greenhouse gas management
We are committed to managing our greenhouse gas (GHG) emissions by improving energy efficiency, reducing flaring and venting and fixing methane leaks when they occur. We are also investing in two of the world's largest carbon dioxide injection projects.
We are addressing the GHG emissions in our operations and integrating GHG emissions management into the execution of our business activities. Further, we maintain and report inventories of our emissions, undertake projects to manage operating emissions and apply innovative technologies to improve the energy efficiency of our operations. We also assess the GHG emissions of our capital projects. When developing and approving major capital projects, we estimate a project’s incremental emissions profile, assess the potential financial impact of GHG regulations and examine the emissions reduction options.
Across our operations, the primary sources of our GHG emissions are combustion of fuels and, in some locations, flaring and venting of the natural gas (methane) that is extracted along with crude oil. In 2017, emissions totaled 63 million metric tons of CO2-equivalent, calculated on a direct, operated basis.
what we’re doing
Our climate change-related reporting is aligned with guidance topics from IPIECA’s Climate Change Reporting Framework that we believe are most useful to our stakeholders and aligns with the recommendations of the Task Force for Climate-related Disclosure (TCFD). We are also informed by other frameworks like the Sustainability Accounting Standards Board.
Since 2013, we have reduced flaring by 26.2 percent. We have developed internal country-specific plans to minimize gas flaring, and we are a member of the World Bank–led Global Gas Flaring Reduction Partnership. Chevron flares natural gas when required for safety and operational purposes and in areas where pipelines or other gas transportation alternatives do not exist.
At Tengizchevroil in Kazakhstan, in which Chevron has a 50 percent interest, we achieved a 94 percent reduction in the volume of gas flared between 2000 and 2010, through projects such as the $258 million gas utilization project.
Since 2008, activities carried out by the Nigerian National Petroleum Corporation/Chevron Nigeria Limited joint venture have reduced routine gas flaring by more than 90 percent in the Niger Delta. We have also made significant progress in reducing flare gas volumes in Angola through various projects. For example, our Nemba Enhanced Secondary Recovery Project reduced flaring at the South and North Nemba fields by almost 34 million standard cubic feet per day in 2016. In total, flare gas volume rates in Chevron’s Angola operations have been reduced by more than 50 percent since 2013.
For an in-depth look at Chevron's emissions data, refer to our Corporate Responsibility Report.
Methane from process emissions, vented sources and combustion sources (including flares) accounted for 5.5 percent of Chevron’s total GHG emissions in 2017. Fugitive sources of methane comprised 1.6 percent.**
It is in Chevron’s business interest to minimize fugitive methane and to maximize the volume of natural gas that we commercialize. We design, construct and operate our facilities with an eye toward reducing emissions from our operations, and we use design requirements to minimize fugitive emissions from our new major capital projects. We monitor and verify the integrity of our wells and production equipment with regular inspections and safety tests. To more efficiently track fugitive emissions, we use infrared cameras in select oil and gas operations around the globe to help pinpoint and remedy leaks. We continue to test and deploy new innovations that will improve detection and reduction of emissions.
methane guiding principles
Chevron is a founding partner of The Environmental Partnership, led by the American Petroleum Institute (API). The partnership is an industry initiative with the goal of accelerating improvements to reduce methane and volatile organic compound emissions. The voluntary initiative, which launched in December 2017 and is composed of more than 25 operators, will initially focus on reducing emissions associated with the removal of liquid buildup in wells, retrofitting high-bleed pneumatic controllers with low- or zero-emitting devices, and implementing the monitoring and timely repair of fugitive emissions.
In addition, Chevron serves on the Industrial Advisory Board of the Methane Emissions Test and Evaluation Center (METEC), a Colorado State University and ARPA-E test facility that models a natural gas facility. The METEC is used to test methane-sensing technologies and evaluate performance.
carbon capture and storage (CCS)
CCS is part of a portfolio of emerging GHG-mitigation technologies that can help manage emissions in the future, although the economics of this technology remain challenging. According to the IEA, CCS is an important tool for mitigating GHG emissions and meeting Paris Agreement global-warming targets in the 2030 to 2050 time frame. The technical components of CCS, from CO2 capture to transport and storage, are available now.
Chevron’s participation in the development of policy frameworks for CCS spans more than a decade. Chevron participated in the development of the Intergovernmental Panel on Climate Change Special Report on CCS, the European Union’s CCS Directive, Australian policy frameworks, Canadian CCS standards and the U.S. EPA’s CCS guidance. The IPCC recognized Chevron experts for work on the CCS report and other IPCC assessments, which contributed to the IPCC being the recipient of the Nobel Peace Prize in 2007.
Chevron continues to manage its emissions profile, and will deploy abatement technologies when they make sense for the business and for the applicable geological settings. For example, the Gorgon carbon dioxide injection project is anticipated to be the largest greenhouse gas emissions reduction project undertaken by industry globally. We are also participating in the Quest project through a joint venture in Alberta, Canada. We have invested about $1.1 billion in these two projects, and they are expected to reduce GHGs by about 5 million tonnes per year once operational, or an amount similar to the GHG emissions from the electricity used by approximately 620,000 U.S. homes in a year.
Chevron has invested more than $75 million in CCS research and development over the last decade. Chevron also participates in joint-industry research projects to facilitate the development of CCS technologies that are economical, reliable and safe. The goals of the joint-industry projects are to reduce the cost of CO2 capture through technology improvements and assure the long-term security of geologically stored CO2. For instance, Chevron has a leadership role on all technical and policy teams of the CO2 Capture Project, a group of major energy companies working together to advance the technologies that will underpin the deployment of industrial-scale CCS in the oil and gas industry.
*CO2-equivalent, direct (Scope 1), operated basis. Transportation includes Chevron Pipe Line Company and Chevron Shipping Company. Power includes Chevron Power and Energy Management Company. Other includes Americas Products, International Products, Chevron Lubricants, Chevron Oronite Company, Chevron Building and Real Estate Services, Chevron Aviation Services, Chevron Environmental Management Company, and Chevron Information Technology Company.
**Process emissions, vented sources, combustion sources and fugitive sources are defined by APIs Compendium of Greenhouse Gas Emissions Methodologies for the Oil and Natural Gas Industry (2004, 2009); CO2-equivalent, direct (Scope 1), operated basis.