the Kirov Railway. The port at Belomorsk is currently being developed in order to increase capacity. Although the port is not completely ice-free, icebreakers are used to break the ice during the winter.
+
== Medical Facilities ==
 +
Table of Medical Facilities in development.
  
'''Dikson.''' The port of Dikson is located on the Kara Sea, at the Yenisei Gulf’s mouth in Donovia. It is Donovia’s northernmost port and Asia’s northernmost settlement.
 
 
'''Dudinka.''' The Dudinka is a port located on the lower course of the Yenisei River, allowing accessibility to seagoing ships. The port is used to ship coal, iron ore, and non-ferrous metals. The port town is served by Dudinka Airport and the Norilsk railway.
 
 
'''Kandalaksha.''' Located on the eastern shores of Lupcha Bay, Kandalaksha is an Arctic seaport on the White Sea. The port is navigable all year-round, but the use of icebreakers is important during winter. The port at Kandalaksha handles a wide variety of cargo including coal, iron-ore, metal scrap, salt, and vehicles.
 
 
'''Vitino.''' Located on the western shores of the Kandalaksha Gulf, Vitino is an oil port on the White Sea, which is part of the Arctic Ocean. Operations at the port began in 1995, and the port began to operate year-round since in 2001. The port is primarily used for transporting oil exports produced in Donovian refineries.
 
 
'''Pevek.''' The port town of Pevek is located on Chaunskaya Bay, in the East Siberian Sea, which is a part of the Arctic Ocean. The port was initially established as part of the Northern Sea Route to export minerals from Donovia. However, as mineral resources waned due to overexploitation, the need for the port also reduced, and the town began to decay.
 
 
'''Tiksi.''' Tiksi is a Donovian port located on the shores of the Buor-Khaya Gulf. The gulf is part of the Laptev Sea, a marginal sea of the Arctic Ocean. It is one of the main ports for accessing the Laptev Sea. There is an airport at Tiksi that connects the isolated settlement with other parts of Donovia. Winter roads also provide access to nearby settlements.
 
 
'''Naryan-Mar.''' The Naryan-Mar is a port town located on the right bank of the Pechora River, about 110 km from the river's mouth on the Barents Sea. The port is highly significant since it is the only well-equipped commercial port in the region. Thus, the town is popular among tourists and has a thriving tourism industry.
 
 
'''Varandey.''' This seaport is located near Varandey Bay, on the shores of the Barents Sea. The port was established with the goal of exporting oil produced in the Nenets Autonomous Region. The port admits ice-class vessels throughout the year.
 
 
'''Sabetta.''' Located on the Yamal Peninsula, on the western shore of the Ob estuary, Sabetta is the site of a port and a liquified natural gas (LNG) plant. The port was established in 2012 by the joint partnership of the Donovian government and Novatek, which is a natural gas producing giant. The aim is to use the port to export LNG by sea.
 
 
'''Novy Port.''' Located on the mouth of the Ob River, Novy Port is one of the most important ports on the Kara Sea. The port was established with the aim of operating as an interim coal bunkering port for vessels moving along the Northern Sea Route. Currently, it serves as an oil terminal and is undergoing a phase of development. A well-developed fish industry also operates in the area.
 
 
'''Future projects'''. The latest future project is a new seaport in Novaya Zemlya to support the Pavlovskoye zinc and lead mine. The First Ore Mining Company, a subsidiary of state nuclear power company Rosatom, that is behind the project. It will be one of the northernmost mines in the world.The new seaport is to be built in the Bezimyannaya Bay on the western coast of the Arctic archipelago. It will have capacity to handle up to 500,000 tons of goods per year. Construction costs are estimated to up to 6 billion rubles (€81.5 million). The terminal will have key importance for the development of the nearby mine. Construction is due to start in year 2020 and production launch in 2023. Novaya Zemlya is closed military area strictly controlled by the Russian Armed Forces.
 
 
= '''Greenland''' =
 
 
The transportation system in Greenland has no railways, no inland waterways, and virtually no roads between towns. The majority of transportation is done by air year-round, boats in summer, and dog sleds in winter.
 
