Oil and gas reserves and resource quantification
Oil and gas reserves denote discovered quantities of crude oil and natural gas from known fields that can be profitably produced/recovered from an approved development. Oil and gas reserves tied to approved operational plans filed on the day of reserves reporting are also sensitive to fluctuating global market pricing. The remaining resource estimates are likely sub-commercial and may still be under appraisal with the potential to be technically recoverable once commercially established. Natural gas is frequently associated with oil directly and gas reserves are commonly quoted in barrels of oil equivalent. Consequently, both oil and gas reserves, as well as resource estimates, follow the same reporting guidelines, and are referred to collectively hereinafter as oil & gas.
Quantification
As with other mineral resource estimation, detailed classification schemes have been devised by industry specialists to quantify volumes of oil and gas accumulated underground. These schemes provide management and investors with the means to make quantitative and relative comparisons between assets, before underwriting the significant cost of exploring for, developing and extracting those accumulations. Classification schemes are used to categorize the uncertainty in volume estimates of the recoverable oil and gas and the chance that they exist in reality depending on the resource maturity. Potential subsurface oil and gas accumulations identified during exploration are classified and reported as prospective resources. Resources are re-classified as reserves following appraisal, at the point when a sufficient accumulation of commercial oil and/or gas are proven by drilling, with authorized and funded development plans to begin production within a recommended five years.Reserve estimates are required by authorities and companies, and are primarily made to support operational or investment decision-making by companies or organisations involved in the business of developing and producing oil and gas. Reserve volumes are necessary to determine the financial status of the company, which may be obliged to report those estimates to shareholders and "resource holders" at the various stages of resource maturation.
Currently, the most widely accepted classification and reporting methodology is the 2018 petroleum resources management system, which summarizes a consistent approach to estimating oil and gas quantities within a comprehensive classification framework, jointly developed by the Society of Petroleum Engineers, the World Petroleum Council, the American Association of Petroleum Geologists, the Society of Petroleum Evaluation Engineers and the Society of Economic Geologists. Public companies that register securities in the U.S. market must report proved reserves under the Securities and Exchange Commission reporting requirements which shares many elements with PRMS. Attempts have also been made to standardize more generalized methodologies for the reporting of national or basin level oil and gas resource assessments.
Reserves and resource reporting
An oil or gas resource refers to known or potential accumulations of oil and/or gas in the subsurface of the Earth's crust. All reserve and resource estimates involve uncertainty in volume estimates, as well as a risk or chance to exist in reality, depending on the level of appraisal or resource maturity that governs the amount of reliable geologic and engineering data available and the interpretation of those data.| RESOURCE CLASS | LOW | MID | HIGH |
| Reserves | 1P | 2P | 3P |
| Contingent Resources | 1C | 2C | 3C |
| Prospective Resources | 1U | 2U | 3U |
In the PRMS, the terms 'Resources' and 'Reserves' have distinct and specific meaning with respect to oil & gas accumulations and hydrocarbon exploration in general. However, the level of rigor required in applying these terms varies depending on the resource maturity which informs reporting requirements. Oil & gas reserves are resources that are, or are reasonably certain to be, commercial. Reserves are the main asset of an oil & gas company; booking is the process by which they are added to the balance sheet. Contingent and prospective resource estimates are much more speculative and are not booked with the same degree of rigor, generally for internal company use only, reflecting a more limited data set and assessment maturity. If published externally, these volumes add to the perception of asset value method|asset value], which in turn can influence oil & gas company share or stock value. The PRMS provides a framework for a consistent approach to the estimation process to comply with reporting requirements of particularly, listed companies. Energy companies may employ specialist, independent, reserve valuation consultants to provide third party reports as part of SEC filings for either reserves or resource booking.
