This title includes a number of Open Access chapters. The number of tight oil and shale gas wells continues to rise primarily in the US, but also worldwide. The US has vast reserves of oil and natural gas, which now are commercially reachable as a result of advances in horizontal drilling and hydraulic fracturing technologies. But as hydraulic frac
UN studies show that high-income, developed nations treat about 70 percent of their wastewater. However, in low-income developing nations, only 8 percent of wastewater undergoes any kind of treatment. Inadequate water treatment has serious consequences for both human health and the environment. The articles in this compendium provide a representati
The extraction of natural gas from shale formations is no simple task and perhaps the most expensive when compared to over unconventional gases. Although, its popularity has grown over the years, there is much to be done to make their production and processing more cost-effective. Brief but comprehensive, Shale Gas Production Processes begins with an overview of the chemistry, engineering and technology of shale gas. This is quickly followed by self-contained chapters concerning new and evolving process technologies and their applications as well as environmental regulations. Written in an easy to read format, Shale Gas Production Processes will prove useful for those scientists and engineers already engaged in fossil fuel science and technology as well as scientists, non-scientists, engineers, and non-engineers who wish to gain a general overview or update of the science and technology of shale gas. In addition, the book discusses methods used to reduce environmental footprint and improve well performance. - Updates on the evolving processes and new processes - Provides overview of the chemistry, engineering, and technology of shale gas - Guides the reader through the latest environmental regulation regarding production and processing of shale
Unconventional Shale Gas Development: Lessons Learned gives engineers the latest research developments and practical applications in today's operations. Comprised of both academic and corporate contributors, a balanced critical review on technologies utilized are covered. Environmental topics are presented, including produced water management and sustainable operations in gas systems. Machine learning applications, well integrity and economic challenges are also covered to get the engineer up-to-speed. With its critical elements, case studies, history plot visuals and flow charts, the book delivers a critical reference to get today's petroleum engineers updated on the latest research and applications surrounding shale gas systems. - Bridges the gap between the latest research developments and practical applications through case studies and workflow charts - Helps readers understand the latest developments from the balanced viewpoint of academic and corporate contributors - Considers environmental and sustainable operations in shale gas systems, including produced water management
In the past, the oil and gas industry considered gas locked in tight, impermeable shale uneconomical to produce. However, advances in directional well drilling and reservoir stimulation have dramatically increased gas production from unconventional shales. There may be as much as 200 trillion cubic feet of natural gas technically recoverable from these shales. There is an expectation that the demand for natural gas will increase. Developing these shales comes with some controversy. Contents of this report: (1) Background; (2) Unconventional Gas Shale Resources in the U.S.; (3) Drilling and Development Technology; (4) Leasing Issues for Gas Development; (5) Fed. and State Laws and Regulations Affecting Gas Shale Development. Illus.
This title includes a number of Open Access chapters. The quantity and quality of waste generated and discharged into natural water bodies is a topic of serious concern. Consequently, there is a need for different strategies to address wastewater treatment and subsequent reuse, especially in arid and semi-arid areas where water shortages are the ru
Current Trends and Future Developments on (Bio-) Membranes: Membrane Desalination Systems: The Next Generation explores recent developments and future perspectives in the area of membrane desalination systems. It includes fundamental principles, the different types of smart nano-structured materials, energy and brine disposal issues, design approaches and the environmental impact of membrane desalination technology. The book provides an extensive review of literature in the area of membranes for desalination systems of low energy consumption and discusses the membrane modelling necessary for desalination system validation in achieving high water recovery, low energy and near-zero liquid discharge. - Outlines the use of the potential of salinity gradient power from brines for a low-energy desalination concept - Focuses on the development of integrated membrane systems to achieve the goal of near-zero-liquid-discharge - Summarizes the latest advancement in the nanosciences for creating membranes with advanced properties and functions
With the global population expected to reach nine billion by 2050, our capacity to provide enough food, water and energy relies on our understanding and management of the complex interdependencies in the climate-energy-water nexus. This book presents a comprehensive and up-to-date analysis of the interdependencies between these sectors and the knock-on consequences of those interactions for other sectors, such as food production and biodiversity conservation. The interdisciplinary nature of the book across the three sectors of climate, energy and water means that it will be valuable for advanced students, researchers and policymakers across a broad range of fields, including environmental/energy/water/climate policy, environmental economics, climate science, hydrology, ecology and geography.