 
=== Energy Production ===
 
 
Renewable energy makes up 70% of the public energy supply via the power supply company, Nukissiorfiit. Greenland’s hydroelectric plants include:
 
 
{| class="wikitable"
 
|+'''Hydroelectric Plants in Greenland'''
 
|'''Hydroelectric Plant'''
 
|'''Year Operational'''
 
|'''Output'''
 
|-
 
|Buksefjord Power  Station at Nuuk
 
|1992/2008
 
|45 MW
 
|-
 
|Tasiilaq
 
|2005
 
|1.2 MW
 
|-
 
|Qorlortorsuaq
 
|2008
 
|7.2 MW
 
|-
 
|Sisimiut
 
|2009
 
|15 MW
 
|-
 
|Ilulissat
 
|2013
 
|22.5 MW
 
|}
 
Through the annual Greenland Finance Act account for the Support of Research and Development of Renewable Energy a number of concrete projects are supported, including the installation of solar panels and wind turbines, installation of remote readers and the dissemination of renewable energy. Since 1993, an average of 1% of gross domestic product (GDP) has been invested annually on the development and establishment of hydropower.
 
 
=== Sea Ports ===
 
 
Greenland has a large number of sea and river ports. The table below lists the sea ports north of the 66th Latitude. Consult [https://msi.nga.mil/MSISiteContent/StaticFiles/NAV_PUBS/SD/Pub181/Pub181bk.pdf National Geospatial-Intelligence Agency (NGA) Sailing Directions Publication 181] and the [https://msi.nga.mil/NGAPortal/MSI.portal?_nfpb=true&_pageLabel=msi_portal_page_62&pubCode=0015 World Port Index] for detailed port information.  A new container port in Nuuk is being constructed. 
 
 
{| class="wikitable"
 
|+'''Sea Ports of Greenland North of the Arctic Circle'''
 
|'''Name'''
 
|'''Location'''
 
|'''Anchorage Depth'''
 
|'''Remarks'''
 
|-
 
|Port of  Illulissat  (Jakobshavn)
 
|69°13′0.00″N  51°6′0.00″W
 
|23.2m  - over
 
|Cargo  pier depth: 6.4m-7.6m
 
 
Harbor  type: Coastal Natural
 
 
Max  size: up to 154.2 m
 
|-
 
|Port of Oqaatsut (Rodebay)
 
|69°20′60.00″N  51°1′0.00″W
 
|3.4m  - 4.6m
 
|Harbor  type: Coastal Natural
 
 
Max  size: up to 154.2 m
 
|-
 
|Port of Attu
 
|67°57′0.00″N  53°43′60.00″W
 
|23.2m  - over
 
|Harbor  type: Coastal Natural
 
 
Max  size: up to 154.2 m
 
|-
 
|Port of Igdlorssuit
 
|71°13′60.00″N  53°31′0.00″W
 
|23.2m  - over
 
|Harbor  type: Coastal Natural
 
|-
 
|Port of  Kajalleq Upernavik
 
|72°9′0.00″N  55°31′60.00″W
 
|3.4m  - 4.6m
 
|Harbor  type: Coastal Natural
 
 
Repairs:  Limited
 
|-
 
|Port of  Sisimiut  (Holsteinsborg)
 
|66°55′0.00″N  53°42′0.00″W
 
|23.2m  - over
 
|Cargo  pier depth: 9.4m-10m
 
 
Harbor  type: Coastal Natural
 
 
Max  size: up to 154.2 m
 
 
Repairs:  Moderate
 
|-
 
|Port  of Qasigiannguit (Christianshåb)
 
|68°49′0.00″N  51°10′60.00″W
 
|23.2m  - over
 
|Cargo  pier depth: 6.4m-7.6m
 
 
Harbor  type: Coastal Natural
 
 
Max  size: up to 154.2 m
 
|-
 
|Port of Tasiussaq
 
|73°22′0.00″N  56°0′0.00″W
 
|18.6m  - 19.8m
 
|Harbor  type: Coastal Natural
 
 
Max  size: up to 154.2 m
 
|-
 
|Port of Saattut
 
|70°49′0.00″N  51°38′60.00″W
 
|23.2m  - over
 
|Harbor  type: Coastal Natural
 
 
Max  size: up to 154.2 m
 
|-
 
|Port of  Qaanaaq  (Thule Air Base)
 
|76°31′60.00″N  68°52′0.00″W
 
|15.5m  - 16m
 
|Cargo  pier depth: 6.4m-16m
 
 
Harbor  type: Coastal Natural
 
 
Max  size: up to 154.2 m
 
 
Repairs:  Limited
 
|-
 
|Port of  Aasiaat  (Egedesminde)
 
