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LANSARY.Global industry intelligence Public evidence25
Electricity systems · Global report · 2000–2035 · Reviewed 2026-07-13

The world is ordering electricity faster than it can build the networks that carry it.

Industry, cooling, transport, heat and digital infrastructure are lifting electricity demand. Generation and large loads can be proposed faster than grids, equipment, permits and operating arrangements can be delivered.S01

The report gives a buyer a common test for whether a proposed load, generation portfolio or grid investment has a credible route to power-ready operation and who owns the critical path.

One supercycle, three electricity worldshero_schematic
One supercycle, three electricity worldsThe deciding asset is a credible path through connection, network work and energisation, not an announced megawatt.Fast-growth systems are adding the…01Mature systems have demand growth…02Access-constrained systems make the…03The same six questions expose…01Commissioned networks, completed…02

The deciding asset is a credible path through connection, network work and energisation, not an announced megawatt.

The world is ordering…
OFFICIAL ESTIMATE
~1,100 TWh/yr
Modelled demand added each yearS01
The absolute annual increment in 2026–2030 is about half again as large as the preceding decade's average.
CAUSAL SYNTHESIS
Many loadsone grid
Industry, buildings, transport, heat and digitalS01S16
Several demand families now converge on shared networks, equipment, permissions and operating rules.
QUEUED / OFFICIAL ESTIMATE
>2,500 GW
Renewable-generation, storage and large-load projectsS02
A mixed worldwide queue estimate that signals screening and network pressure, not operating capacity.

Read this in 90 seconds

  1. Fast-growth systems are adding the largest volumes: China supplies nearly half the modelled global increase, while India and Southeast Asia grow faster still in percentage terms. Generation, networks, flexibility and new load must be delivered together rather than in sequence.S01
  2. Mature systems have demand growth again, but typical grid projects still run on a much longer clock than data centres or modular generation. A reliable system can lack timely headroom exactly where a concentrated load wants to connect.S02S18
  3. Access-constrained systems make the strategic unit a reliable, affordable connection—not nameplate generation alone. First connection, distribution quality and affordability belong inside the same global build-out decision.S11S22
  4. The same six questions expose different constraints across mature, fast-growth and access-constrained electricity worlds. Common variables enable comparison without forcing demand growth, queue volume and access deficits onto a false scale.S08S10S20S21
  5. Commissioned networks, completed connection stages, full-output records, maintained reliability and wider access are the confirming evidence. Plans, contracts, queues, allowances and construction activity remain earlier states until operation is observed.S10S12S13
Chapter 01 · Why now

Demand has returned before the network has caught up

The direct answer is that this is a whole-electricity-system build-out. Industry, cooling, transport, heat and digital infrastructure can add demand faster than networks, equipment, permits, flexibility and cost rules can be delivered. Generation can also be proposed faster than it can be connected. For a customer choosing a site, backing a generation portfolio or planning a network, the decisive question is therefore not how many megawatts appear in an announcement. It is whether supply, the connection study, physical network work, equipment, commissioning and energisation form one dated and funded route to operation.S01S02

The scale change is real, but its wording matters. The IEA expects the world to add about 1,100 TWh of electricity demand in each year from 2026 to 2030, compared with roughly 700 TWh a year over the previous decade. That is the basis for saying fifty per cent more demand is added each year: it refers to the absolute TWh increment, not a fifty per cent acceleration in the percentage growth rate. The modelled annual rate is 3.6%, against 2.8% historically, and global consumption rises from an estimated 28,200 TWh in 2025 to 33,600 TWh in 2030. The distinction prevents a strong signal from becoming an exaggerated one.S01

The supply system is not moving on the same clock. The IEA's worldwide connection evidence places more than 2,500 GW of renewable-generation, storage and large-load projects in queues or stalled processes. That is a QUEUED / OFFICIAL ESTIMATE across different categories, jurisdictions and stages; it is not operating capacity and cannot be read as one additive supply pipeline. A grid project can typically take five to fifteen years, compared with one to three for a data centre and one to five for wind or solar. Those ranges are indicative, yet they expose the governing mismatch: the asset that carries the power can have the longest lead time in the chain.S02

Money provides another signal, but only after its basis is kept straight. The February planning comparison says annual grid investment must rise about half from roughly USD 400 billion, implying about USD 600 billion by 2030 in real 2024 dollars at market exchange rates. The May tracking series uses real 2025 dollars and estimates nearly USD 450 billion in 2025, followed by further growth in 2026. These are not values to splice into a synthetic gap. The later report also warns that equipment and input-price inflation accounts for part of the rise, so capital spending is neither delivered network volume nor supplier revenue.S02S04S05

The first practical consequence is a change in the unit of decision. An announced generator, a signed power contract, a queue position or an investment allowance can each be useful evidence, but none of them alone makes a site power-ready. The useful record joins the load's realistic ramp, the generation and flexibility available at the node, the studies and upgrades needed, the owner of each cost, the delivery dates for scarce equipment, and the tests required before full output. That record can be compared across very different electricity worlds even when their headline numbers cannot. It turns the supercycle from a slogan into a sequence that a buyer can challenge.S07S12S13