Reserves
Reserves reporting of discovered accumulations is regulated by tight controls for informed investment decisions to quantify differing degrees of uncertainty in recoverable volumes. Reserves are defined in three sub-categories according to the system used in the PRMS: Proven, Probable and Possible. Reserves defined as Probable and Possible are incremental discovered volumes based on geological and/or engineering criteria similar to those used in estimating Proven reserves. Though not classified as contingent, some technical, contractual, or regulatory uncertainties preclude such reserves being classified as Proven. The most accepted definitions of these are based on those originally approved by the SPE and the WPC in 1997, requiring that reserves are discovered, recoverable, commercial and remaining based on rules governing the classification into sub-categories and the declared development project plans applied. Probable and Possible reserves may be used internally by oil companies and government agencies for future planning purposes but are not routinely or uniformly compiled.Proven reserves
Proven reserves are discovered volumes claimed to have a reasonable certainty of being recoverable under existing economic and political conditions, and with existing technology. Industry specialists refer to this category as "P90". Proven reserves are also known in the industry as 1P. Proven reserves may be referred to as proven developed or as proven undeveloped. PD reserves are reserves that can be produced with existing wells and perforations, or from additional reservoirs where minimal additional investment is required. PUD reserves require additional capital investment to bring the oil and/or gas to the surface.Accounting for production is an important exercise for businesses. Produced oil or gas that has been brought to surface and sold on international markets or refined in-country are no longer reserves and are removed from the booking and company balance sheets. Until January 2010, "1P" proven reserves were the only type the U.S. SEC allowed oil companies to report to investors. Companies listed on U.S. stock exchanges may be called upon to verify their claims confidentially, but many governments and national oil companies do not disclose verifying data publicly. Since January 2010 the SEC now allows companies to also provide additional optional information declaring 2P and 3P with discretionary verification by qualified third party consultants, though many companies choose to use 2P and 3P estimates only for internal purposes.
Probable and possible reserves
Probable additional reserves are attributed to known accumulations and the probabilistic, cumulative sum of proven and probable reserves, also referred to in the industry as "2P" The P50 designation means that there should be at least a 50% chance that the actual volumes recovered will be equal to or will exceed the 2P estimate.Possible additional reserves are attributed to known accumulations that have a lower chance of being recovered than probable reserves. Reasons for assigning a lower probability to recovering Possible reserves include varying interpretations of geology, uncertainty due to reserve infill and projected reserves based on future recovery methods. The probabilistic, cumulative sum of proven, probable and possible reserves is referred to in the industry as "3P" where there is a 10% chance of delivering or exceeding the P10 volume.
Resource estimates
Resource estimates are undiscovered volumes, or volumes that have not yet been drilled and flowed to surface. A non-reserve resource, by definition, does not have to be technically or commercially recoverable and can be represented by a single, or an aggregate of multiple potential accumulations, e.g. an estimated basin analysis|geological basin] resource. There are two non-reserve resource categories:Contingent resources
Once a discovery has been made, prospective resources can be reclassified as contingent resources. Contingent resources are those accumulations or fields that are not yet considered mature enough for commercial development, where development is contingent on one or more conditions changing. The uncertainty in the estimates for recoverable oil & gas volumes is expressed in a probability distribution and is sub-classified based on project maturity and/or economic status and in addition are assigned a risk, or chance, to exist in reality.Prospective resources
Prospective resources, being undiscovered, have the widest range in volume uncertainties and carry the highest risk or chance to be present in reality. At the exploration stage they are categorized by the wide range of volume uncertainties. In the PRMS the range of volumes is classified by the abbreviations 1U, 2U and 3U again reflecting the degrees of uncertainty. Companies are commonly not required to report publicly their views of prospective resources but may choose to do so voluntarily.Estimation techniques
The total estimated quantity of oil and/or gas contained in a subsurface reservoir, is called oil or gas initially in place. However, only a fraction of this oil & gas in place can be brought to the surface, and it is only this producible fraction that is considered to be either reserves or a resource of any kind. The ratio between oil and gas in place and recoverable volumes is known as the extraction and recovery|recovery factor], which is determined by a combination of subsurface geology and the technology applied to extraction. When reporting oil & gas volumes, in order to avoid confusion, it should be clarified whether they are oil in place or recoverable volumes.The appropriate technique for resource estimations is determined by resource maturity. There are three main categories of technique, which are used through resource maturation to differing degrees: analog, volumetric and performance-based, which are combined to help fill gaps in knowledge or data. Both probabilistic and deterministic calculation methods are commonly used to calculate resource volumes, with deterministic methods predominantly applied to reserves estimation and probabilistic methods applied to general resource estimation.