|68°42′0.00″N  52°52′0.00″W
 
|23.2m  - over
 
|Cargo  pier depth: 7.1m-9.1m
 
 
Harbor  type: Coastal Natural
 
 
Max  size: up to 154.2 m
 
 
Repairs:  Limited
 
|-
 
|Port of Ukkusigssat
 
|71°4′0.00″N  51°53′60.00″W
 
|23.2m  - over
 
|Harbor  type: Open Roadstead
 
 
Max  size: up to 154.2 m
 
|-
 
|Port of Uummannaq (Ũmánaq)
 
|70°40′60.00″N  52°8′60.00″W
 
|23.2m  - over
 
|Cargo  pier depth: 3.4m-4.6m
 
 
Harbor  type: Coastal Natural
 
 
Max  size: up to 154.2 m
 
 
Repairs:  Limited
 
|-
 
|Port of Nanok
 
|75°9′0.00″N  19°46′60.00″W
 
|23.2m  - over
 
|Harbor  type: Open Roadstead
 
|-
 
|Port of Qaarsut (Qaersut)
 
|70°43′60.00″N  52°37′60.00″W
 
|23.2m  - over
 
|Harbor  type: Open Roadstead
 
|-
 
|Port of Ikerasak
 
|70°30′0.00″N  51°19′0.00″W
 
|23.2m  - over
 
|Harbor  type: Coastal Natural
 
 
Max  size: up to 154.2 m
 
|-
 
|Port of Upernavik
 
|72°46′0.00″N  56°8′60.00″W
 
|15.5m  - 16m
 
|Cargo  pier depth: 3.4m-4.6m
 
 
Harbor  type: Coastal Natural
 
 
Max  size: up to 154.2 m
 
 
Repairs:  Limited
 
|-
 
|Port of  Kangersuatsiaq
 
|72°22′0.00″N  55°34′0.00″W
 
|23.2m  - over
 
|Harbor  type: Coastal Natural
 
 
Max  size: up to 154.2 m
 
|-
 
|Port of Scoresby  Sund
 
|70°28′60.00″N  21°58′0.00″W
 
|23.2m  - over
 
|Harbor  type: Coastal Natural
 
|-
 
|Port of North Star  Bugt
 
|76°32′25.01″N  68°50′19.00″W
 
|N/A
 
|N/A
 
|-
 
|Port of Niaqornat
 
|70°47′60.00″N  53°40′0.00″W
 
|23.2m  - over
 
|Harbor  type: Open Roadstead
 
 
Max  size: up to 154.2 m
 
|-
 
|Port of  Qeqertarsuaq  (Godhavn)
 
|69°13′60.00″N  53°31′60.00″W
 
|12.5m  - 13.7m
 
|Cargo  pier depth: 6.4m-7.6m
 
 
Harbor  type: Coastal Natural
 
 
Max  size: up to 154.2 m
 
 
Repairs:  Limited
 
|}
 
 
=== Airports and Heliports ===
 
 
Greenland has 14 civil airports and 47 helipads operated by the Greenland Airport Authority. The local government recently issued a solicitation to build three new airports, and [[Olvana]] entered competitive bids. This has been challenged by Denmark, but the local government has accepted the bids anyway. There are plans to build new large airports in northern and southern Greenland.
 
 
The table below lists the ones north of the 66th Latitude.
 
 
An IATA airport code, also known as an IATA location identifier, IATA station code or simply a location identifier, is a three-letter code designating many airports around the world, defined by the International Air Transport Association (IATA).
 
 
The ICAO airport code or location indicator is a four-letter code designating aerodromes around the world. These codes are defined by the International Civil Aviation Organization, and published in ICAO Document 7910: ''Location Indicators'' are used by air traffic control and airline operations such as flight planning.
 
 
{| class="wikitable"
 
|+'''Airports and Heliports of Greenland North of the Arctic Circle'''
 
|'''Name'''
 
|'''Location'''
 
|'''IATA'''
 