X01 Three-speed electricity world Why does one power cycle produce three different delivery tests?
RegionStarting positionPower and delivery modelWhat can hold it back
2026–20302.0% · average annual electricity-demand growthMature system: demand has returned after a long low-growth period. The comparison asks the same six questions: demand driver, generation addition, network need, flexibility, access or reliability, and who pays.S01Mature system: demand has returned after a long low-growth period. The comparison asks the same six questions: demand driver, generation addition, network need, flexibility, access or reliability, and who pays.
2026–20302.3% · average annual electricity-demand growthMature system: electrification meets an ageing network and cross-border planning. Network investment is recovered through regulated frameworks whose incidence varies by member state and customer class.S01Mature system: electrification meets an ageing network and cross-border planning. Network investment is recovered through regulated frameworks whose incidence varies by member state and customer class.
2026–20304.9% · average annual electricity-demand growthFast-growth industrial system: enormous renewable additions and demand growth coexist with continuing transmission, distribution and flexibility work. National capacity does not prove local headroom.S01Fast-growth industrial system: enormous renewable additions and demand growth coexist with continuing transmission, distribution and flexibility work. National capacity does not prove local headroom.
2026–20306.4% · average annual electricity-demand growthFast-growth industrial system: the public plan separates commissioned, construction, bidding and perspective stages. Demand, generation, transmission and storage have different delivery clocks.S01Fast-growth industrial system: the public plan separates commissioned, construction, bidding and perspective stages. Demand, generation, transmission and storage have different delivery clocks.
2026–20305.3% · average annual electricity-demand growthFast-growth regional system: industry, cooling and digital demand raise national-grid needs while cross-border links add multi-jurisdictional planning and finance.S01Fast-growth regional system: industry, cooling and digital demand raise national-grid needs while cross-border links add multi-jurisdictional planning and finance.
Current regional evidenceCooling, desalination and industry shape demand. Hydrocarbon-rich, interconnected and conflict-affected systems do not share one delivery model, reliability position or payer.S21Cooling, desalination and industry shape demand. Hydrocarbon-rich, interconnected and conflict-affected systems do not share one delivery model, reliability position or payer.
Sub-Saharan Africa, 2024>560m · people without electricity accessAccess-constrained system: first connection, reliable service and affordability remain part of the build-out. This access measure is deliberately not placed on the same numerical scale as demand growth.S11Access-constrained system: first connection, reliable service and affordability remain part of the build-out. This access measure is deliberately not placed on the same numerical scale as demand growth.
Brazil, 2025–20293.4% · average annual system-load growthHydro-rich growth system: load growth, transmission expansion and drought or curtailment exposure must be read together. A forecast is not a connection award or an operating result.S23Hydro-rich growth system: load growth, transmission expansion and drought or curtailment exposure must be read together. A forecast is not a connection award or an operating result.
United StatesMature system: demand has returned after a long low-growth period. The comparison asks the same six questions: demand driver, generation addition, network need, flexibility, access or reliability, and who pays.
Definitions and scope. Demand growth and electricity access are independently labelled indicators, not a shared numerical score. · Mature, fast-growth and access-constrained describe system starting points rather than income rankings. S01S06S08S10S11S17S20S21S23What this establishes. One supercycle reaches three system starting points, so the critical path and the meaning of success differ by region.
Chapter 02 · The long arc

Generation changed first; networks inherited the delay

In the 2000s, the phrase “global electricity market” concealed two different motions. Many advanced economies were entering a long period of flat or weak demand, with mature networks managed around incremental replacement and reliability. Emerging industrial systems were adding customers, factories and urban load, while much of Sub-Saharan Africa still faced the more basic problem of first connection. Those starting points shaped planning institutions and investment habits. A network built for slow aggregate change can be reliable and still lack headroom at the precise place a large new load wants to arrive; a system adding access can need generation, transmission, distribution and affordable service at once.S11S18S22

The 2010s then changed the generation side faster than the carrying system. IRENA's series records worldwide renewable capacity rising from about 2,021 GW at the end of 2016 to about 5,149 GW at the end of 2025. For most countries those statistics represent capacity installed and connected, but they remain nameplate capacity rather than annual generation, firm deliverability or local network headroom. The build proved that modular generation could scale rapidly. It did not prove that every network, market rule, transformer fleet or planning process had been rebuilt around bidirectional flows, variable output and much larger connection volumes.S06

By the early 2020s, demand itself had begun to turn. US net energy for load grew by an average 1.7% a year in 2020–2025 after just 0.1% in 2005–2019. China continued to add demand on a much larger base, while India and Southeast Asia remained faster-growing systems. The causes also converged: industrial policy, electric vehicles, cooling, heat pumps and data centres all sought network capacity. This is why the present cycle is not simply another renewables wave. It places old and new generation, fast loads, distribution constraints, bulk transmission, flexibility and cost allocation inside the same delivery problem.S01S16S18

Networks entered that convergence with inherited constraints. The European Commission says the region has about eleven million kilometres of electricity networks and estimates that roughly forty per cent of distribution assets are more than forty years old. China is investing in grid and distribution service alongside its exceptional generation build. India's public plan separates additions already commissioned from those under construction, under bidding and still planned, and it records the right-of-way, forest-clearance, land and contractual problems that affected earlier delivery. These are different systems, but the common lesson is that a generation total says little about the condition or readiness of the path between plant and load.S08S10S17

