Dissolved Gas Concentration in Water: Computation as Functions of Temperature, Salinity and Pressure (BOK)

John Colt

1 149,00 1 14900
Sendes vanligvis innen 7-15 dager
Aquacultural, oceanographic, and fisheries engineering, as well as other disciplines, require gas solubility data to compute the equilibrium concentration. These calculations, for example, can affect the output of aquacultural production or assist in environmental consulting. Until now, published solubility information has not been available in a consistent and uniform manner in one location. This book presents solubility concentrations of major atmospheric gases (oxygen, nitrogen, argon, and carbon dioxide), noble gases (helium, neon, krypton, and xenon), and trace gases (hydrogen, methane, and nitrous oxide) as a function of temperature, salinity, pressure, and gas composition in a variety of formats. Data, equations, and theory are explained so that the user is able to understand the calculations and problems. Furthermore, data and solubility information are presented in a range of units to make them accessible across disciplines. This book will help the reader to look at a problem from a quantitative viewpoint and better understand carbonate chemistry. It is revised from the earlier edition to include more accurate carbon dioxide tables and separate sections on the solubility of noble gases, trace gases, and oxygen in brines to provide a single resource for gas solubility data. This book is essential for all students and practitioners working in aquatic fields. This is a single source for highly accurate and comprehensive tables for gas solubility in aquatic systems Information is provided in tables, equations, and computer programmes. Theory is presented to better understand the equations and calculations.


Språk Engelsk Engelsk Innbinding Innbundet
Utgitt 2012 Forfatter John Colt
Elsevier Science & Technology
ISBN 9780124159167
Antall sider 306 Dimensjoner 15,2cm x 22,9cm x 2,1cm
Vekt 617 gram Leverandør Bertram Trading Ltd
Emner og form Hydrology & the hydrosphere