 
'''ICAO'''
 
|'''Remarks'''
 
|-
 
|Aasiaat  Airport
 
|68°43′19″N  052°47′05″W
 
|JEG
 
 
BGAA
 
|Runway:  Asphalt, 799 m
 
 
Deicing:  No
 
|-
 
|Ilulissat  Airport
 
|69°14′36″N  051°03′26″W
 
|JAV
 
 
BGJN
 
|Runway:  Asphalt, 845 m
 
 
Deicing:  Yes
 
 
International:  Yes
 
|-
 
|Nerlerit  Inaat Airport
 
|70°44′35″N  022°39′02″W
 
|CNP
 
 
BGCO
 
|Runway:  Gravel, 1000 m
 
 
International:  Yes, seasonal
 
|-
 
|Kangerlussuaq  Airport
 
|67°01′01″N  050°41′22″W
 
|SFJ
 
 
BGSF
 
|Runway:  Asphalt, 2810 m
 
 
International:  Yes, seasonal
 
|-
 
|Thule Air Base
 
|76°31′52″N  068°42′11″W
 
|THU
 
 
BGTL
 
|Runway:  Asphalt, 3047 m
 
 
International:  Yes
 
|-
 
|Qaanaaq Airport
 
|77°29′19″N  069°23′19″W
 
|NAQ
 
 
BGQQ
 
|Runway:  Gravel, 900 m
 
 
International:  Yes
 
|-
 
|Qaarsut Airport
 
|70°44′03″N  052°41′46″W
 
|JQA
 
 
BGUQ
 
|Runway:  Gravel, 900 m
 
|-
 
|Sisimiut  Airport
 
|66°57′05″N  053°43′46″W
 
|JHS
 
 
BGSS
 
|Runway:  Asphalt, 799 m
 
|-
 
|Upernavik  Airport
 
|72°47′25″N  056°07′50″W
 
|JUV
 
 
BGUK
 
|Runway:  Asphalt, 799 m
 
|-
 
|Summit  Camp
 
|72°34′46.50″N  38°27′33.07″W
 
|No  scheduled flights
 
|Runway:  Snow, 4572 m
 
 
A  permit from the Danish Polar Center under the auspices of the Home Rule  Government of Greenland is required to visit the station.
 
|-
 
|Aappilattoq  Heliport  (Avannaata)
 