The 2026–2030 period is therefore a build test, not an endpoint. Forecast demand and announced capital create pressure; commissioning records reveal whether the system answered it. In the 2030s, the confirming evidence will be less glamorous and more useful: transmission and distribution assets entering service, connection studies becoming constructed works, equipment arriving without repeated slippage, large loads ramping as forecast, renewable output moving with less avoidable curtailment, reliability holding and access becoming affordable service. If those outcomes arrive, the supercycle will have rebuilt a system. If they do not, it will have produced a large inventory of plans, orders and queue positions.S09S10S12S25

Chapter 03 · The physical system

Five load families now meet one grid clock

The new demand is plural. Industry adds large process and manufacturing loads, sometimes in clusters created by trade and industrial policy. Cooling grows with income, appliance ownership and hotter conditions. Transport adds vehicles, depots and charging whose peaks depend on behaviour and tariffs. Electrified heat changes seasonal and local distribution demand. Digital infrastructure adds concentrated facilities with high power density and unusually short commercial schedules. The categories overlap in national statistics, so the honest picture is a causal map rather than a neat stack whose pieces can all be added without adjustment.S01S16S20S21

The IEA attributes forty-nine per cent of additional global electricity demand through 2030 to buildings, with cooling and heat pumps among the important drivers inside that subtotal. Transport contributes more than one-tenth of the increase. Those shares describe additions, not total demand, and the building components must not be counted again outside their parent. Industry and digital infrastructure complete the picture without a fabricated residual. For system planning, the engineering profile matters as much as the annual energy: coincidence, ramp speed, voltage, power quality, location and willingness to accept curtailment determine which part of the network must change.S01

AI belongs inside that map, not above it. All data centres used an estimated 415 TWh in 2024, about 1.5% of global electricity. The IEA base case reaches roughly 945 TWh in 2030, still below three per cent of world consumption. Data centres account for less than one-tenth of global electricity-demand growth in the base case, but around half of the increase in the United States through 2030. That is the defining contrast: modest in the world total, potentially dominant in a particular country, utility territory or substation catchment. The category also includes non-AI computing, even though accelerated servers drive much of the projected growth.S01S03

The range around digital demand is wide enough to change local build decisions. In the IEA's conditional 2035 cases, data-centre electricity use is about 700 TWh under Headwinds, about 970 TWh with high efficiency and more than 1,700 TWh in Lift-Off. These are not assigned probabilities. They show how adoption, server efficiency, utilisation and location can alter the load. A prudent network or site plan should therefore test the low and high cases, require evidence for the ramp, and avoid financing an irreversible solution against one unexamined forecast. Flexibility, staged connection and credible cancellation rights can be more valuable than false precision.S03S19

Once several fast loads arrive together, the constraint moves through the physical chain. A bulk system may have enough annual generation but insufficient transfer capacity. A transmission node may have headroom while the distribution feeder, fault level or transformer does not. Equipment can be specified before permits or cost ownership are settled, then sit outside the critical path while a study is redone. Non-firm service can bring a project forward, but the curtailment right changes its operating risk and economics. The build-out is therefore an exercise in coordination across assets and rules, not a contest to announce the largest generation or load number.S02S07S13

X02 What adds the next demand Which end uses add demand without counting overlapping categories twice?
x02-industryIndustry and manufacturing
x02-buildingsBuildings subtotal
x02-coolingCooling
x02-heatElectrified heat
x02-transportTransport
x02-digitalDigital infrastructure
Selected dependency

Industry and manufacturing

New and reshored production, processing and industrial electrification add large, often concentrated loads. The IEA decomposition is used without inventing a global industry share.S01S16

What it changes: DRIVER
Definitions and scope. Buildings is a subtotal that contains cooling and electrified heat. · The map is causal rather than an additive market-size chart. S01S03S16S21What this establishes. Electricity demand is rising through several end uses at once; no single technology explains the build-out.
X03 AI: modest globally, large locally How can data centres be modest globally yet decisive locally?
RecordStatusWhat the evidence says
All data centres — recent useHISTORICAL_ESTIMATEHistorical estimate for all data centres, not AI alone. · 415S03
All data centres — base caseMODELLEDCentral model case; adoption, efficiency and utilisation remain uncertain. · ~945S03
HeadwindsMODELLEDConditional case with slower deployment; not assigned a probability. · ~700S03
High EfficiencyMODELLEDConditional case in which efficiency materially restrains energy use. · ~970S03
Lift-OffMODELLEDConditional case with faster AI deployment and electricity use; not a forecast ceiling. · >1,700S03
Share of global demand growthMODELLEDA modest global share in the base case. The denominator is worldwide electricity-demand growth. · <10%S03
Share of United States demand growthOFFICIAL_ESTIMATEA large local and national contribution. The denominator differs from the global share and the two bars must not be subtracted. · ~50%S01
Definitions and scope. Data-centre demand includes AI and non-AI computing. · Global and United States growth shares use different denominators; sensitivity cases are conditional. S01S03What this establishes. AI-related computing is a concentrated local load inside a much wider electricity-demand increase, with a broad sensitivity range.
Chapter 04 · The global map

