Scrambling for Energy Security: Navigating Unstable Energy Supplies Amidst Global Conflict

The TGS team puts together these brief references and show notes for the learning and convenience of our listeners. However, most of the points made in episodes hold more nuance than one link can address, and we encourage you to dig deeper into any of these topics and come to your own informed conclusions.

00:00 – Chris Keefer 

• Decouple: Podcast, Substack
• Previous TGS Episode: Empowering the Future: from Nuclear to Podcasting
• Canadians for Nuclear Energy

03:10 – 2026 Iran war

03:30 – Israel strikes on major Iranian gas field and Iran retaliation on Qatar’s gas fields

04:00 – Nuclear power: pros, cons, and energy-security tradeoffs

04:35 – Maslow’s hierarchy of needs

05:40 – 1970s energy crisis caused large state-led energy transition in Europe

06:05 – France’s rapid nuclear buildout: 37 of the 57 nuclear reactors were built in the 1970s*; Electrification project and subsequent policies

06:30 – UK and Norway North Sea oil and gas expansion during the 1970s and present

06:40 – West Germany’s long-term Soviet gas imports via Cold War diplomacy 

06:50 – U.S. energy shift from oil-fired electricity toward domestic coal after the 1970s shocks

07:03 – International Energy Outlook 2000

07:25 – The Oxford Institute for Energy Studies: Fossil fuel shocks and European electricity prices since the 1970s: what can we learn?

07:35 – Europe’s oil and gas reserves, Import dependence, and exposure to Strait of Hormuz closure

08:05 – Oil disruptions and the Strait of Hormuz

08:27 – Natural gas as ~20% of global primary energy; LNG as ~3-4%

08:45 – Ras Laffan Industrial City

09:20 – Technology that densifies natural gas ~600x into LNG

10:00 – Energy retuned on energy invested (EROI) – Nate’s Frankly on EROI, EROI for nuclear 

10:05 – LNG export terminals (“trains”): massive capital intensity

10:10 – Qatar’s LNG buildout and expansion from ~77 to ~140 million tons per year by ~2030

10:25 – Expected global LNG glut/oversupply and the role of new Qatari and U.S. production

10:40 – LNG as an energy-security fuel for import-dependent and resource-poor economies: Pakistan, Japan, South Korea, Thailand, Taiwan, and parts of Latin America

10:47 – Qatar declared force majeure and halted LNG shipments (Force majeure definition)

11:02 – Japan’s financial role in scaling the global LNG industry 

11:11 – A single LNG tanker is roughly equivalent to nearly a month of output from a nuclear plant 

11:40 – Energy imports and exports by country

12:20 – Europe signed long-term deals with Qatar

12:40 –  What LNG is used for (besides fuel)

13:01 – Second-, third-, nth order effects

13:17 – Qatar honored long-term contracts to Pakistan, etc.

14:30 – LNG consumer storage

14:45 – LNG thermal efficiency (~60%) versus nuclear (~33%) and coal (~40% for ultra-supercritical steam)

15:10 – Combined cycle power plants are easiest non-renewable system to build

16:25 – Ukrainian drone strike on Russian LNG tanker (Arctic Metagaz), Transit through the Suez Canal 

16:37 – Current LNG markets

17:10 – Pakistan’s domestic power sources cushion LNG supply risk

17:20 – Baseload vs. Intermittent power

17:55 – Wet, lignite coal

18:12 – Rankine cycle

18:19 – Nuclear power in Pakistan

18:50 – Europe replacing much of its lost Russian pipeline gas with LNG, including long-term deals with Qatar and the United States

19:19 – Europe consuming ~38 EJ of hydrocarbons while producing only ~5* EJ

19:21 – North Sea Granat prospect 

19:50 – Europe continued Russian LNG imports

20:00 – Europe’s dependence on U.S. LNG

20:05 – Trump and Greenland

20:10 – Europe’s shift away from Russian pipeline gas increasing global competition for LNG cargoes

20:20 – Natural-gas strip futures: Europe still above $20/MMBtu 18 months out versus ~$3 in the U.S. and negative gas pricing in the Permian

20:25 – Firm long-term LNG contracts versus flexible market-linked supply exposed by the energy crisis

20:40 – Flaring, dumping, and associated gas oversupply in oil-heavy basins

20:47 – Marcellus natural gas trend

20:57 – The Carbon Pulse, Possible future shapes of the Carbon Pulse, Future growth scenarios

