A tremor ran through the oil & gas industry last week. It wasn’t a by-product of fracking activity, but it is certainly linked. Supermajor Chevron agreed to purchase US independent Anadarko Petroleum for US$33 billion, a 39% premium to Anadarko’s last traded price. It’s the largest industry deal since Shell’s US$61 billion takeover of the BG Group in 2015. That deal catapulted Shell to become the world’s largest LNG trader, expanding its reach in the fast-evolving industry. Chevron will be looking to do the same.
The purchase of Anadarko gets Chevron into two prolific areas: the Permian Basin in the US and LNG. Chevron is already one of the largest supermajors operating in the Permian, with 2.3 million acres in the area. In this respect, the purchase is strategic. Combined with Anadarko’s assets, Chevron would now have a 120 sq.km corridor in the sweet spot of the shale basin – Delaware, which straddles the Texas-New Mexico border. It’s a major salvo fired and a great boost to Chevron’s ambitions, which named investment in the Permian as its major focus last year. But more than just extracting oil, the purchase plugs a hole in Chevron’s portfolio. Through Anadarko, Chevron will gain major US midstream space, including a 55% stake in the Western Midstream Partners whose pipelines crosses all over Texas, linking the Permian to the processing and exporting base on the Gulf.
Internationally, the acquisition also boosts Chevron’s presence in LNG, which had recently lagged behind other supermajors like Shell, ExxonMobil and Total. Anadarko’s Mozambique LNG project is neck-in-neck to become the African nation’s first LNG project with ExxonMobil. Drawing on Mozambique’s prolific Rovuma basin, the LNG export project has a nameplate capacity of 12.88 mtpa, of which 8.5 mtpa has already been committed through sales and purchase agreements. With FID scheduled for this year and operations expected in the 2023/24 timeframe, it complements Chevron’s current LNG portfolio – including the massive projects in Western Australia – nicely.
Together with recent investments in the upper echelon of energy companies, it seems the moniker supermajor may not be enough. Within the supermajor category, there was already a hierarchy, with ExxonMobil and Shell outpacing the rest. With this Anadarko apurchase, Chevron leaps into that tier, which analysts are calling ultramajors. That is, if there isn’t a spanner in the works. Occidental Petroleum, which is also focused on the Permian, had previously made a US$70 per share bid for Anadarko. It is now considering a counter proposal. The battle for Anadarko will go on, but we expect that Chevron will prevail, seeing how Anadarko’s operations fit so neatly into its own portfolio.
But more than just Chevron, could this be a preview of the future? The US shale revolution was kickstarted by plucky companies and ambitious independents, while the majors lost out. With this Chevron deal – along with ExxonMobil’s expansion and BP’s recent purchase of BHP assets – this could kick off another round of industry consolidation, centred around buying the way into the Permian and other shale basins. This might be a major purchase that shakes up the status quo, but if the signs are correct, there is more of this to come.
Infographic: The Chevron-Anadarko deal
Something interesting to share?
Join NrgEdge and create your own NrgBuzz today
Pioneering technology expert tells ADIPEC Energy Dialogue up to 80 per cent of plant shutdowns could be mitigated through combination of advanced electrification, automation and digitalisation technologies
Greater use of renewables in power management processes offers oil and gas companies opportunities to create efficiencies, sustainability and affordability when modernising equipment, or planning new CAPEX projects
Abu Dhabi, UAE – XX August 2020 – Leveraging the synergies created by the convergence of electrification, automation and digitalisation, can create significant cost savings for oil and gas companies when making both operational and capital investment decisions, according to Dr Peter Terwiesch, President of Industrial Automation at ABB, a Swiss-Swedish multinational company, operating mainly in robotics, power, heavy electrical equipment, and automation technology areas.
Participating in the latest ADIPEC Energy Dialogue, Dr Terwiesch said up to 80 per cent of energy industry plant shutdowns, caused by human error, or rotating machinery or power outages, could be mitigated through a combination of electrification, automation and digitalisation.
“Savings are clearly possible not only on the operation side but also, using the same synergies between dimensions, you can bring down the cost schedule and risk of capital investment, especially in a time when making projects work economically is harder,” explained Dr Terwiesch.