| Method | Technique | 1P | 2P | 3P | 1C | 2C | 3C | 1U | 2U | 3U |
| Analog | YTF | ☉ | ☉ | ☉ | ||||||
| YTF | ☉ | ☉ | ☉ | |||||||
| Volumetric | Deterministic | ☉ | ☉ | ☉ | ☉ | ☉ | ☉ | ☉ | ☉ | ☉ |
| Probabilistic models | ☉ | ☉ | ☉ | ☉ | ☉ | ☉ | ☉ | ☉ | ☉ | |
| Static reservoir models | ☉ | ☉ | ☉ | ☉ | ☉ | ☉ | ||||
| Performance-based | Dynamic reservoir simulation | ☉ | ☉ | ☉ | ☉ | |||||
| Material balance | ☉ | ☉ | ||||||||
| Decline curve analysis | ☉ | ☉ | ||||||||
| Unconventional reservoir | Pilot | ☉ | ☉ | ☉ | ☉ | ☉ | ☉ | ☉ | ☉ | ☉ |
The combination of geological, geophysical and technical engineering constraints means that the quantification of volumes is usually undertaken by integrated technical, and commercial teams composed primarily of geoscientists and subsurface engineers, surface engineers and economists. Because the geology of the subsurface cannot be examined directly, indirect techniques must be used to estimate the size and recoverability of the resource. While new technologies have increased the accuracy of these estimation techniques, significant uncertainties still remain, which are expressed as a range of potential recoverable oil & gas quantities using probabilistic methods. In general, most early estimates of the reserves of an oil or gas field are conservative and tend to grow with time. This may be due to the availability of more data and/or the improved matching between predicted and actual production performance.
Appropriate external reporting of resources and reserves is required from publicly traded companies, and is an accounting process governed by strict definitions and categorisation administered by authorities regulating the stock market and complying with governmental legal requirements. Other national or industry bodies may voluntarily report resources and reserves but are not required to follow the same strict definitions and controls.
Analog (YTF) method
Analogs are applied to prospective resources in areas where there are little, or sometimes no, existing data available to inform analysts about the likely potential of an opportunity or play segment. Analog-only techniques are called yet-to-find, and involve identifying areas containing producing assets that are geologically similar to those being estimated and substituting data to match what is known about a segment. The opportunity segment can be scaled to any level depending on the specific interest of the analyst, whether at a global, country, basin, structural domain, play, license or reservoir level. YTF is conceptual and is commonly used as a method for scoping potential in frontier areas where there is no oil or gas production or where new play concepts are being introduced with perceived potential. However, analog content can also be substituted for any subsurface parameters where there are gaps in data in more mature reserves or resource settings.Volumetric method
Oil & gas volumes in a conventional reservoir can be calculated using a volume equation:Recoverable volume = Gross Rock Volume * Net/Gross * Porosity * Oil or Gas Saturation * Recovery Factor / Formation Volume Factor
Deterministic volumes are calculated when single values are used as input parameters to this equation, which could include analog content. Probabilistic volumes are calculations when uncertainty distributions are applied as input to all or some of the terms of the equation, which preserve dependencies between parameters. These geostatistical methods are most commonly applied to prospective resources that still need to be tested by the drill bit. Contingent resources are also characterized by volumetric methods with analog content and uncertainty distributions before significant production has occurred, where spatial distribution information may be preserved in a static reservoir model. Static models and dynamic flow models can be populated with analog reservoir performance data to increase the confidence in forecasting as the amount and quality of static geoscientific and dynamic reservoir performance data increase.