The constraint is global, but the starting points are not

Three electricity worlds make the comparison legible. Mature systems are seeing demand return to networks built during a slower era. Fast-growth industrial systems must add enormous volumes of demand, generation and networks together. Access-constrained systems still need first connection, dependable service and affordability, often with limited fiscal space and a high cost of capital. This is not a ranking. Each world is tested on the same six questions: what drives demand, what generation is being added, what network work is required, what flexibility exists, whether reliability or access improves, and who ultimately pays.S01S08S11S22

In the United States, national demand growth has returned and data-centre concentration makes local capacity, generation adequacy and cost shifting visible. FERC's 2026 show-cause action covers six organised markets but explicitly recognises regional differences in definitions, studies, operating requirements, upgrades and cost allocation. In Europe, electrification meets ageing distribution networks and cross-border planning. Great Britain's former queue exceeded 700 GW and included waits of up to ten years, but that old queue was not demand or a needed build programme. Reform reordered projects; only realised connection times will show whether the clock changed.S07S08S09S18S19

China and India reveal a different scale. China is expected to account for nearly half of the global increase in electricity demand to 2030 while continuing very large renewable and network additions. High national build and utilisation do not eliminate provincial or node-level constraints. India has the fastest demand growth among the large regions in the IEA comparison, and its transmission plan provides unusually useful stage evidence: by March 2024, some inter-regional additions were commissioned, others were under construction or bidding, and another tranche had not yet entered those stages. That separation is more decision-useful than one combined plan total.S01S06S10S17

Southeast Asia combines industry, rising cooling demand and digital infrastructure with national-grid expansion and cross-border ambition. Its modelled average demand growth of 5.3% in 2026–2030 is close to India's fast-growth world, but its delivery institutions span several countries. The Middle East adds cooling, desalination and industrial projects, yet Gulf interconnection, import-constrained systems and conflict-affected markets should not be compressed into one capacity story. In both regions, a headline generation plan can be real while finance, interconnection, fuel, storage or network synchronisation still owns the in-service date.S01S20S21

Africa keeps the universal thesis honest. In 2024, an estimated 655 million people worldwide still lacked electricity access, more than 560 million of them in Sub-Saharan Africa. A connection can exist and still be unaffordable or unreliable, so the outcome cannot be measured only in installed generation. Grid extension, mini-grids and stand-alone systems each have a role, with concessional finance and utility viability affecting delivery. The supercycle is incomplete if it serves new industrial and digital loads while leaving first connection, distribution quality and basic affordability outside the frame.S11S22

Latin America adds hydro dependence, transmission distance and climate exposure. Brazil's system institutions forecast average load growth of 3.4% in 2025–2029, while the PDE 2035 reference case estimates roughly BRL 120 billion of transmission investment through 2035. The first is a forecast and the second a planning need, not an award or construction result. Curtailment can arise from transmission congestion, operational conditions, contract rules and changing hydrology. Comparing the region well therefore means following load, lines, storage, dispatch and drought together rather than assigning every lost unit to one missing asset.S23S24

Chapter 05 · The constraint

An announced megawatt is only the first gate

A credible power-ready date begins with a lifecycle. “Planned” means an intention; “contracted” means commercial obligations exist; “financed” means capital has been committed on stated terms; “under construction” means physical delivery has begun; “connected” means the network interface has been energised under an agreement; and “operating” means the asset or load is actually producing or consuming. These states are not interchangeable. The Australian Energy Market Operator makes the distinction concrete by tracking projects from application through registration and commissioning to full output, with modelling and performance standards as explicit parts of the process.S12S13

AEMO's March 2026 scorecard recorded 67.3 GW of generation and storage progressing through the National Electricity Market connection process, compared with about 73 GW of existing capacity excluding consumer energy resources. The pipeline had grown by a third in a year. None of that makes the full pipeline operating capacity. The value of the scorecard is its movement between states: applications can be approved, projects can register, commissioning can advance, and only then can full output be recorded. India offers a comparable discipline from a government plan, separating commissioned transmission from construction, bidding and later perspective stages.S10S12

The worldwide queue estimate needs the same discipline. Its more-than-2,500-GW headline is a QUEUED / OFFICIAL ESTIMATE that mixes renewable generation, storage and large loads at different stages; it is not operating capacity. The IEA's high-level work suggests that reform, grid-enhancing technology and non-firm arrangements could unlock substantial advanced-stage capacity, but the ranges are non-additive and omit some local technical constraints. Non-firm service can accelerate access while permitting curtailment. The honest funnel therefore ends with “connected outcome not yet observed.” No global conversion rate should be invented from a changing collection of queue definitions, duplicate projects, cancellations and reassessments.S02

One disclosed US case shows how the gates separate. A Talen filing described power-sale options associated with the Susquehanna data-campus transaction in increments up to a 960 MW contractual ceiling. PJM reported no material transmission impact only up to 480 MW, including 300 MW previously authorised; transfer above the study boundary produced deliverability violations that required upgrades. FERC rejected the amended interconnection agreement without prejudice in November 2024. The cited records do not establish completed network works, commissioning or operating load at the ceiling. The right conclusion is not that the project failed or succeeded, but that the public evidence stops before power-ready operation.S14S15