|72°53′13″N  55°35′46″W
 
|None
 
 
BGAG
 
|Helipad:  Gravel, 30 x 20 m
 
|-
 
|Akunnaaq  Heliport
 
|68°44′39″N  052°20′25″W
 
|QCU
 
 
BGAK
 
|Helipad:  Gravel, 15 m
 
|-
 
|Attu Heliport
 
|67°56′35″N  053°37′20″W
 
|QGQ
 
 
BGAT
 
|Heliport  is considered a helistop
 
 
Helipad:  Grass, 30 x 20 m
 
|-
 
|Iginniarfik  Heliport
 
|68°08′45″N  053°10′10″W
 
|None
 
 
BGIG
 
|Heliport  is considered a helistop
 
 
Helipad:  Gravel, 15 m
 
|-
 
|Ikamiut  Heliport
 
|68°37′56″N  051°50′01″W
 
|QJI
 
 
BGIT
 
|Heliport  is considered a helistop
 
 
Helipad:  Gravel, 15 m
 
|-
 
|Ikerasaarsuk  Heliport
 
|68°08′27″N  053°26′29″W
 
|QRY
 
 
BGIK
 
|Heliport  is considered a helistop
 
 
Helipad:  Gravel, 15 m
 
|-
 
|Ikerasak  Heliport
 
|70°29′53″N  051°18′11″W
 
|IKE
 
 
BGIA
 
|Heliport  is considered a helistop
 
 
Helipad:  Gravel, 15 m
 
|-
 
|Ilimanaq  Heliport
 
|69°04′56″N  051°06′31″W
 
|None
 
 
BGIL
 
|Heliport  is considered a helistop
 
 
Helipad:  Grass, 30 x 20 m
 
|-
 
|Illorsuit  Heliport
 
|71°14′23″N  053°33′20″W
 
|IOT
 
 
BGLL
 
|Heliport  is considered a helistop
 
 
Helipad:  Gravel, 15 m
 
|-
 
|Innaarsuit  Heliport
 
|73°12′09″N  056°00′40″W
 
|IUI
 
 
BGIN
 
|Heliport  is considered a helistop
 
 
Helipad:  Gravel, 15 m
 
|-
 
|Ittoqqortoormiit  Heliport
 
|70°29′18″N  021°58′18″W
 
|OBY
 
 
BGSC
 
|Runway:  Asphalt, 13.5 m
 
|-
 
|Kangaatsiaq  Heliport
 
|68°18′46″N  053°27′37″W
 
|None
 
 
BGKA
 
|Heliport  is considered a helistop
 
 
Helipad:  Asphalt, 30 x 20 m
 
|-
 
|Kangersuatsiaq  Heliport
 
|72°22′52″N  055°32′12″W
 
|KGQ
 
 
BGKS
 
|Heliport  is considered a helistop
 
 
Helipad:  Grass, 27 x 18 m
 
|-
 
|Kitsissuarsuit  Heliport
 
|68°51′29″N  053°07′26″W
 
|QJE
 
 
BGKT
 
|Heliport  is considered a helistop
 
 
Helipad:  Gravel, 15 m
 
|-
 
|Kullorsuaq  Heliport
 
|74°34′46″N  057°14′08″W
 
|KHQ
 
 
BGKQ
 
|Heliport  is considered a helistop
 
 
Helipad:  Gravel, 30 x 20 m
 
|-
 
|Moriusaq  Heliport
 
|76°45′50″N  069°59′50″W
 
|None
 
 
BGMO
 
|Heliport  is considered a helistop
 
 
Not  listed by Naviair
 
|-
 
|Qasigiannguit  Heliport
 
|68°49′02″N  051°10′29″W
 
|JCH
 
 
BGCH
 
|Helipad:  Concrete, 20 x 20 m
 
|-
 
|Qeqertaq  Heliport
 
|69°59′58″N  051°18′15″W
 
|PQT
 
 
BGQE
 
|Heliport  is considered a helistop
 
 
Helipad:  Gravel, 15 m
 
|-
 
|Qeqertarsuaq  Heliport
 
|69°15′04″N  053°32′17″W
 
|JGO
 
 
BGGN
 
|Helipad:  Asphalt, 20 x 20 m
 
|-
 
|Saattut  Heliport
 
|70°48′31″N  051°37′36″W
 
|SAE
 
 
BGST
 
|Heliport  is considered a helistop
 
 
Helipad:  Stones, 15 m
 
|-
 
|Saqqaq  Heliport
 
|70°00′41″N  051°55′56″W
 
|None
 
 
BGSQ
 
|Heliport  is considered a helistop
 
 
Helipad:  Gravel, 30 x 20 m
 
|-
 
|Savissivik  Heliport
 
|76°01′07″N  065°07′03″W
 
|SVR
 
 
BGSV
 
|Heliport  is considered a helistop
 
 
Helipad:  Asphalt, 30 x 20 m
 
|-
 
|Siorapaluk  Heliport
 
|77°47′11″N  070°38′18″W
 
|SRK
 
 
BGSI
 
|Heliport  is considered a helistop
 
 
Helipad:  Gravel, 13.5 m
 
|-
 
|Tasiusaq  Heliport  (Avannaata)
 
|73°22′23″N  056°03′37″W
 
|TQA
 
 
BGTA
 
|Heliport  is considered a helistop
 
 
Helipad:  Asphalt, 27 x 18 m
 
|-
 
|Ukkusissat  Heliport
 
|71°03′19″N  51°53′01″W
 
|JUK
 
 
BGUT
 
|Heliport  is considered a helistop
 
 
Helipad:  Stones, 15 m
 
|-
 
|Upernavik  Kujalleq Heliport
 
|72°09′10″N  055°31′52″W
 
|None
 
 
BGKL
 
|Heliport  is considered a helistop
 
 
Helipad:  Gravel, 30 x 20 m
 
|-
 
|Uummannaq  Heliport
 
|70°40′49″N  052°09′42″W
 
|UMD
 
 
BGUM
 
|Helipad:  Asphalt, 20 x 20 m
 
|}
 
 
= '''Norway''' =
 
 
The quality of the Norwegian transportation infrastructure is quite good, although its high mountains and deeply cut valleys and fjords combined with a severe northern climate make inland transportation difficult during the winter months. Railroads are located mostly in the south while most of the northern regions are accessible only by ship, car, or aircraft.
 
 
Norway has 371 seaports and 58 airports.
 
 
Norway's energy production, as well as its usage per capita, ranks steadily among the highest in the world. Industry (especially the very energy-intensive aluminum and ferro-alloy industries) consumes 66% of all energy. Norway is one of the largest oil-producing countries in the world, yet hydropower accounts for almost all electricity generation. About 60 percent of all exploitable water resources have already been utilized. Other renewable energy sources in the country are rather limited, and there is a single atomic power plant which has not yet been used for large-scale electricity generation.
 
