Book contents
- Frontmatter
- Dedication
- Contents
- Preface
- Preface to Second Edition
- Preface to First Edition
- A Note About Software
- 1 Introduction
- 2 Modeling Overview
- PART I EQUILIBRIUM IN NATURAL WATERS
- 3 The Equilibrium State
- 4 Solving for the Equilibrium State
- 5 Changing the Basis
- 6 Equilibrium Models of NaturalWaters
- 7 Redox Disequilibrium
- 8 Activity Coefficients
- 9 Sorption and Ion Exchange
- 10 Surface Complexation
- 11 Three-Layer Complexation
- 12 Automatic Reaction Balancing
- 13 Uniqueness
- PART II REACTION PROCESSES
- PART III APPLIED REACTION MODELING
- Appendix A Sources of Modeling Software
- Appendix B Evaluating the HMW Activity Model
- Appendix C Minerals in the LLNL Database
- Appendix D Nonlinear Rate Laws
- References
- Index
6 - Equilibrium Models of NaturalWaters
from PART I - EQUILIBRIUM IN NATURAL WATERS
Published online by Cambridge University Press: 09 December 2021
- Frontmatter
- Dedication
- Contents
- Preface
- Preface to Second Edition
- Preface to First Edition
- A Note About Software
- 1 Introduction
- 2 Modeling Overview
- PART I EQUILIBRIUM IN NATURAL WATERS
- 3 The Equilibrium State
- 4 Solving for the Equilibrium State
- 5 Changing the Basis
- 6 Equilibrium Models of NaturalWaters
- 7 Redox Disequilibrium
- 8 Activity Coefficients
- 9 Sorption and Ion Exchange
- 10 Surface Complexation
- 11 Three-Layer Complexation
- 12 Automatic Reaction Balancing
- 13 Uniqueness
- PART II REACTION PROCESSES
- PART III APPLIED REACTION MODELING
- Appendix A Sources of Modeling Software
- Appendix B Evaluating the HMW Activity Model
- Appendix C Minerals in the LLNL Database
- Appendix D Nonlinear Rate Laws
- References
- Index
Summary
Calculated models of the chemistry of natural waters show how mass is distributed among aqueous species, minerals, and gases, whether individual minerals are undersaturated or supersaturated, and gas partial pressures within the waters. This chapter explores how to construct and interpret computed models of water chemistry, using seawater, river water, and deep-sea brines as examples.
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- Geochemical and Biogeochemical Reaction Modeling , pp. 67 - 86Publisher: Cambridge University PressPrint publication year: 2022