A multi‐attribute decision analysis for decommissioning offshore oil and gas platforms

Henrion, Max; Bernstein, Brock B.; Swamy, Surya

doi:10.1002/ieam.1693

Cited by 49 publications

(27 citation statements)

References 12 publications

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“…Second, stakeholders' and user groups' preferences have been described (e.g., Rothbach ) but not evaluated systematically. However, the PLATFORM model's multi‐attribute analysis features allows for an examination of the implications for decision making of differences in stakeholder perceptions and values (Henrion et al this issue).…”

Section: Discussionmentioning

confidence: 99%

“…Despite those constraints, one may consider the likely direction of each decommissioning option's impacts on marine resources. For example, Henrion et al (this issue) include the predicted qualitative type, direction, and relative magnitude of impacts on marine birds, marine mammals, and benthic communities, whereas Pondella et al (this issue) present the results of quantitative modeling of how the biological production associated with platforms would be affected by each option. In terms of how decommissioning's effects on marine resources would affect user groups, complete removal may allow access to small areas of the ocean, but the impacts on certain valuable species may outweigh this potential gain in area if increased fishing pressure reduces population size.…”

Section: Methodsmentioning

confidence: 99%

“…These options included 2 use options (complete removal and partial removal as part of conversion to an artificial reef) and 1 disposal option (onshore dismantling). For additional details, see Henrion et al (this issue).…”

Section: Introductionmentioning

confidence: 99%

“…Despite this, the quantitative data we were able to identify, combined with the qualitative identification of the direction of user preferences among decommissioning options and the relative magnitude of options' impacts, provided valuable input to the mathematical decision model (PLATFORM) and the multi‐attribute analysis it enabled (Henrion et al this issue). PLATFORM's multi‐attribute analysis module enables the integration of both quantitative and qualitative attributes and provides users the ability to investigate how different valuations of a range of costs and benefits (e.g., fish production, marine mammal impacts, air emissions, socioeconomic impacts) would affect the choice among options.…”

Section: Introductionmentioning

confidence: 99%

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Considerations in evaluating potential socioeconomic impacts of offshore platform decommissioning in California

Kruse¹,

Bernstein

Scholz³

2015

Integr Envir Assess & Manag

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The 27 oil and gas platforms offshore southern California will eventually reach the end of their useful lifetimes (estimated between 2015 and 2030) and will be decommissioned. Current state and federal laws and regulations allow for alternative uses in lieu of the complete removal required in existing leases. Any decommissioning pathway will create a complex mix of costs, benefits, opportunities, and constraints for multiple user groups. To assist the California Natural Resources Agency in understanding these issues, we evaluated the potential socioeconomic impacts of the 2 most likely options: complete removal and partial removal of the structure to 85 feet below the waterline with the remaining structure left in place as an artificial reef-generally defined as a manmade structure with some properties that mimic a natural reef. We estimated impacts on commercial fishing, commercial shipping, recreational fishing, nonconsumptive boating, and nonconsumptive SCUBA diving. Available data supported quantitative estimates for some impacts, semiquantitative estimates for others, and only qualitative approximations of the direction of impact for still others. Even qualitative estimates of the direction of impacts and of user groups' likely preferred options have been useful to the public and decision makers and provided valuable input to the project's integrative decision model. Uncertainty surrounds even qualitative estimates of the likely direction of impact where interactions between multiple impacts could occur or where user groups include subsets that would experience the same option differently. In addition, we were unable to quantify effects on ecosystem value and on the larger regional ecosystem, because of data gaps on the population sizes and dynamics of key species and the uncertainty surrounding the contribution of platforms to available hard substrate and related natural populations offshore southern California.