A pioneering technology leader, who works closely with utility, industry, transportation and infrastructure customers, Dr Terwiesch said despite the increasing investment by oil and gas companies in renewables and the growing use of renewables to generate electricity, both for individual and industrial uses, hydrocarbons will continue to have an important role in creating energy, in the short to medium term.
“If you look at the energy density constraints, clearly electricity is gaining share but electricity is not the source of energy; it is a conduit of energy. The energy has to come from somewhere and that can be hydrocarbons, or nuclear, or renewables.” he said.
Nevertheless, he added, the greater use of renewables to generate electricity offers oil and gas companies the option of integrating a higher share of renewables into power management processes to create efficiencies, sustainability and affordability when modernising equipment, or planning new CAPEX projects.
The ADIPEC Energy Dialogue is a series of online thought leadership events created by dmg events, organisers of the annual Abu Dhabi International Exhibition and Conference. Featuring key stakeholders and decision-makers in the oil and gas industry, the dialogues focus on how the industry is evolving and transforming in response to the rapidly changing energy market.
With this year’s in person ADIPEC exhibition and conference postponed to November 2021, the ADIPEC Energy Dialogue, along with insightful webinars, podcasts and on line panels continue to connect the oil and gas industry, with the challenges and opportunities shaping energy markets in the run up to, and following, a planned three-day live stream virtual ADIPEC conference taking place from November 9-11.
An industry first of its kind, the online conference will bring together energy leaders, ministers and global oil and gas CEOs to assess the collective measures the industry needs to put in place to fast-track recovery, post COVID-19.
To watch the full ADIPEC Energy Dialogue series go to: https://www.youtube.com/watch?v=QZzUd32n3_s&t=6s
Utility-scale battery storage systems are increasingly being installed in the United States. In 2010, the United States had seven operational battery storage systems, which accounted for 59 megawatts (MW) of power capacity (the maximum amount of power output a battery can provide in any instant) and 21 megawatthours (MWh) of energy capacity (the total amount of energy that can be stored or discharged by a battery). By the end of 2018, the United States had 125 operational battery storage systems, providing a total of 869 MW of installed power capacity and 1,236 MWh of energy capacity.
Battery storage systems store electricity produced by generators or pulled directly from the electrical grid, and they redistribute the power later as needed. These systems have a wide variety of applications, including integrating renewables into the grid, peak shaving, frequency regulation, and providing backup power.
Most utility-scale battery storage capacity is installed in regions covered by independent system operators (ISOs) or regional transmission organizations (RTOs). Historically, most battery systems are in the PJM Interconnection (PJM), which manages the power grid in 13 eastern and Midwestern states as well as the District of Columbia, and in the California Independent System Operator (CAISO). Together, PJM and CAISO accounted for 55% of the total battery storage power capacity built between 2010 and 2018. However, in 2018, more than 58% (130 MW) of new storage power capacity additions, representing 69% (337 MWh) of energy capacity additions, were installed in states outside of those areas.
In 2018, many regions outside of CAISO and PJM began adding greater amounts of battery storage capacity to their power grids, including Alaska and Hawaii, the Electric Reliability Council of Texas (ERCOT), and the Midcontinent Independent System Operator (MISO). Many of the additions were the result of procurement requirements, financial incentives, and long-term planning mechanisms that promote the use of energy storage in the respective states. Alaska and Hawaii, which have isolated power grids, are expanding battery storage capacity to increase grid reliability and reduce dependence on expensive fossil fuel imports.
Source: U.S. Energy Information Administration, Form EIA-860, Annual Electric Generator Report
Note: The cost range represents cost data elements from the 25th to 75th percentiles for each year of reported cost data.
Average costs per unit of energy capacity decreased 61% between 2015 and 2017, dropping from $2,153 per kilowatthour (kWh) to $834 per kWh. The large decrease in cost makes battery storage more economical, helping accelerate capacity growth. Affordable battery storage also plays an important role in the continued integration of storage with intermittent renewable electricity sources such as wind and solar.
Additional information on these topics is available in the U.S. Energy Information Administration’s (EIA) recently updated Battery Storage in the United States: An Update on Market Trends. This report explores trends in battery storage capacity additions and describes the current state of the market, including information on applications, cost, market and policy drivers, and future project developments.