Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
The APPEA Journal The APPEA Journal Society
Journal of Australian Energy Producers
 

Concurrent 24. Presentation for: Greenhouse gases emissions evaluation for prospective energy projects

Emelyn Ang A *
+ Author Affiliations
- Author Affiliations

A ERCE APAC, Singapore, Singapore.

* Correspondence to: eang@erce.energy

The APPEA Journal 62 - https://doi.org/10.1071/AJ21395
Published: 3 June 2022

Abstract

Presented on Thursday 19 May: Session 24

Greenhouse gas (GHG) inventory assessment, monitoring and auditing is becoming increasingly routine in oil and gas project evaluations. Already, some companies carry an ‘internal’ carbon cost reflected in projected capital and operational expenditure. Early evaluation allows for optimal planning of GHG mitigation and economic analysis inclusive of carbon costs, allaying concerns of investors and lenders. The challenge in evaluating pre-development, however, is the lack of real data and thus, uncertainties in field production. In this paper, we demonstrate the use of a Monte Carlo probabilistic method to better account for uncertainties in production, gas-oil ratio (GOR) and operation loads in a case study of a prospective oil field in offshore Western Australia. We compared the results to the scenario-based deterministic GHG emissions evaluation of the same field and found the deterministic estimates to be extreme representatives of the range of possible emission quantities, due to GOR and production uncertainties. From a breakdown of annual emissions, we also identified the emissions from flaring of excess natural gas to be one of the most significant mitigatable sources of emissions, due to the unexpectedly large production of gas over the project lifetime. Avoiding the flaring of excess gases alone could reduce the project’s emissions by ~44%. Through identifying these key sources and uncertainties, we are able to flag such unexpected, mitigatable sources of emissions at an early stage and provide a representative range of projected emissions, thus assisting the operator to make informed decisions in the field development.

To access the presentation click the link on the right. To read the full paper click here

Keywords: Australia, carbon, carbon audit, carbon costs, carbon credit, carbon forecast, carbon intensity, carbon mitigation, development, emissions, emissions forecast, energy, exploration, forecast, fuel consumption, fuel emissions, GHG inventory, greenhouse gases, lifetime emissions, Monte Carlo, oil and gas emissions, Scope 1 emissions.

Emelyn Ang is a Geoscientist at ERC Equipoise, based in Singapore. She holds a BSc degree in Environmental Earth Systems Science from Nanyang Technological University, with a specialisation in Geosciences. At ERCE, she has developed strong skills towards the evaluation of reserves, contingent and prospective resources, exploration, development and production projects, including economic/commercial evaluation. Her work includes volumetric calculation, geological risking, depth conversion and seismic interpretation. She is also familiar with logging and core analysis and as a geoscientist, routinely works with multitudes of data types and forms. Emelyn is also trained as a greenhouse gas (GHG) emissions inventory specialist, where she works with energy professionals to evaluate hydrocarbon project emissions, in accordance with ISO 14064 guidelines for emissions reporting. Aside from oil and gas, Emelyn has performed GHG evaluations for solar projects and downstream operations.