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Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Considerations in evaluating potential socioeconomic impacts of offshore platform decommissioning in California

Kruse¹,

Bernstein

Scholz³

2015

Integr Envir Assess & Manag

Self Cite

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“…Over the next 30 years, almost all the 470 offshore installations in the North Sea's UK Continental Shelf, will need to be decommissioned, according to the UK Oil & Gas Economic Report (2013). Twenty-seven offshore oil and gas platforms in southern California will be decommissioned by 2030 as the platforms will reach the end of their useful production lifetimes (Henrion et al 2015). In Malaysia, the decommissioning activities for fixed offshore platforms are expected to rise significantly.…”

Section: Introductionmentioning

confidence: 99%

A semi-automated approach to generate 4D/5D BIM models for evaluating different offshore oil and gas platform decommissioning options

et al. 2017

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Background: Offshore oil and gas platforms generally have a lifetime of 30 to 40 years, and platform decommissioning is a major issue because many of the existing offshore oil and gas platforms are reaching the end of their service life. There are many possible options for decommissioning offshore oil and gas platforms, and each decommissioning option can be implemented using different methods and technologies. Therefore, it is necessary to have a clear understanding and in-depth evaluation of each decommissioning option before commencing platform decommissioning. 4D and 5D building information modeling (BIM) has been commonly used in the building industry to analyze constructability and to evaluate different construction or demolition plans. However, application of BIM in the oil and gas industry, especially for the platform decommissioning process, is still limited. Methods: This paper suggests and demonstrates the application of 4D and 5D BIM technology to simulate various methodologies to realize various selected offshore platform decommissioning options, thereby visualizing and evaluating different options, considering both the time and resources required for decommissioning process. One hundred and seventy-seven offshore platform decommissioning options are summarized in this paper. A new approach to create multiple 4D/5D BIM models in a semi-automated manner for evaluating various scenario options of OOGP decommissioning was proposed to reduce the model creation time as current way of 4D/5D BIM model creation for each OOGP decommissioning option is time consuming. Results: In the proposed approach, an OOGP BIM model relationship database that contains possible 4D/5D BIM model relationships (i.e. schedules for different decommissioning methods) for different parts of an OOGP was generated. Different OOGP decommissioning options can be simulated and visualized with 4D/5D BIM models created by automatically matching schedules, resources, cost information and 3D BIM models. This paper also presents an illustrative example of the proposed approach, which simulates and evaluates two decommissioning options of a fixed jacket platform, namely Rig-to-Reef and Removal-to-Shore. As compared to the traditional approach of 4D/5D BIM model generation, the proposed semi-automated approach reduces the model generation time by 58.8% in the illustrative example.

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The usefulness of sustainable business models: Analysis from oil and gas industry

Basile

Capobianco

Vona

2021

Corp Soc Responsibility Env

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The management of offshore platforms at the end of their production phase is a complex issue for technological, socioeconomic, ecological and safety reasons. The decommissioning or reconversion of offshore platforms in the context of a circular economy (CE) will lead to new knowledge acquisition, changing values and changing behaviours towards sustainability consistent with the 'new' business objectives. Multiuse platforms at sea (MUPSs) represent an interesting solution for development of marine infrastructures, including areas in which to start and develop various creative economic activities that are in harmony with the needs of environmental protection including renewable energy, sea shellfish farming, decarbonisation plants, tourism, and recreation. Particularly, the research activity focused on a deep literature review of offshore platform decommissioning and sustainable business model (SBM) in a CE context. This allowed us to access the sustainable business model canvas (SBMC), a conceptual tool that represents a holistic view of the different managerial multiuse options and their social and environmental impacts. Besides, to test the SBMC, we adopt an empirical analysis by semi-structured questionnaires given to a sample of stakeholders in the decommissioning industry. The methodology was enriched by interviews with key informants to better investigate the business ecosystem and the feasibility of decommissioning applied to the case of an Italian offshore platform located in the Adriatic Sea. This article aims to contribute to supporting SBMs development following a holistic approach in relationship with all stakeholders and propose a multi-criteria decision-making analysis for evaluating and comparing alternative decommissioning options.

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A multi‐attribute decision analysis for decommissioning offshore oil and gas platforms

Cited by 49 publications

References 12 publications

Considerations in evaluating potential socioeconomic impacts of offshore platform decommissioning in California

Considerations in evaluating potential socioeconomic impacts of offshore platform decommissioning in California

A semi-automated approach to generate 4D/5D BIM models for evaluating different offshore oil and gas platform decommissioning options

The usefulness of sustainable business models: Analysis from oil and gas industry

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