Arrow Model

The U.S. may be in a monthslong pause in approving new LNG exports but that doesn’t change the fact that U.S. LNG export capacity will nearly double over the next four years, that most of the new liquefaction plants are being built along the Texas coast, and that their primary source of natural gas will be the Permian Basin. That helps to explain why three big midstream players — WhiteWater/I Squared, MPLX and Enbridge — recently formed a joint venture (JV) to develop, build, own and operate gas pipeline and storage assets that link the Permian to existing and planned LNG export terminals. In today’s RBN blog, we examine the new JV and discuss the ongoing development of midstream networks for crude oil, natural gas and NGLs. 

There’s already so much involved in developing new LNG export capacity: lining up offtakers, securing federal approvals, sourcing natural gas, developing pipelines ... the list goes on. Now, with the increased emphasis on minimizing emissions of methane, the folks involved in LNG exports are also wary of the methane intensity (MI) of their feedgas, which depends not only on the steps that gas producers, pipeline companies and LNG exporters themselves take to mitigate methane emissions but also on where the gas comes from. But with so many new export terminals coming online, gas flows are sure to change, right? So how can you possibly assess what those flow changes will mean for the MI of gas over time? In today’s RBN blog, we discuss the role that MI may play in sourcing natural gas for LNG. 

As mightily as U.S. LNG exports have impacted global trade dynamics, so have U.S. natural gas flows been reshaped by the pull toward Gulf Coast export terminals. The next new terminal on deck is Venture Global’s enormous Plaquemines facility in Louisiana, which could begin taking feedgas as early as late fall 2024 and will eventually ramp up to more than 2.6 Bcf/d. For Southeast Louisiana, home to a massive industrial corridor along the Mississippi River as well as the U.S. natural gas benchmark Henry Hub, the introduction of such a huge source of demand will change how gas flows into and out of the region — with knock-on effects across the Gulf Coast. In today’s RBN blog, we’ll turn once again to our Arrow Model to help illuminate what the path forward may look like. 

Big changes are coming to the new epicenter of the global LNG market: Texas and Louisiana. On top of the existing 12.5 Bcf/d of LNG export capacity in the two states, another 11+ Bcf/d of additional capacity is planned by 2028. The good news is that the two major supply basins that will feed this LNG demand — the Permian and the Haynesville — will be growing, but unfortunately not quite as fast as LNG exports beyond 2024. And there’s another complication, namely that the two basins are hundreds of miles from the coastal LNG terminals, meaning that we’ll need to see lots of incremental pipeline capacity developed to move gas to the water.