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The data generated from research undertaken by ERPE has enabled BP to leverage an investment of $125M for full field implementation of Lo-Sal® EOR technology in the Clair Ridge Field, west of Shetland.
This research has provided BP with a step change in understanding of how to maximise oil recovery and production. Low Salinity Water Flooding has been shown to increase oil recovery by an average of ~16% when compared to standard "High Salinity" water flooding. Based on this work, BP made a strategic decision in September 2012 to use Low Salinity Water Flooding as their default position for field development, by adopting this significant development in water-flooding technology.
ERPE research led to the following impacts in the REF2014 period:
Research by the University of Aberdeen's research group on Stratigraphic Evolution of large Igneous Provinces (StratLIP) has guided the successful development of new oil-producing fields in the North East Atlantic that were previously not in production, aided by an improved understanding of the geological context within which the reserves were discovered. The research has informed every phase of exploration and development by several of the UK's leading energy companies, in one project saving the partners £600m and proving the financial viability of a major oilfield development deemed important to the UK's oil supply. The findings have contributed to an increase in the UK's energy security and the strength of the UK's oil and gas industry, especially in the context of the local economy of Aberdeen, the energy capital of Europe.
Since Prof Blunt's appointment as a Professor of Petroleum Engineering at Imperial College in 1999, his Consortium on Pore-Scale Modelling has developed numerical tools to analyse the pore spaces of reservoir rocks, predict multiphase flow properties and determine field-scale impacts on oil recovery. This technology is now exploited by at least two start-up service companies with annual revenue of around $20 million, and is widely employed by major oil companies, leading to better reservoir management and improved oil and gas recovery. Statements submitted from just one company (Kuwait Oil Company, KOC) suggest a benefit of $100 million from efficiency savings and improved recovery in a just single field.
One of the major problems experienced in the oil production industry is the formation of mineral scale deposited downhole within an oil reservoir and topside. The scale creates a blockage causing a detrimental effect to the productivity of the well. ERPE Research in scale management has led to the following impacts in the REF2014 period:
Newcastle University research on biodegraded petroleum systems has had a number of broad reaching impacts on the oil industry (ExxonMobil, Statoil, Woodside, and Shell), related companies (Permedia) and regulators (Alberta Energy Regulator). A new approach to oil viscosity determination was developed, which directs well-placement in biodegraded oilfields to lower viscosity areas, resulting in improved production of heavy oil. Software tools developed to model oil composition have been incorporated into proprietary in-house, oil company reservoir simulations. A spin-out company was founded, Gushor Inc., which provides services to the heavy oil sector and was recently acquired by Schlumberger. Collectively the research from Newcastle University has saved oil companies hundreds of millions of pounds by avoiding poorly producing viscous zones in biodegraded reservoirs.
Failure to predict and control geological overpressures during drilling can lead to operational delays costing millions of pounds, or to blow-outs causing serious environmental damage and costs running into billions. Using methodologies, knowledge and data analysis techniques developed at Durham, a spin-out, GeoPressure Technology (GPT; now Ikon Geopressure) (20 employees, revenues 2008-13: £10.8 million) has become a niche supplier to the global oil industry of expertise, training and software ("PressureView") that predicts and assess the causes of overpressure. GPT consultancy has had particular impacts for companies drilling in the North Sea, offshore Canada, Norway and West Africa where overpressure represents a significant technical challenge.
Thermally sensitive polymers are injected into oil reservoirs to increase the recovery of oil. Experimental and theoretical modeling carried out at the BP Institute, University of Cambridge, has led to a new understanding of the behaviour of such polymers and increased their effectiveness in recovering oil, through improved design of the injection, and led to the discovery of a new reservoir monitoring technique to detect their effect on production. Optimising injection of polymer increases well production by over 1000 bbl/day and has generated annual revenues of over $US 300 million. This technology is also being applied to thermal energy storage systems.
Like using glasses to improve eyesight, or the corrective lens of the Hubble telescope, the development of a stable deconvolution algorithm for oil well pressure data has increased the amount of information that can be extracted from well test analyses. The method specifically allows the volume of the reservoir connected to the well to be determined. Several oil and gas companies attest to an increase in their estimates of reserves by more than 20% using deconvolution, with one company indicating a doubling of reserves. The research has led to better design of recovery, better financial planning and more informed investment decisions in the oil and gas industry.
The Hydro-environmental Research Centre (HRC) at Cardiff University has developed a widely used hydro-environmental numerical model, called DIVAST (Depth Integrated Velocities And Solute Transport). DIVAST addresses the need for more accurate models to predict flood risk and water quality levels for a range of extreme events. The model has been implemented in commercial codes, marketed by CH2M HILL (previously Halcrow), and used in design studies, for example, undertaken by Buro Happold. The impacts of the research are marked environmental, health, economic and industrial benefits. It is used by major organisations around the world on large-scale projects and, in particular, for mitigation planning against national and international risks associated with floods and water quality.