Economically and Environmentally Sustainable Enhanced Oil Recovery. M. R. Islam. Читать онлайн. Newlib. NEWLIB.NET

Автор: M. R. Islam
Издательство: John Wiley & Sons Limited
Серия:
Жанр произведения: Физика
Год издания: 0
isbn: 9781119479277
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fuel asset asset and how long one can produce energy sustainably. Notes: All bubbles are expressed as a number of years based on estimated production in 2013. The size of the bubble for total remaining recoverable resources of coal is illustrative and is not proportional to the others.

      Sources: BGR (2012), OGJ (2012), USGS (2000, 2012a and 2012b), IEA estimates and analysis.

      1.4.4 Can the Current Reserve be Expanded without Resorting to EOR?

      This book is not about selling a particular EOR technique, but rather is about uncovering the real potential of oil and gas production. The discussion of enhancing recovery or interference with a production regime can only commence after we are certain what actual asset we have. Chapter 4 first deconstructs the perception-based reserve estimate models, then presents latest findings of USGS with scientific analysis performed by Islam (2018) and Islam et al. (2018) to draw a clear picture for the developer.

      1.4.5 How Do We Characterize Complex Reservoirs?

      We are familiar with the recent surge in oil and gas from unconventional oil and reservoirs. What we are less familiar with is the fact that conventional tools do not apply to unconventional reservoirs. Even less known is the fact that conventional characterization tools don’t accurately represent even the conventional reservoirs. Chapter 5 takes a fresh look at all types of reservoirs and offers practical guideline for scientific characterization. It turns out that inherent features of conventional reservoirs are often a less complicated version of those of unconventional reservoirs. This finding eluded others because of the presumption that the reservoir characterization tools are adequate for most reservoirs, unless there prevails extraordinary complexity in terms of rock and fluid properties. A newly developed reservoir characterization tool is presented in Chapter 5.

      1.4.6 When Should We Plan for EOR?

      1.4.7 How to Achieve Environmental and Economic Sustainability?

      This crucial question is answered in Chapter 7. A systematic and scientifically sound analysis shows that only zero-waste schemes can assure both environmental and economic sustainability. It turns out that these two concerns are not separate nor are they contradictory. It means a truly environmentally sustainable scheme will have the greatest efficiency and the most lucrative economic benefit.

      1.4.8 Do We Need to Sacrifice Financially to Assure Environmental Sustainability?

      2

      Petroleum in the Big Picture

      2.1 Introduction

      The role of petroleum products in shaping human energy needs is undeniable. Hydrocarbons and their transformations play major roles in sustaining today’s civilization. Even though petroleum continues to be the world’s most diverse, efficient, and abundant energy source, due to “grim climate concerns”, global initiatives are pointing toward a “go green” mantra. When it comes to defining ‘green’, numerous schemes are being presented as ‘green’ even though all it means is the source of energy is not carbon. This newfound activism against petroleum sources is illogical and defies the fact that petroleum fluids, including natural gas are 100% natural. While there had been no ambiguity in terms what constitutes natural in both material and spiritual senses before modern age, modern age is rife with confusion regarding sustainability of energy as well as mere existence of the human race.

      The current practice of petroleum engineering is not sustainable but the source of unsustainability is hardly known by the mainstream scientists, content with the ‘carbon is the enemy mantra’ – the ones called ‘97% consensus group’ by Islam and Khan (2018). The study of sustainability is a complex science as it involves subsurface and surface, natural and artificial materials, with very high ratio of unknowns over known information (Figure 2.1). Any false-step of Figure 2.1 can trigger unsustainability. Both science and mathematics of the process have been deficient at best.

      In 2018, Islam and Khan used detailed pathway analysis to identify flaws of various energy production schemes, including petroleum resource development. They pointed out that the sources of unsustainability have eluded modern scientists. Instead, scientists have gone with the most popular theme of any given time and conformed to the path of maximizing benefit to the scientific community, in terms of government funding.

Schematic of the various steps involved in petroleum technology with interconnected ellipses labeled “mystery and uncertainty,” “sustainable technology,” etc. and boxes labeled “drilling,” “transportation,” etc.

      Figure 2.1 Various steps involved in petroleum technology.

      In this chapter, a delinearized history of energy developments in relation to petroleum production, particularly as it relates to oil and gas is presented. It is complimented with timelines of unsustainable practices, including those involved in enhanced oil recovery (EOR).

      Ancient practices right up to the era of industrial revolution were all sustainable (Khan and Islam, 2012). The technological marvels ranging from pyramids and mummies to curving houses out of rock were all based on sustainable developments. The energy sources were no exception. The knowledge of how beneficial oil could be was widespread all across the ancient world and people from all continents used oil for a number of purposes. These practices were also extremely effective and produced far more durable products than what are available today, without adding toxic chemicals. In terms of petroleum use, pre-industrial age era used natural products in their