The Japan Times - Europe’s power shock

EUR -
AED 4.193908
AFN 74.217931
ALL 93.86116
AMD 419.477829
ANG 2.044296
AOA 1047.038219
ARS 1698.960696
AUD 1.641236
AWG 2.055254
AZN 1.945606
BAM 1.953752
BBD 2.300428
BDT 140.774868
BGN 1.930661
BHD 0.430542
BIF 3408.296434
BMD 1.141808
BND 1.474367
BOB 7.905687
BRL 5.852683
BSD 1.142123
BTN 108.801878
BWP 15.445994
BYN 3.264905
BYR 22379.433872
BZD 2.297102
CAD 1.618456
CDF 2578.20254
CHF 0.922937
CLF 0.026823
CLP 1055.670318
CNY 7.737975
CNH 7.744055
COP 3714.997441
CRC 519.559808
CUC 1.141808
CUP 30.257908
CVE 110.645627
CZK 24.262051
DJF 202.92254
DKK 7.477671
DOP 67.028555
DZD 152.153406
EGP 56.663021
ERN 17.127118
ETB 181.975672
FJD 2.54989
FKP 0.851662
GBP 0.851778
GEL 3.020128
GGP 0.851662
GHS 13.090873
GIP 0.851662
GMD 83.927274
GNF 10022.222803
GTQ 8.714939
GYD 238.922636
HKD 8.950918
HNL 30.69755
HRK 7.536165
HTG 149.47459
HUF 356.004712
IDR 20644.513933
ILS 3.437874
IMP 0.851662
INR 109.079359
IQD 1495.19738
IRR 1569700.343007
ISK 143.457179
JEP 0.851662
JMD 180.461582
JOD 0.809587
JPY 184.602971
KES 147.525915
KGS 99.849731
KHR 4575.799296
KMF 493.261391
KPW 1027.627465
KRW 1711.650332
KWD 0.353459
KYD 0.951752
KZT 538.440178
LAK 25757.476713
LBP 102248.893419
LKR 383.188239
LRD 207.242432
LSL 18.62864
LTL 3.371462
LVL 0.690669
LYD 7.313324
MAD 10.670239
MDL 20.071901
MGA 4904.065114
MKD 61.655684
MMK 2397.006778
MNT 4094.17613
MOP 9.221747
MRU 45.741255
MUR 53.756746
MVR 17.641363
MWK 1983.32063
MXN 19.945218
MYR 4.647589
MZN 72.96578
NAD 18.634735
NGN 1573.320304
NIO 41.859106
NOK 11.169854
NPR 174.072343
NZD 1.981274
OMR 0.439389
PAB 1.142108
PEN 3.873588
PGK 5.001546
PHP 70.160711
PKR 317.594281
PLN 4.327509
PYG 6943.78048
QAR 4.160181
RON 5.237591
RSD 117.289972
RUB 87.947546
RWF 1672.748501
SAR 4.286192
SBD 9.189935
SCR 16.812962
SDG 685.659811
SEK 11.091778
SGD 1.476248
SHP 0.852475
SLE 27.803445
SLL 23943.143907
SOS 652.547368
SRD 42.943969
STD 23633.117206
STN 24.72014
SVC 9.993653
SYP 126.206417
SZL 18.634726
THB 38.011205
TJS 10.570656
TMT 3.996327
TND 3.376901
TOP 2.7492
TRY 53.633041
TTD 7.759932
TWD 36.667451
TZS 3002.958116
UAH 50.811249
UGX 4202.667251
USD 1.141808
UYU 46.052321
UZS 13733.098053
VES 809.320716
VND 29992.437715
VUV 137.516329
WST 3.162017
XAF 655.275703
XAG 0.019099
XAU 0.000278
XCD 3.085793
XCG 2.05846
XDR 0.814279
XOF 654.256277
XPF 119.331742
YER 270.694139
ZAR 18.789093
ZMK 10277.644917
ZMW 20.587505
ZWL 367.661662
  • CMSC

    0.0650

    22.085

    +0.29%

  • RYCEF

    0.0000

    19.25

    0%

  • GSK

    0.3100

    52.78

    +0.59%

  • VOD

    1.6400

    14.72

    +11.14%

  • NGG

    0.2700

    82.59

    +0.33%

  • RBGPF

    5.8500

    67.35

    +8.69%

  • BCE

    0.0600

    21.38

    +0.28%

  • AZN

    -6.8800

    171.61

    -4.01%

  • RIO

    1.0500

    90.54

    +1.16%

  • BTI

    -0.0151

    60.02

    -0.03%

  • RELX

    0.3700

    32.44

    +1.14%

  • CMSD

    0.0700

    22.38

    +0.31%

  • BCC

    3.8200

    76.06

    +5.02%

  • BP

    0.6500

    39.2

    +1.66%

  • JRI

    -0.0200

    13.01

    -0.15%


Europe’s power shock




On 28 April 2025, an unprecedented power failure plunged most of Spain and Portugal into darkness. Within seconds the Iberian Peninsula lost around 15 gigawatts of generation—roughly 60 % of demand. Flights were grounded, public transport stopped, hospitals cancelled routine operations and emergency services were stretched. Spain’s interior ministry declared a national emergency, deploying 30 000 police officers, while grid operators scrambled to restore power. The outage, thought to have originated in a failed interconnector with France, highlighted the fragility of Europe’s interconnected grids. An industry association later reported that it took 23 hours for the Iberian grid to return to normal capacity.

Energy analysts noted that the blackout was not only a technical failure but also a structural one. Spain and Portugal depend heavily on wind and solar power, which provide more than 40 % of Spain’s electricity and over 60 % in Portugal. These sources supply little rotational inertia, so when the France–Spain interconnector tripped the system lacked the flexibility and backup capacity to stabilise itself. Reliance on a single interconnector also left the peninsula “islanded” and unable to import power quickly.

