US LNG Export Surge Strains Power Grid Amid Energy Infrastructure Expansion
US LNG Export Surge and Power Grid Bottlenecks: Implications for Energy Infrastructure and Natural Gas Markets
Over the past 72 hours, OSINT indicates a sustained increase in US LNG exports and capacity expansions are intensifying stress on Gulf Coast power grids amid rising demand for natural gas and electricity. The data highlights ongoing infrastructure bottlenecks linked to energy supply and grid resilience challenges.
US LNG exports reached record weekly levels with 37 LNG carriers sailing, and exports from Plaquemines LNG ramped up faster than anticipated, contributing to increased regional grid load. Forecasts project a 37% rise in US LNG export capacity from 2024 to 2025, further straining energy infrastructure amid new power capacity additions.
US liquefaction capacity increased by 47 million tonnes per year in 2025, with additional capacity planned through 2030, heightening transmission bottlenecks particularly in the Gulf Coast. Meanwhile, US power capacity additions of 13.9 Bcf/d between 2025–2029 are focused on the same regions, amplifying grid stress from combined natural gas and LNG export demands.
The LNG carrier orderbook remains insufficient for the projected 229 million tonnes per year of new export capacity through 2030, with shipping constraints potentially delaying export relief and indirectly increasing domestic grid reliance.
These signals collectively demonstrate a pattern of increasing energy export activity and infrastructure expansion that could elevate grid vulnerabilities, especially if supply chain constraints or weather disruptions occur.
These OSINT signals suggest that the convergence of rising LNG exports, capacity expansions, and power infrastructure development is creating structural bottlenecks in the US energy infrastructure, with potential implications for natural gas markets and grid stability.
OSINT does not specify margin levels, operational constraints, or detailed capacity utilization rates, which limits comprehensive risk assessment of grid resilience and supply chain robustness at this stage.