21:05 – Uneven geography of energy abundance and scarcity

21:50 – Europe’s long-term deindustrialization (Europe energy constraints and imports) accelerated after Russia’s invasion of Ukraine

22:00 – Germany’s relative success in preserving heavy industry 

22:35 – England closed its last primary steel plant

23:25 – Europe’s hydrocarbon import dependency rising from ~20% in 1995 to ~80% today

23:35 – Jean-Marc Jancovici’s framing: efficiency, sobriety, or poverty, TGS Episodes #84 & #175

24:25 – The Great Simplification

24:30 – European hydrocarbon use peaking around 2005 at ~46 EJ

25:15 – Vaclav Smil’s “four pillars of civilization”: steel, cement, ammonia/fertilizer, and petrochemicals/plastics

25:27 – Trump’s framing: if you don’t have steel, you don’t have a country

26:05 – Strait of Hormuz disruptions and their implications for nuclear and LNG

26:15 – Global nuclear fleet by country: ~440 reactors, close to 400 GW, with roughly two-thirds built in the 1970s and 1980s

26:35 – Stop Calling Nuclear Rectors “Aging”

27:15 – New European Pressurized Reactors: cost, delay, and examples such as Hinkley Point C, Flamanville, and Olkiluoto

27:40 – Germany’s closed nuclear facilities and restart debates

28:31 – China restricting titanium exports, Broader supply-chain constraints

29:10 – Chinese grid/economic growth

29:15 – U.S. grid growth of ~8% per year in the mid-20th century versus ~1% or stagnation today

30:15 – China building large reactors quickly, Russia as well

30:30 – Nuclear power plant construction time

30:50 – Nimbyism

31:05 – Ontario as the only active new nuclear construction site in North America

31:35 – No major conventional nuclear plants under active construction in the U.S. despite media hype

31:55 – U.S. struggles with megaproject delivery, even as they install large volumes of Chinese solar and build LNG export terminals – Nuclear’s core bottleneck as project delivery in the West

32:50 – Chris Keefer’s “nuclear has CCGT envy” argument

33:30 – Light-water and heavy-water reactors 

33:40 – Financing nuclear energy

34:10 – AI/data-center growth and “all of the above” energy strategy reviving nuclear enthusiasm

35:10 – Taiwan’s former ~5* GW nuclear fleet supplying ~21% of its grid

35:20 – Two ~1.3 GW reactors in Taiwan built but never fueled; referendum politics and restart debate

35:30 – Taiwan replacing lost nuclear generation with LNG imports; Qatar supplying ~35% of Taiwan’s power-sector LNG; Taiwan’s grid now ~50% LNG-fired, Referendum to turn them back on, UPDATE: Taiwan has now decided to reopen at least one nuclear power plant

36:45 – E = mc² as the core frame for nuclear energy density

37:00 – Uranium is the heaviest naturally occuring element

37:07 – A 1 GW nuclear plant requiring ~150* tonnes of uranium fuel – roughly a 2.5–3 meter sphere fitting in less than one shipping container – lasting ~12 months

38:00 – How a nuclear reactor works, Nuclear fission 

39:40 – A 1 GW nuclear plant is producing ~25 GWh/day

40:00 – Fossil fuels caused industrial civilization as we know it

40:45 – Energy and Permaculture

40:57 – Nuclear’s main advantages: extreme energy density, low operational emissions, and air-quality benefits

41:20 – Nuclear reactors as sources of medical isotopes; Canadian reactors sterilizing ~40% of the world’s single-use medical devices via cobalt isotopes

41:30 – Other medical device sterilization methods: autoclaves and phosphine* gas

42:20 – Nuclear as a source of long-duration, intergenerational employment, analogous to legacy auto plants in Detroit

42:35 – Narrow-boundary view of jobs

43:15 – Nuclear LCOE dominated by upfront construction cost (~70%)

44:15 – Wind and solar as even more CapEx-heavy but far lower-risk to build; gas plants as cheap to build but highly fuel-cost exposed

44:45 – How neo-liberal economics has held back new nuclear build (Government vs. corporate financing)

45:10 – China, Russia, and Korea as better positioned for nuclear due to stronger state capacity

45:30 – “MAGA industrial socialism”

45:37 – Possible U.S. government involvement in Westinghouse and Mountain Pass

45:52 – Ricardian economics

46:00 – Piracy surges and continual shipping transportation bombings

46:40 – Relicensing existing nuclear plants toward 80-90 year lifetimes

47:00 – Reactor pressure vessel aging: neutron bombardment, embrittlement, corrosion, and Russian annealing efforts