Cost ownership can hold the same critical path. A network upgrade may benefit the connecting project, later users and system reliability in different proportions. The connecting party may accept a bespoke contribution, self-build work, staged service or curtailment; the network company may recover allowed investment from tariffs; regulators may need to decide how costs move between existing and new customers. FERC's large-load action, the European Commission's grid programme, Ofgem's transmission allowance and India's plan all show public institutions working on this boundary. None of those policy or allowance records, by itself, is completed construction.S07S08S10S25

The practical diligence test is short enough to use. First, state the load and ramp rather than only the ultimate ceiling. Second, identify available supply and its physical node, not just a contractual clean-power claim. Third, name the study, voltage, upgrades and equipment. Fourth, record permits, land, modelling and performance standards. Fifth, show who pays and what can be curtailed. Sixth, separate ordered, financed, construction, connected and operating evidence. Finally, ask which dependency has the least schedule evidence and the weakest owner. That dependency, not the largest megawatt on the page, owns the date.S02S07S13

X04 Where a power-ready project stalls What does the public record establish at each power-ready gate?
RecordStatusWhat the evidence says
Contracted option ceilingANNOUNCEDTalen's filing described capacity options in increments up to this ceiling. Contracted is not connected or operating. · 960S15
Previously authorised transferADMINISTRATIVEThe regulator record identifies this prior administrative state; it does not establish current operating load. · 300S14
Study boundary without material transmission impactADMINISTRATIVEPJM's disclosed study finding included the previously authorised amount. Transfer above this boundary required violations to be removed through upgrades. · 480S14
Network worksREQUIRED ABOVE STUDY BOUNDARYThe public order says larger transfer depends on resolving deliverability violations. It does not provide a completed-work date in the cited record. · Date unknownS14
Equipment and constructionNOT ESTABLISHEDNo complete procurement, construction or energisation sequence is established by the two cited documents. The gap remains visible rather than inferred. · Date unknownS14S15
CommissioningNOT ESTABLISHEDThe filing and order do not establish a completed commissioning gate for the full contractual ceiling. · Date unknownS14S15
Energised operating loadNOT ESTABLISHEDOperating load at the contractual ceiling is not established. The case therefore ends at a documented boundary, not a claimed in-service outcome. · Not observedS14S15
Definitions and scope. Contracted, authorised, studied, upgraded, commissioned and operating are separate states. · Unknown means the cited record does not establish the date; it does not prove that no activity occurred. S14S15What this establishes. A large contractual ceiling does not become usable power until study limits, network work, equipment, commissioning and energisation clear.
X05 From queue headline to usable capacity How much of a worldwide queue can honestly be called usable capacity?
RecordStatusWhat the evidence says
Worldwide queue headlineOFFICIAL_ESTIMATEQUEUED / OFFICIAL ESTIMATE. Source-native mix of renewable-generation, storage and large-load projects; not operating capacity or an operating supply total. · >2,500S02
Advanced-stage subsetINDICATIVE SUBSETLate-stage and under-review records are screened more tightly than early requests, but cancellations and reassessments still move the boundary.S02
Potentially unlockable — lower boundMODELLEDHigh-level model output before local voltage, fault-level, substation and profile constraints are fully tested. · 1,200S02
Potentially unlockable — upper boundMODELLEDUpper end of the same model range; not added to the lower bound or to other technology ranges. · 1,600S02
Non-firm access — lower boundMODELLEDPotential access with curtailment rights and local operating conditions; not firm delivery. · 750S02
Non-firm access — upper boundMODELLEDUpper end of a non-additive model range. Curtailment can move commercial and operational risk to the connecting party. · 900S02
Connected outcomeNOT YET OBSERVEDNo global connected outcome can yet be read from the queue estimate. Only later commissioning and operating records can close this stage. · Not observedS02
Definitions and scope. The queue headline is a source-native mix of renewable generation, storage and large loads. · Unlock and non-firm ranges are high-level, non-additive estimates rather than realised outcomes. S02What this establishes. The worldwide queue is evidence of a screening and network problem, not a forecast of operating capacity.
X07 Grid money and delivery Does rising grid spending prove that more network is being delivered?

Planning comparison · real 2024 MER

USD billion annual grid investment, real 2024 MERPlanning comparison · real 2024 MERThe two real-dollar price vintages stay in separate panels. Spending is capital expenditure, not supplier revenue; higher equipment prices can raise spending without an equal rise in delivered volume.~$400bnAround 2025 planning baselineOFFICIAL_ESTIMATE~$600bn2030 implied requirementMODELLED

Later tracking · real 2025 MER

USD billion annual grid investment, real 2025 MERLater tracking · real 2025 MERThe two real-dollar price vintages stay in separate panels. Spending is capital expenditure, not supplier revenue; higher equipment prices can raise spending without an equal rise in delivered volume.~$450bn2025OFFICIAL_ESTIMATE
The two real-dollar price vintages stay in separate panels. Spending is capital expenditure, not supplier revenue; higher equipment prices can raise spending without an equal rise in delivered volume.
Definitions and scope. The February planning comparison uses real 2024 US dollars at market exchange rates. · The May tracking estimate uses real 2025 US dollars; capital spending is not supplier revenue or physical volume. S02S04S05What this establishes. Grid capital is rising, but price basis and delivered physical volume must be checked before a spending total is used as evidence of build-out.
Chapter 06 · What to watch

