Cutting Edge Insights - Thunder Said Energy

June 3, 2026

Could thermoelectric materials change the world?

Next-generation thermoelectrics, if discovered by AI, could be a world-changer, converting heat to electricity at 10-50% efficiency, costing $500/kWe. 10,000 TWH of incremental electricity could be generated, worth $500-1,000bn pa. This 17-page report outlines our ‘top ten’ use cases for thermoelectrics.
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June 2, 2026

AI at the edge: the lynx effect?

What is interesting about AI is shifting. Away from large centralized data centers and towards AI chips embedded in devices at the grid edge. And away from the general and towards highly specific applications and contexts. The AI cameras in our driveway recently picked up a Eurasian lynx this summer, which exemplifies both shifts, as…
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Passenger cars: what electrical loads in vehicles?

Electrical loads in vehicles typically average 1-2kW, in order to power HVAC, computers, engine cooling, steering, sensors and entertainment. This equates to 750TWH of electricity demand globally within ICEs, even before considering electrification. Fully autonomous vehicles would likely consume another 1-3kW again for on-board AI chips.
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Global iron ore production by company over time?

Iron ore is the sixth most produced commodity in the world, at 2.7GTpa. This data file breaks down global iron ore production by company over time. Since 2019, average realizations for the largest producers have risen at 1.6% pa, while costs have risen at 5% pa. What outlook from here?
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Canadian shale producers and E&P costs?

This data-file is a screen of Canadian upstream companies and Canadian shale producers, especially focused on the fast-growing Montney-Duvernay shale plays. Key themes are rising shale oil and gas production, low-capex wells, high well-level IRRs, performance improvements and consolidation via M&A.
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Energy economics: an overview?

This data-file provides an overview of energy economics, across 175 different economic models constructed by Thunder Said Energy, in order to put numbers in context. This helps to compare marginal costs, capex costs, energy intensity, interest rate sensitivity, and other key parameters that matter in the energy transition.
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LNG: top conclusions in the energy transition?

Thunder Said Energy is a research firm focused on economic opportunities that drive the energy transition. Our top ten conclusions into LNG are summarized below, looking across all of our research.
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Hydrogen: overview and conclusions?

We think the best opportunities in hydrogen will be to decarbonize gas at source via blue and turquoise hydrogen, displacing ‘black hydrogen’ that currently comes from coal, and to produce small-scale feedstock on site via electrolysis for select industries. Others see green hydrogen as a cornerstone of the future energy system. We think there may…
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Energy storage: top conclusions into batteries?

Thunder Said Energy is a research firm focused on economic opportunities that can drive the energy transition. Our top ten conclusions into batteries and energy storage are summarized below, looking across all of our research.
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Power grids: opportunities in the energy transition?

Power grids move electricity from the point of generation to the point of use, while aiming to maximize the power quality, minimize costs and minimize losses. Broadly defined, global power grids and power electronics investment must step up 5x in the energy transition, from a $750bn pa market to over $3.5trn pa. But this theme…
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Energy Units — An Overview

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