47:55 – Countries that are slowing, reversing, or reconsidering phaseouts; Belgium, France, Taiwan, and Japan 

48:35 – China as the likely long-term winner in nuclear buildout

48:45 – China’s ~60 GW nuclear fleet today, about 5% of installed capacity, standardized around two reactor designs (CAP1000 and HPR1000) and projected to reach ~200-250 GW by 2040-2050

49:10 – Current global nuclear capacity at roughly 390 GW

49:20 – Energy race between U.S. and China (Per capita electricity generation, 2025), The AGI Race, Energy demand from AI

50:15 – China and the Malacca dilemma

51:10 – China’s electrification push as energy-security strategy more than climate strategy

51:15 – China’s still ~60% coal

51:20 – China’s “energy bases”

52:05 – Coal-to-fertilizer and coal-to-plastics pathways

52:40 – Energy blindness

53:05 – Western electricity-market deregulation: Weak on reliability, slack, and energy security

53:55 – In-fighting on the left, Modern environmentalism drifting into virtue signaling

54:30 – Rising energy bills are rewiring American politics

56:40 – SMRs as economically weak because inherent nuclear costs do not scale down well

56:50 – “Advanced reactors”: Molten-salt, High-temperature gas-cooled, Sodium-cooled fast

57:15 – Bill Gates recent nuclear project

57:20 – EBR-I and EBR-II

57:35 – Fuel breeding in sodium fast reactors

57:50 – Startup and VC culture treating nuclear like software

59:30 – Acute radiation syndrome

59:40 – No civilian deaths from handling spent nuclear fuel/radiation in normal operations

1:00:05 – Safer storage of spent nuclear fuel, Coated cladding

1:00:25 – How dangerous is high-level radioactive waste?

1:01:00 – Nuclear waste storage and why it is easier to manage than coal ash and PM2.5

1:02:05 – Coal ash ponds and broader pollution risks

1:02:30 – U.S. presidential rhetoric about attacking Iranian power infrastructure

1:02:50 – Iran’s list of potential retaliatory targets if its infrastructure is attacked

1:03:00 – Barakah nuclear power station in the UAE

1:03:20- Chernobyl accident

1:03:30 – RBMK reactors are fundamentally different from Western light-water designs

1:03:50 – Accidents in graphite-moderated reactors

1:04:10 – Chernobyl fallout detected in Sweden

1:04:30 – Chernobyl health debates: Greenpeace, EU Green parties, and politically contested casualty estimates

1:04:50 – UN Chernobyl Forum estimate of ~30 direct deaths, including 28 from acute radiation syndrome

1:05:50 – Roughly 40% of humans get cancer over a lifetime

1:06:10 – Chernobyl health effects: Iodine-131 exposure led to 5,000 thyroid cancer cases in children, Additional 15,000 projected excess thyroid cancer cases

1:07:07 – Thyroid cancer as relatively treatable, including with radioactive iodine

1:07:33 – Cesium-137 exposure outside the Chernobyl exclusion zone

1:08:05 – Destruction of Gulf desalination infrastructure as a public-health disaster 

1:09:00 – Nate’s paper: Economics for the future – Beyond the superorganism

1:09:50 – CANDU reactors as design choices that avoided some fuel-cycle and heavy-forging bottlenecks

1:10:40 – Ultra-high-purity quartz from Spruce Pine in North Carolina is a critical semiconductor chokepoint

1:10:55 – The complexity of manufacturing and installing solar panels

1:11:20 – Material World by Edmund Conway (TGS Episode)

1:12:07 – Existential risks, TGS Episode on such

1:12:17 – Marxist-Leninist ideology

1:14:10 – Oklo as a “nuclear meme stock”: Sam Altman, Y Combinator, SPAC dynamics, NRC rejection

1:16:05 – Theranos case

1:17:35 – Hype around AI solving nuclear fusion

1:19:20 – CORRECTION: “If you’re paying them $130 a megawatt hour, you’re generating about $13 million hundred*.” 

1:20:07 – Army microreactor history in Greenland and the Panama Canal

1:21:00 – Terror Management Theory (TMT) (More info), TGS episode on such

1:23:50 – ASI Existential Risk, Advanced AI Extinction Risk & Risk Analysis, TGS Episode on such