Operating evidence, not pipeline volume, settles the build-out

The next five years should be watched as a conversion problem. Demand forecasts need to become measured load without wholesale cancellation. Queue reform needs to produce completed studies, constructed upgrades and shorter realised connection times. Capital spending needs to translate into lines, substations, transformers and digital control rather than mainly higher unit prices. Flexible service needs to reveal its curtailment frequency and commercial value. In access-constrained systems, connection counts need to become reliable and affordable service. Each signal has an owner, a time window and a condition that would weaken the argument.S01S02S05S11

Demand is the first falsification test. The IEA outlook is a central forecast, and data-centre scenarios span a wide range. If industrial projects, electric-vehicle uptake or data-centre campuses are cancelled or ramp much more slowly, networks may gain time and some local scarcity could ease. That would not erase ageing assets or access needs, but it would reduce the urgency of capacity built solely for one high case. Conversely, measured load growth across several end uses would strengthen the whole-system interpretation because no single driver could explain the outcome.S01S03S18S23

Delivery is the second test. Great Britain's reordered queue, AEMO's state-by-state scorecard and India's staged transmission plan provide templates for evidence that can move. The relevant changes are not a smaller headline alone, but more projects clearing studies, reaching construction, commissioning and full output on disclosed dates. FERC's action will matter when tariff changes are final, studies become more predictable and cost allocation ceases to reopen the schedule. If reform compresses realised connection time without the expected rise in capital, the present thesis weakens in a useful way: institutions and flexibility will have substituted for part of the build.S07S09S10S12

Physical productivity is the third test. The World Energy Investment series warns that spending can rise because transformers, cables, metals, labour and project complexity cost more. A stronger result would pair money with completed circuit length, transformation capacity, connection throughput and reliability. Ofgem's initial electricity-transmission allowance, European investment needs and Brazil's reference scenario are inputs to that test, not answers. When public reporting distinguishes initial allowances, contingent funding, awards, construction and commissioned assets, customers can see whether the capital cycle is expanding the system or compensating for inflation and delay.S04S05S08S24S25

The final test is distributional. A system can connect a prestigious large load while shifting excessive costs to existing customers, or add generation while access and service quality remain poor. Cost-allocation decisions, curtailment terms, reliability outcomes and affordability therefore belong beside megawatts and dollars. The confirmation signal is a portfolio of commissioned networks, connected loads, maintained reliability and wider access, with costs assigned through rules that remain workable as the system grows. That is a more demanding measure than investment, and the only one that shows whether the supercycle delivered usable electricity.S07S11S17S22

X06 The proof moves from contracts to operating load Which records should a buyer check over the next five years?
Evidence and owner
Now12m24m36m60m
Test that would change the judgement
3–24 months

Demand converts to measured load

Who can evidence it: National statistical agencies, system operators and utilities

Forecast industrial, transport, cooling and digital demand must appear in metered energy and peak-load records before the high build case is confirmed.S01S03S18S23

3m24m
Would change the judgementBroad cancellations or materially slower ramps across several end uses would reduce near-term network scarcity and lower the required build pace.
6–36 months

Queue reform reaches full output

Who can evidence it: NESO, AEMO, FERC-jurisdictional operators and regulators

A smaller or reordered queue matters only if studies, upgrades, commissioning and permission for full output move faster in realised operator records.S07S09S12S13

6m36m
Would change the judgementSustained reductions in realised connection time without a matching capital surge would show that process reform and flexibility displaced part of the build need.
6–30 months

Equipment lead times normalise

Who can evidence it: Utilities, transmission owners and equipment manufacturers

Transformer, cable and specialist-equipment availability determines whether approved network work can move from finance and orders into construction.S02S05

6m30m
Would change the judgementFalling prices and shorter disclosed delivery windows across major equipment classes would remove an important industrial constraint from the critical path.
12–48 months

Capital becomes commissioned network

Who can evidence it: Regulators, network companies and government planning agencies

Spending must be matched with completed lines, substations, transformation capacity and connections rather than read as physical delivery by itself.S04S05S10S25

12m48m
Would change the judgementHigh commissioning throughput at lower real capital intensity would show that the system can clear with less spending than the planning comparison implies.
12–60 months

Access becomes reliable and affordable service

Who can evidence it: Governments, utilities, development banks and access providers

New connections in access-constrained systems count as success only when households and firms can use dependable electricity at an affordable cost.S11S22

12m60m
Would change the judgementRapid access gains with improving reliability and affordability but limited central-grid expansion would show distributed models carrying more of the outcome.
Definitions and scope. The range bars are monitoring windows, not forecast completion dates. · Operating load is the lagging test; agreements, funding and orders are earlier evidence. S01S03S18S23S07S09S12S13S02S05S04S10S25S11S22What this establishes. Evidence should progress from agreements and cost allocation to equipment, construction and energised load.
Conclusion