A continent on edge
The Iberian blackout came against a backdrop of soaring energy prices, economic malaise and rising electricity demand from data centres and electrified transport. Europe has spent the past two years grappling with the fallout from Russia’s invasion of Ukraine, which cut cheap gas supplies and forced governments to scramble for alternative fuels. Germany’s Energiewende, once a model for the energy transition, has been strained. After shutting down its last three reactors on 15 April 2023, Germany shifted from being a net exporter of electricity to a net importer; by November 2024 imports reached 25 terawatt‑hours, nearly triple the 2023 level. About half of the imported electricity came from France, Switzerland and Belgium—countries whose power systems are dominated by nuclear energy. Germany’s gross domestic product shrank 0.3 % in 2023 and was expected to contract again in 2024, and a survey of 3 300 businesses found that 37 % were considering reducing production or relocating because of high energy costs; the figure was 45 % among energy‑intensive firms.

The collapse of domestic nuclear generation has increased Germany’s reliance on coal and gas. In the first half of 2025 the share of fossil‑fuel electricity rose to 42.2 %, up from 38.4 % a year earlier, while power from renewables fell by almost six percent. Coal‑fired generation increased 9.3 % and gas‑fired output 11.6 %; weak winds cut wind output by 18 %, even as solar photovoltaic production jumped 28 %. The result has been higher emissions and greater dependence on imports.

Yet Germany’s grid remains resilient: the Federal Network Agency reported that power disruptions averaged 11.7 minutes per customer in 2024—one of the lowest figures in Europe—and the energy transition has not compromised supply security. Nevertheless, researchers warn that unexpected shocks like the Iberian blackout could occur if investment in grid flexibility and storage does not keep pace.

Nuclear renaissance across Europe
The energy crisis has prompted many European governments to re‑examine nuclear energy. Belgium has repealed its nuclear‑phase‑out law and plans new reactors, arguing that nuclear power provides reliable, low‑carbon electricity. Denmark, Italy, Poland, Sweden and Spain have all signalled interest in building new plants or extending existing reactors. Italy intends to bring nuclear power back by 2030, while Denmark and Sweden are exploring small modular reactors. The European Union already has about 100 reactors that supply almost a quarter of its electricity. Nuclear plants emit few air pollutants and provide round‑the‑clock power, making them attractive for countries seeking to cut emissions and reduce reliance on gas. Critics remain concerned about waste disposal and the possibility that investment in nuclear could divert resources from renewables.

This shift is visible at the political level. In September 2025, France and Germany adopted a joint energy roadmap that recognises nuclear energy as a low‑carbon technology eligible for European financing. The roadmap aims to end discrimination against nuclear projects and represents a departure from Germany’s long‑standing opposition. It does not alter national policies but signals a shared stance in forthcoming EU negotiations.

Germany’s political U‑turn
Germany’s nuclear exit has become a central issue in domestic politics. Surveys show that two‑thirds of Germans support the continued use of nuclear energy, and more than 40 % favour building new plants. A 2024 report argued that there are no significant technical obstacles to restarting closed reactors and that three units could be back online by 2028 if decommissioning were halted, adding about 4 gigawatts of capacity. The same report noted that a moratorium on dismantling reactors and amendments to the Atomic Energy Act are urgent prerequisites.

During the February 2025 election campaign, conservative leader Friedrich Merz pledged to revive nuclear power and build 50 gas‑fired plants to stabilise the grid. His party’s manifesto proposed an expert review on restarting closed reactors and research into advanced technologies such as small modular reactors. In a surprising political shift, Merz’s government subsequently stopped blocking efforts at the European level to recognise nuclear power as a sustainable investment. At a Franco‑German summit in Toulon, he and French president Emmanuel Macron agreed on the principle of non‑discrimination for nuclear projects in EU financing.

However, the internal debate is far from settled. Katherina Reiche, Germany’s economy and energy minister, ruled out a return to conventional nuclear plants, saying that the phase‑out is complete and that companies lack the confidence to invest. She argued that the opportunity to extend the last three reactors during the crisis had been missed and emphasised the government’s focus on developing a domestic fusion reactor and potentially small modular reactors. Reiche also insisted on a “reality check” for renewable expansion and called for up to 20 gigawatts of new gas‑fired backup capacity. Her position reflects caution within the coalition, and some experts note that restarting closed reactors may face legal and economic hurdles.

Industrial relief and future challenges
High energy costs continue to burden German industry. In November 2025 the ruling coalition agreed to introduce a subsidised power price of five euro cents per kilowatt‑hour for energy‑intensive companies until 2028, pending EU approval. The plan aims to ease the competitive disadvantage faced by manufacturers and includes tendering eight gigawatts of new gas‑fired capacity. Critics argue that subsidies are a stop‑gap and that longer‑term competitiveness requires affordable, low‑carbon baseload power and streamlined permitting for renewable projects.

The Iberian blackout served as a warning that Europe’s future grid must be flexible and resilient. Analysts emphasise the need for more interconnectors, battery storage and demand‑side management to accommodate variable renewables. Germany’s grid reliability remains among the best in Europe, yet the country’s growing dependence on imports and fossil fuels raises concerns about security and climate targets. The energy crisis has revived nuclear energy as a serious option across Europe, forcing policymakers to balance decarbonisation with security of supply. Whether Germany fully embraces nuclear again remains uncertain, but the debate underscores a broader realisation: the energy transition requires a diversified mix of technologies, robust infrastructure and pragmatic policies rather than dogma.