It’s so ironic. New England is only a stone’s throw from the burgeoning Marcellus natural gas production area, but pipeline constraints during high-demand periods in the wintertime leave power generators in the six-state region gasping for more gas. Now, with only minimal expansions to New England’s gas pipeline network on the horizon, the region is doubling down on a long-term plan to rely on a combination of gas liquefaction, LNG storage, LNG imports and gas-to-oil fuel switching at dual-fuel power plants to help keep the heat and lights on through those inevitable cold snaps. Today, we discuss recent developments on the gas-supply front in “Patriots Nation.”

After somewhat of a lull in U.S. LNG export growth through much of 2018, demand for feedgas has revved up this fall. Total feedgas deliveries to U.S. LNG export terminals topped 5 Bcf/d for the first time this past weekend, thereby also surpassing exports to Mexico for the first time. All five commercialized liquefaction trains — four at Cheniere Energy’s Sabine Pass and one at Dominion’s Cove Point LNG — are operating at or near full capacity for the first time. Simultaneously, commissioning activity is under way now for four new liquefaction trains, including the initial trains at two new export terminals. This steady gas demand is underpinned by gas pipeline expansions designed to provide more direct and economical connectivity between U.S. producing regions and the export terminals. Today, we continue our blog series looking at feedgas pipeline projects and their effect on feedgas flows, this time with a focus on Dominion’s Cove Point LNG.

Feedgas demand at U.S. LNG export terminals has climbed 1.3 Bcf/d, or ~40%, in just three months to an average 4.4 Bcf/d in December to date and hit an all-time single-day high of over 4.6 Bcf/d last Tuesday. The big jump in demand came as U.S. Gulf Coast LNG operators have begun commissioning three new liquefaction trains, including the initial trains at two new export terminals. At the same time, pipeline expansions targeting both existing and newly active terminals have been completed to meet that demand. How are the new trains being supplied and what’s the effect on gas flows? Today’s blog takes a closer look at recent changes in liquefaction and feedgas delivery capacity and their effect on feedgas flows, starting with Cheniere Energy’s Sabine Pass Liquefaction.

The U.S. natural gas market’s supply-demand balance in 2018 has been razor thin, with demand ramping up to match strong production gains. The result has been a large and stubborn storage deficit compared to prior years and price volatility, the likes of which the market hasn’t seen in a decade or more. How will the current storage level affect the winter gas market, and what are the prospects for storage to catch up before the winter is up? Today’s blog considers potential scenarios for the season-ending gas inventory balance.

Reliably low Henry Hub natural gas prices are a primary, long-term driver of U.S. LNG exports. But prices were up as much as 40% during November and, with gas inventories unusually low, Henry prices could spike considerably higher if winter weather continues to come in colder than normal. Which raises the question, how high would gas prices need to go before U.S. liquefaction becomes the lever that balances the U.S. gas market? The short answer is, it depends on where the LNG is headed — and lately, a lot more is bound for Europe. Today, we continue our review of the current gas market with an analysis of LNG variable costs and UK National Balancing Point prices, and how they will help determine LNG export volumes if U.S. gas prices spike.

Crude oil and natural gas production in the Bakken are at all-time highs, as are the volumes of gas being processed in and transported out of the play. The bad news is that for the past few months, the volumes of Bakken gas being flared are also at record levels, and producers as a whole have been exceeding the state of North Dakota’s goal on the percentage of gas that is flared at the lease rather than captured, processed and piped away. State regulators last week stood by their flaring goals, but in an effort to ease the squeeze they gave producers a lot more flexibility in what gas is counted — and not counted — when the flaring calculations are made. Today, we update gas production, processing and flaring in what’s been one of the nation’s hottest production regions.

Developers are scrambling to advance the next round of liquefaction/LNG export projects, primarily along the U.S. Gulf Coast. Earlier this month, LNG marketing behemoth Total SA signed initial agreements with Sempra Energy that would support Sempra’s efforts to add more liquefaction capacity at its Cameron LNG project in southwestern Louisiana and to build a liquefaction plant at its Energía Costa Azul LNG import terminal in Mexico’s Baja California state. A few days later, Total, Mitsui & Co., and Tokyo Gas signed heads of agreements for the entire capacity of the Mexican liquefaction project, propelling that project to the fore. Sempra also continues to pursue a third project: Port Arthur LNG. Today, we continue our series on the next round of liquefaction/LNG export terminals “coming up” with a look at Phase 2 of Cameron LNG, as well as Energía Costa Azul and Port Arthur LNG.