The power-ready path is the asset

The global power supercycle is real as a whole-system delivery test, not as a promise that every announced project will operate. Demand is accelerating across several end uses; generation has scaled faster than many networks; connection queues, equipment, permits, flexibility and cost allocation expose the gap between ambition and usable power. Yet the evidence is not a blanket claim of gridlock. China continues to build and integrate at enormous scale, India records both commissioned and unfinished transmission, mature systems are reforming their processes, and distributed models can carry part of the access task. The common constraint is conditional: where load or generation arrives before a credible network and operating path, the schedule belongs to the missing dependency.S01S02S10S17S22

That gives a buyer a practical decision rule. Discount an ultimate megawatt until the load ramp, physical supply, study boundary, upgrades, equipment, permits, commissioning plan, flexibility terms and cost owner are visible in the same record. Treat queue positions, contracts, allowances and construction as useful but incomplete states. Then watch whether the next evidence is an energised connection and sustained operating output. The rule works for a data-centre campus, an industrial site, a renewable portfolio, a transmission programme or an access project because it asks the same question at the right level: which dependency owns the in-service date, and what dated public or project evidence would retire it?S07S12S13S14S25

The investable headline is capacity; the decision-grade asset is the route that makes capacity usable.

Evidence · definitions · limits

Every consequential claim can be checked.

The evidence is open. Plans, scenarios and operating facts remain visibly different.

The evidence cut-off is 13 July 2026. Public regulators, governments, intergovernmental organisations, recognised system institutions and first-party filings are used as factual authorities. Every material figure retains its geography, period, unit and status. Forecasts, scenarios and high-level unlock estimates are labelled rather than written as settled outcomes. Connection requests, queue entries, commercial contracts, regulatory allowances and planning cases remain separate from construction, connection and operation.S01S02S04S07

The worldwide queue is not rebuilt from regional totals because definitions are not sufficiently comparable. The report uses the IEA's source-native mix of renewable generation, storage and large loads and labels every appearance QUEUED / OFFICIAL ESTIMATE. The investment comparison keeps real-2024 and real-2025 dollar bases apart. Data-centre evidence is not relabelled AI demand. Renewable capacity is not relabelled generation, and contractual clean power is not treated as the physical mix at a node.S02S03S04S06

Public evidence also has hard limits. A missing construction date does not prove delay; an absent operating value does not prove zero; a national statistic does not diagnose a substation; and an approved policy does not establish implementation. The Susquehanna case is used because its public boundary is unusually clear, not because it represents every large load. Regional comparisons use common questions while preserving different denominators. These rules keep the argument useful without converting gaps in public information into private operational claims.S10S13S14S15