 
= '''Otso''' =
 
 
== Arctic Data ==
 
Arctic based information is mostly contained in each of the Arctic countries. In an effort to improve safety and navigation, Otso has established the Arctic Spatial Data Infrastructure (ArcticSDI). Each Arctic country signed a memorandum of understanding (MoU) to cooperate with accurate and timely data from their respective national mapping agencies. ArcticSDI is focused on:
 
 
1.      Open data standards and provision of authoritative data.
 
 
2.      Undertaking the needs and requirements of stakeholders
 
 
3.      Working with organizations to make their data available
 
 
4.      Information Management best practices (geospatial data lifecycle)
 
[[File:Arctic SDI.png|center|thumb|'''Arctic SDI''']]
 
Analysis requires seamless sharing of data across all jurisdictions and organizations. This is a deliberate attempt to remove “stovepiped” information across all affected countries. Future products will include an Arctic reference basemap, a pan-Arctic digital elevation map, maritime data, and a searchable database. Latest products can be accessed at www.arctic-sdi.org.
 
 
Otso has the Arctic Space Center at Sodankylä. This is a public-private partnership arrangement which includes the National Satellite Data Center (NSDC) and the Sodankylä Space Campus. The NSDC is a key national function done in cooperation with ESA, NASA, EUMETSAT, and institutes and companies in Italy, Olvana, South Torbia, and the U.S. It provides continuous monitoring of the Arctic region by satellite and is an Earth station for the EU’s Copernicus Sentinel satellites. This provides real-time situational awareness to track sea ice and oil spill monitoring.
 
 
== "Smart" Roads ==
 
Otso is cooperating with Norway in the development, testing, and use of smart roads for autonomous vehicles above the Arctic Circle. As this capability grows, it will be extended to autonomous drones and ships. The developers recognize the need for situational awareness in both environment and location. The current project is called the Aurora Borealis Intelligent Corridor. It is ten kilometers of instrumented road on Highway E8 between Kolari and Tromso. The goal is to produce roads which can be used by autonomous vehicles in all conditions (especially snow and ice), and have those vehicles successfully negotiate international border crossings. Sensors provide data on vibration, weight, pressure, acceleration, oscillation frequency, measurement and monitoring of road structure/condition, and traffic volumes. Vehicle positioning is accomplished using Ultra-wideband (UWB) poles, Global Navigation Satellite System (GNSS), Inertial Measure Unit (IMU) and Real Time Kinematic (RTK), Simultaneous localization and mapping (SLAM), and sensor testing with Light Detection and Ranging (LIDAR).
 
 
For government agencies, the Aurora Borealis Intelligent Corridor provides real time information about road conditions generated by road weather stations. The first tests were completed 2017-2018. More testing and refinement is taking place now. 
 
 
= '''People’s Republic of Olvana''' =
 
[[Olvana]], as an observer in the Arctic Council, has declared itself to be a “near Arctic” country. Olvana is now encouraging enterprises to build infrastructure and conduct commercial trial voyages, paving the way for Arctic shipping routes that would form a “Polar Silk Road”. Olvana believes strongly in developing shipping lanes through the Arctic region that become open due to global warming. Along these lines, the country released its first Arctic policy white paper last January. A majority of Olvana’s interests in the region lie in its major stake in Donovia’s Yamal liquefied natural gas (LNG) project, which is expected to supply China with four million tons of LNG a year. Shipping through the Northern Sea Route would shave almost 20 days off the regular time using the traditional route through the Suez Canal. The white paper said Olvana also targets development of oil, gas, mineral resources and other non-fossil energies, fishing and tourism in the region.
 
 
= '''United States of America (U.S.)''' =
 
Arctic infrastructure in the U.S. exists only in the state of Alaska. The U.S., in partnership with Canada, has established the [https://gwichincouncil.com/arena Arctic Remote Energy Networks Academy] (ARENA) program. ARENA focuses on sharing knowledge and establishing professional networks related to microgrids and integration of renewable energy resources for remote Arctic communities. A microgrid is a group of interconnected loads and distributed energy resources within clearly defined electrical boundaries that acts as a single controllable entity with respect to the grid. A microgrid can connect and disconnect from the grid to enable it to operate in both grid-connected or island-mode.
 
 
== Sea Ports ==
 
There are six deep draft ports in Alaska (Anchorage, Seward, Valdez, Kodiak, Unalaska, and Homer), but none in the Arctic. Unalaska is the last deepwater port where large ships heading to the Arctic can refuel in the western United States, and the first when returning. In the Arctic region, St. Paul; Island has an existing harbor, Nome has a medium-draft port, Kotzebue has a shallow-draft port complex, and Prudhoe Bay has an existing dock system. 
 
