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 How to produce enough [[?|energy]] (for the world) without burning [[fossil fuels]]?
 ==Ongoing challenges==
-===The {{(}}renewables + energy storage{{)}} approach===
+===The renewables approach {{light|(+ energy storage)}}===
 * [[Solar]] & [[wind power]] would have to be the main sources, because [[?|other renewables are limited to very specific geographic regions]].
-* Batteries [[?|might be enough]] to smooth out the '''day/night''' cycle of solar. But the '''seasonal''' fluctuations of wind & solar [[?|probably need ''far more'' energy storage capacity]]. See discussion on [[?|whether any other energy storage types could be enough]].
+* Most solar panels today would probably be '''unsustainable''' or even impossible to scale up, due to having [[?|too many scarce minerals in them]].
-* Most solar panels today would probably be '''unsustainable''' or even impossible to scale up, due to having [[?|too many scarce minerals in them]]. See discussion on [[?|alternatives]].
+** ''See discussion on'' [[?|alternatives to this]].
-More discussions
+* Batteries [[?|''might'' be scalable enough]] to smooth out the '''day/night''' cycle of solar. {{x|Best bet would be either [[sodium-ion]] or [[iron redox flow batteries]].}}
-{{talk|TODO: People also have other concerns about renewables and energy storage. I need to direct readers to pages that address those concerns.}}
+** But the '''seasonal''' fluctuations of wind & solar [[?|probably need ''far more'' energy storage capacity]].
+*** ''See discussion on'' [[?|other energy storage types and whether any could provide enough capacity]].
+More discussions:
 * [[?|Is there enough land to scale up wind power]] (without causing significant [[habitat loss|ecological damage]])?
 ===The nuclear approach===
-Considering the different types of nuclear power, it seems that [[?|'''thorium''' power]] is the one with the least problems:
+Considering the different types of nuclear power, it seems that [[?|'''thorium''' power]] is the one with the least problems. Here's a comparison:
-<!--tab name="See table" collapsed-->
 {|class='wikitable'
 !rowspan='2' |Type of nuclear power
@@ Line 40: / Line 43: @@
 |Almost none
 |-
-|[[Fusion]] (not viable yet)
+|[[Fusion]] <span style="background:#F66">(not viable yet)</span>
 |Abundant
 |Low risk
@@ Line 47: / Line 50: @@
 |colspan=4|{{minor|^ For more details, follow these links in the leftmost column.}}
 |}
-<!--/tab-->
 Actions / discussions / next steps:
@@ Line 53: / Line 55: @@
 * [[?|Would small (shipping-container-sized) thorium reactors be viable?]]
-===Vehicles===
-{{minor|''(electric and/or hydrogen and/or ammonia)''}}
-====Battery electric vehicles====
+===Vehicles {{light|- possible options}}===
-* Most EVs today use [[?|NMC-type lithium-ion batteries]] - but [[?|scaling these up is unsustainable]] due to the amount of '''cobalt''' in them.
+====Battery-based electric vehicles (EVs)====
-* [[?|LFP batteries]] are cobalt-free, but hold somewhat less of a charge (i.e. the vehicle gets less range). LFP batteries are still lithium-based, and lithium scarcity [[?|would be somewhat a problem]] but not as bad as cobalt.
+* Most EVs today use [[?|lithium-ion batteries (NMC type)]]. Scaling these up is [[?|'''unsustainable''' due to the amount of '''cobalt''' in them]].
-* [[?|Sodium-ion batteries]] are made from abundant materials - they don't have any mineral-scarcity problem ([[?|probably]]). But they hold even less of a charge than LFP. [[?|Sodium-ion EVs]] are still usable, but their range isn't great.{{qn}} [[Cheap short-range EVs/Market research|Might still be good enough]] for a lot of people, [[Sodium-ion batteries/Cost|if the EV is cheap enough]].
+** Best alternatives [[?|so far]] hold less of a charge (i.e. the vehicle gets less {{p2|range|"Range" refers to the distance the vehicle can travel after 1 full charge.}}). {{talk|TODO: Add to this page a simple comparison between NMC, LFP and sodium-ion, in terms of typical expected EV range.}}
-* For '''buses''', LFP and sodium-ion are both perfectly fine. The lower energy-density is not a problem, because buses need extra weight at the bottom anyway for stability. <!-- explain better? -->
+*** [[?|LFP batteries]] are cobalt-free but still lithium-based. Lithium scarcity [[?|would be somewhat a problem]] but not as bad as cobalt scarcity.
+*** [[?|Sodium-ion batteries]] are made from abundant materials - they don't have any mineral-scarcity problem ([[?|probably]]). But they hold even less of a charge than LFP.
+**** Sodium-ion batteries are [[?|quite new to the market]] (in 2024), and the hope is that they'll become a lot cheaper than existing batteries. That way, [[?|EVs could be cheap and durable]], with the only tradeoff being the lack of range.{{qn}} Probably still good enough for city/suburban living.
+*** For '''buses''', LFP and sodium-ion are both perfectly fine. The {{p2|lower energy-density|i.e. the fact that more battery mass is needed to hold the same amount of energy}} is not a problem, because buses need extra weight at the bottom anyway for stability.
 Actions/discussions:
 * [[?|Next steps for sodium-ion batteries]] {{talk|Is it true that sodium-ion EVs are available in China already, and just not in North America? If sodium-ion batteries are on the market now, how does their cost compare to lithium-based batteries so far?}}
 * [[?|How well are EV batteries recycled?]]
 ====Hydrogen-fueled vehicles====
 * Hydrogen fuel-cell vehicles would be unsustainable to scale up, because of the [[?|amount of platinum & palladium in the fuel cells]]. {{talk|This page needs to mention: Hydrogen ''production'' also requires these same metals but it [[?|can be done with much less of them]] and thus could probably be done sustainably.}}
-* Hydrogen combustion vehicles don't have this problem, but their fuel economy (efficiency) is lower.{{qn}} {{talk|How bad would this be an issue if renewables or nuclear were to be the main energy sources?}} {{talk|Discussion needed: How much hydrogen would have to be stored at any given time, in such a scenario (let's say if it's all produced through nuclear power)? Probably a lot less than the "renewables + energy storage" approach. I need to write a page explaining why.}}
+* Hydrogen combustion vehicles don't have this problem, but their fuel economy (efficiency) is lower.{{qn}} {{talk|
+How bad would this be an issue if renewables or nuclear were to be the main energy sources?}} {{talk|Discussion needed: How much hydrogen would have to be stored at any given time, in such a scenario (let's say if it's all produced through nuclear power)? Probably a lot less than the "renewables + energy storage" approach. I need to write a page explaining why.}}
 ====Ammonia-fueled vehicles====
-This wiki needs more research on this:
+''This wiki currently needs more research:''<small>
-{{pn-block|
+* How does ammonia compare to hydrogen in terms of:
-How does ammonia compare to hydrogen in terms of:
+** Production energy-efficiency
-* Production energy-efficiency
+** Fuel cell energy-efficiency
-* Fuel cell energy-efficiency
+** Catalyst metals required{{qn}} in ammonia production, and in ammonia fuel cells
-* Catalyst metals required for ammonia production and for fuel cells
+** Storage (mass of materials required per unit of energy stored)</small>
-* Storage (materials required per unit of energy)
-}}
 ==More / See also==
 {{empty}}
+{{talk|TODO: People also have other concerns about renewables and energy storage. I need to direct readers to pages that address those concerns.}}
+{{talk|Maybe title this page "[[Decarbonize the energy supply]]"?}}