  • Global and regional queue definitions differ, so no queue total is reconstructed by adding operator or country figures.
  • Demand forecasts and data-centre scenarios are model outputs, not probabilities, project commitments or guaranteed operating load.
  • Investment aggregates measure capital spending on defined price bases and are not supplier revenue, physical delivery or addressable market size.
  • Installed generation, contracted clean power and connection offers do not establish the physical node mix or a completed energised connection.
  • National indicators cannot diagnose a particular substation, feeder, project schedule or non-public operational condition.
Filter by evidence role
S01International Energy AgencyElectricity 2026 — Demand · 2026-02-06Online chapter: Global overview and regional sections; 2025 estimate and 2026–2030 forecast. · Supports demand increments, end-use contributions and regional growth rates; forward values are forecasts.
S02International Energy AgencyElectricity 2026 — Grids · 2026-02-06Online chapter opening and charts on queues, typical development timelines and grid-enhancing technologies. · Supports queued categories, high-level unlock ranges, investment requirement, equipment prices and lead times.
S03International Energy AgencyEnergy and AI — Energy demand from AI · 2025-04-10Online chapter paragraphs on 2024 use, 2030 base case, regional increments and 2035 sensitivity cases. · Supports data-centre electricity use and scenario ranges; data centres are not a synonym for AI alone.
S04International Energy AgencyWorld Energy Investment 2026 — How we track investment in energy · 2026-05-28Methodology defines ongoing capital spending, real 2025 US dollars and market-exchange-rate conversions. · Excludes operating expenditure, R&D, financing costs, mergers and acquisitions, and public-market transactions.
S05International Energy AgencyWorld Energy Investment 2026 — Sector highlights · 2026-05-28Power section, pages 95–96 in the report: 2025 grid spending and 2026 growth estimate. · States that part of the spending rise reflects equipment-price inflation rather than only delivered volume.
S06International Renewable Energy AgencyRenewable Capacity Statistics 2026 · 2026-03PDF notes and total renewable-energy table: for most countries, capacity installed and connected at calendar year-end. · Supports the generation build-out context; capacity is not generation, firm deliverability or demand served.
S07Federal Energy Regulatory CommissionFERC Launches Aggressive, Targeted Action to Speed Large Load Integration · 2026-06-18Release paragraphs and five-category list covering six FERC-jurisdictional RTO/ISO regions. · The action requests tariff justification or reform; it is not a final nationwide process or delivery outcome.
S08European CommissionEuropean grids · 2026 current pageOpening grid-system facts and the EU Action Plan for Grids / European Grids Package sections. · Supports network length, asset-age and investment-need estimates; the package is not completed delivery.
S09National Energy System OperatorConnections Reform Results · 2026 current pageOpening results text on the former queue, application review and first-ready, first-needed reordering. · The old queue is not committed or connected capacity; offers and pipeline positions are pre-operational states.
S10Central Electricity Authority, Ministry of Power, Government of IndiaNational Electricity Plan, Volume II: Transmission · 2024-10Executive Summary pages xxvi–xxxii and Chapter 7 separate actual, commissioned, construction, bidding and planned states. · Supports Indian transmission delivery stages; perspective-plan figures are subject to revision.
S11World Bank and SDG 7 custodian agencies655 Million People Still Without Electricity Underscore Urgent Need to Deliver Universal Energy Access · 2026-06-24Key findings on 2024 electricity access, Sub-Saharan Africa and affordability. · Access is a service threshold and does not by itself measure reliability, quality or affordability.
S12Australian Energy Market OperatorBatteries continue to dominate NEM connections as pipeline grows · 2026-04-23March-quarter 2026 Connections Scorecard release with application, registration, commissioning and full-output states. · Pipeline capacity is progressing through a process and is not connected or operating capacity.
S13Australian Energy Market OperatorTransmission and distribution in the NEM · 2026 current pageConnection-process stages, modelling, performance standards, registration, commissioning and full-output requirements. · Supports a non-US and non-GB lifecycle comparison without implying common queue definitions.
S14Federal Energy Regulatory CommissionOrder Rejecting Amended Interconnection Service Agreement, PJM Interconnection, L.L.C. · 2024-11-01Docket ER24-2172-000, especially page 5 and the order conclusion. · Supports the disclosed Susquehanna study boundary; the order rejected the amended agreement without prejudice.
S15Talen Energy CorporationRegistration statement containing Cumulus Data Campus power-sale agreement description · 2024-06-26Cumulus Data Campus / Amazon Web Services agreement description and incremental capacity options. · Contractual options and ceilings are not proof of physical transfer, commissioning or operating load.
S16International Energy AgencyGlobal Energy Review 2026 — Electricity demand · 2026-03Online chapter on 2025 demand growth and contributions from emerging economies, data centres and electric vehicles. · Absolute contributions and sector growth rates answer different questions and are not interchangeable.
S17National Energy Administration of China2025 national power-supply reliability and service report · 2026-07-03Numbered findings on 2025 users, grid investment, distribution investment and charging connections. · National totals do not establish that every provincial or local distribution network is unconstrained.
S18US Energy Information AdministrationRecent electricity-load growth marks a shift from the previous two decades · 2026-03-12Opening paragraphs and chart on annual average US net-energy-for-load growth. · National energy growth does not describe local coincident peaks, queue status or data-centre concentration.
S19North American Electric Reliability Corporation2025 Long-Term Reliability Assessment · 2026-01Regional summaries and methodology on load-forecast screening and treatment of uncontracted large loads. · Planner forecasts and signed interconnection agreements remain point-in-time, pre-operational evidence.
S20International Energy AgencySoutheast Asia Energy Outlook 2026 — Executive summary · 2026Executive-summary passages on cooling, data centres, network expansion, storage and cross-border links. · Long-horizon network and investment values are scenario-dependent and not a 2026–2030 delivery forecast.
S21International Energy AgencyElectricity demand is surging across the Middle East and North Africa, driven by cooling and desalination needs · 2025-09-18Opening paragraphs and passages on cooling, desalination, industry and network investment. · MENA is not identical to the report's Middle East grouping; longer-horizon values are scenarios.
S22International Energy AgencyFinancing Electricity Access in Africa — Executive summary · 2025-10-20Public funding, investment requirements, sources of finance, affordability and cost-of-capital sections. · The access investment path is a scenario in real 2024 US dollars, not committed spending.
S23Empresa de Pesquisa Energética, ONS and CCEEFirst 2025–2029 revision of Brazil's load forecast · 2025-04-04Forecast-revision paragraphs and table from 2025 to 2029. · This is a revised system-load forecast, not observed load or a connection commitment.
S24Empresa de Pesquisa EnergéticaMME and EPE estimate transmission investment to 2035 · 2025-12-23Opening paragraphs and PDE 2035 reference-scenario description. · Reference-scenario need is not a committed project portfolio, construction outturn or supplier revenue.
S25Office of Gas and Electricity MarketsRIIO-3 final determinations for electricity transmission, gas distribution and gas transmission · 2025-12-04Decision overview and electricity-transmission annex for the April 2026–March 2031 control period. · The initial electricity allowance is distinct from wider contingent and mixed-sector pipeline headlines.
Showing 25 of 25 sources
Questions readers ask
Is the global power supercycle mainly an AI story?

No. AI is a concentrated local load inside a wider increase from industry, cooling, transport, heat and rising electricity access.

Why does generation investment not guarantee power-ready sites?

Network studies, equipment, permits, flexibility, cost allocation, commissioning and energisation must clear as well.

Does queued capacity equal future operating capacity?

No. Queue totals can mix renewable generation, storage and large loads at different stages and may include stalled or withdrawn projects.

How does the report compare regions?

It compares common system variables without forcing mature, fast-growth and access-constrained electricity systems onto one false scale.

Use the report

Find the dependency that owns one in-service date.

Name a proposed load, generation portfolio or grid investment. Lansary will separate supply, connection works, equipment, permits, flexibility, cost ownership and the evidence required before the date can be trusted.

Test a power-ready date