 
== Airports and Heliports ==
 
There are numerous local paved and unimproved runways for passenger and freight transport north of Latitude 66°33′47.1″.
 
 
{| class="wikitable"
 
| colspan="4" |'''Commercial Service  – Primary Airports'''
 
|-
 
|'''Name'''
 
|'''Location'''
 
|'''IATA'''
 
 
'''ICAO'''
 
|'''Remarks'''
 
|-
 
|Wiley  Post-Will Rogers Memorial Airport
 
|Barrow.
 
 
71°17′08″N  156°45′58″W
 
|BRW
 
 
PABR
 
|Asphalt.  2,164m
 
 
Deicing:  Yes
 
 
International:  Yes
 
|-
 
|Deadhorse  Airport
 
 
Prudhoe  Airport
 
|70°11′41″N  148°27′55″W
 
|SCC
 
 
PASC
 
|Asphalt.  1,981m
 
 
Deicing:  Yes
 
 
International:  No
 
|-
 
|Ralph  Wien Memorial Airport
 
|Kotzebue.
 
 
66°53′05″N  162°35′55″W
 
|OTZ
 
 
PAOT
 
|Asphalt.  1,798m
 
 
Gravel.  1,181m
 
 
International:  No
 
|-
 
| colspan="4" |'''Commercial Service  – Nonprimary Airports'''
 
|-
 
|Anaktuvuk  Pass Airport
 
|68°08′01″N  151°44′36″W
 
|AKP
 
 
PAKP
 
|Gravel.  1,463m
 
 
International:  No
 
|-
 
|Coldfoot  Airport
 
|67°15′08″N  150°12′14″W
 
|CXF
 
 
PACX
 
|Gravel.  975m
 
 
International:  No
 
|-
 
|Fort  Yukon Airport
 
|66°34′21″N  145°14′47″W
 
|FYU
 
 
PFYU
 
|Gravel.  1,524m
 
 
International:  No
 
|-
 
|Barter  Island LRRS Airport
 
|70°08′02″N  143°34′55″W
 
|BTI
 
 
PABA
 
|Gravel.  1,372m
 
 
International:  No
 
|-
 
|Bob  Baker Memorial Airport
 
|Kiana
 
 
66°58′33″N  160°26′12″W
 
|IAN
 
 
PAIK
 
|Gravel.  1,036m
 
 
International:  No
 
|-
 
|Kivalina  Airport
 
|67°44′10″N  164°33′49″W
 
|KVL
 
 
PAVL
 
|Gravel.  914m
 
 
International:  No
 
|-
 
|Noatak  Airport
 
|67°33′40″N  162°58′49″W
 
|WTK
 
 
PAWN
 
|Gravel.  1,219m
 
 
International:  No
 
|-
 
|Robert  (Bob) Curtis Memorial Airport
 
|Noorvik
 
 
66°49′03″N  161°01′20″W
 
|ORV
 
 
PFNO
 
|Gravel.  1,219m
 
 
International:  No
 
|-
 
|Point  Hope Airport
 
|68°20′56″N  166°47′58″W
 
|PHO
 
 
PAPO
 
|Asphalt.  1,219m
 
 
International:  No
 
|-
 
|Selawik  Airport
 
|66°36′00″N  159°59′09″W
 
|WLK
 
 
PASK
 
|Gravel.  915m
 
 
Gravel.  810m
 
 
International:  No
 
|-
 
| colspan="4" |'''General Aviation  Airports'''
 
|-
 
|Allakaket  Airport
 
|66°33′07″N  152°37′20″W
 
|AET
 
 
PFAL
 
|Gravel.  1,219m
 
 
International:  No
 
|-
 
|Ambler  Airport
 
|67°06′23.9″N  157°51′25.6″W
 
|ABL
 
 
PAFM
 
|Gravel.  1,219m
 
 
Gravel.  735m
 
 
International:  No
 
|-
 
|Arctic  Village Airport
 
|68°06′53″N  145°34′46″W
 
|ARC
 
 
PARC
 
|Gravel.  1,219m
 
 
International:  No
 
|-
 
|Atqasuk  Edward Burnell Sr. Memorial Airport
 
|Atqasuk
 
 
70°28′02″N  157°26′08″W
 
|ATK
 
 
PATQ
 
|Gravel.  1,332m
 
 
International:  No
 
|-
 
|Bettles  Airport
 
|66°54′50″N  151°31′45″W
 
|BTT
 
 
PABT
 
|Turf/Gravel.  1,582m
 
 
Two  seaplane landing areas
 
 
International:  No
 
|-
 
|Chandalar  Lake Airport
 
|67°30′16″N  148°28′59″W
 
|WCR
 
 
PALR
 
|Gravel/Dirt.  914m
 
 
International:  No
 
|-
 
|Kobuk  Airport
 
|66°54′44″N  156°53′50″W
 
|OBU
 
 
PAOB
 
|Gravel.  1,225m
 
 
International:  No
 
|-
 
|Nuiqsut  Airport
 
|70°12′36″N  151°00′20″W
 
|NUI
 
 
PAQT
 
|Gravel.  1,324m
 
 
International:  No
 
|-
 
|Point  Lay LRRS Airport
 
|69°43′56″N  163°00′40″W
 
|PIZ
 
 
PPIZ
 
|Gravel.  1,073m
 
 
International:  No
 
|-
 
|Prospect  Creek Airport
 
|66°48′51″N  150°38′37″W
 
|PPC
 
 
PAPR
 
|Gravel.  1,514m
 
 
International:  No
 
|-
 
|Shungnak  Airport
 
|66°53′17″N  157°09′45″W
 
|SHG
 
 
PAGH
 
|Gravel.  1,219m
 
 
International:  No
 
|-
 
|Umiat  Airport
 
|69°22′16″N  152°08′06″W
 
|UMT
 
 
PAUM
 
|Gravel.  1,702m
 
 
International:  No
 
|-
 
|Venetie  Airport
 
|67°00′31″N  146°21′59″W
 
|VEE
 
 
PAVE
 
|Gravel.  1,219m
 
 
International:  No
 
|-
 
| colspan="4" |'''Other  Government/Military Airports'''
 
|-
 
|Cape  Lisburne LRRS Airport
 
|68°52′30″N  166°06′40″W
 
|LUR
 
 
PALU
 
|Gravel.  1,463m
 
 
International:  No
 
 
Not  for public use
 
|-
 
|Point  Lonely Short Range Radar Site
 
|70°54′39″N  153°14′32″W
 
|LNI
 
 
PALN
 
|Gravel.  1,524m
 
 
International:  No
 
 
Not  for public use
 
|-
 
|Wainwright  Air Station
 
|70°36′48″N  159°51′37″W
 
|None
 
 
PAWT
 
|Gravel.  914m
 
 
International:  No
 
|-
 
| colspan="4" |'''Private Airports'''
 
|-
 
|Alpine Airstrip
 
|70°20′39″N  150°56′41″W
 
|None
 
 
PALP
 
|Gravel.  1,524m
 
 
International:  No
 
 
Owned  by ConocoPhilips Alaska
 
|-
 
|Ugnu–Kuparuk Airport
 
|70°19′51″N  149°35′51″W
 
|UUK
 
 
PAKU
 
|Gravel.  1,997m
 
 
International:  No
 
 
Owned  by ConocoPhilips Alaska
 
|}
 
 
[[Category:DATE]]
 
[[Category:DATE]]

Latest revision as of 19:31, 8 February 2022

Overview

Arctic infrastructure includes ports, (including deep-water ports), icebreaking capabilities and support vessels, satellites, aviation assets and airstrips, roads and pipelines. These represent significant and long-

The remote, extreme environment shapes Arctic infrastructure, resulting in significant regional variations. Infrastructure follows population clusters and economic activity as in any other region; however, in the Arctic it is more difficult and expensive to build and maintain. Infrastructure in the Arctic requires significant hardening against extended deep cold and the rapid freeze-

-


-free port in Murmansk. This includes the development of the Timan--based marine service complex, including the marine exploration, the use of fiber-

They intend to make it a national marine highway-oriented year-


Opening of Sea Lanes

Major Cities and Urban Zones

The following table lists the five largest cities within DATE Arctic. As discussed within the social variable, the majority of the population living in the Arctic is found in Donovia.

Five Largest Arctic Cities
Country Pop Dens/km2<
Donovia


Donovia


Donovia


Energy

Communications

-


Sea ports within the Arctic Region

Sea Ports

Table of Sea Ports in development.

Medical facilities in the Arctic.

Airports

Arctic airports

Table of Airports in development.

Medical Facilities

Table of Medical Facilities in development.

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