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Cooling Water Treatment Principles and Practices: Charts and Notes For Field Use; Is the companion field guide handbook to Cooling Water Treatment Principles and Practices by Colin Frayne. In this handbook you will find many helpful formulas for use in the field such as formulas for: Refrigeration in cooling towers, Conductive heat flow, General industrial and cooling water makeup contents, Coagulants and flocculants, Filter types, Water softeners, Commonly found corrosion types, Mineral and silica deposit types, Equations for solving pH, Common bacteria and Fungi types, Inhibitor components, A suggested biocide selection chart for comfort cooling systems, A cleaning and disinfection program for cooling systems, and Cooling water control parameters. The charts and formulas contained in this field handbook provide an overview of many situations encountered in the field and will aid in the diagnosis and solution of many water issues you will encounter on the job. Also provided are two separate sections for keeping notes on specific issues. Other titles by author Colin Frayne: 0-8206-0371-6 Boiler Water Treatment, Principles and Practice, Vol. I 0-8206-0400-3 Boiler Water Treatment, Principles and Practice, Vol. II
Many cooling systems use water as cooling medium. They are found in public buildings, industrial production systems or power plants. Almost every cooling system using water is degraded by deposition, corrosion and microbiological fouling. This book identifies the whole bunch of problems due to water cooling systems and proposes specific solutions to all of them. The authors have an expertise of over 20 years solving cooling water problems. In this book, they advise all practitioners which need to plan, buy or operate cooling systems.
Offers information on the treatment of water and wastewater for municipal, sanitary and industrial applications, focusing on unit operations and processes that serve the broadest range of users. Wastewater treatement unit operations, including filtration, flotation, chemical coagulation, flocculation and sedimentation, as well as advanced technolog
PARTIAL CONTENTS - PART - I. BOILER BASICS - Chapter 1. Boiler - An Introduction - Chapter 2. Classification of Boilers - Chapter 3. Common Terms and Explanation - PART - II. BOILER WATER TROUBLES - Chapter 4. Impurities in Water and Their Effects - Chapter 5. Boiler Water Troubles - A Prelude - Chapter 6. Scale Formation - Chapter 7. Silica Carryover - Chapter 8. Scale Formation in Economizers - Chapter 9. Super Heater and Turbine Deposits - Chapter 10. Corrosion - Basic Information - Chapter 11. General Corrosion (Overall Corrosion / Acidic Corrosion) - Chapter 12. Dissolved Oxygen Corrosion (Pitting Corrosion) - Chapter 13. Carbondioxide Corrosion - Chapter 14. Corrosion caused by Unstable Salts - Chapter 15. Corrosion caused by Other Substances - Chapter 16. Corrosion caused by Chelants (Chelant Corrosion) - Chapter 17. Caustic Embrittlement and Caustic Gouging - Chapter 18. Hydrogen Embrittlement - Chapter 19. Condensate Corrosion - Chapter 20. Preboiler Corrosion - Chapter 21. Economizer Corrosion - Chapter 22. Super Heater and Turbine Corrosion - Chapter 23. Foaming, Priming & Carryover - PART - III. WATER QUALITY REQUIREMENTS AND TREATMENT PROGRAMS - Chapter 24. Quality Requirements for Feed Water and Boiler Water - Chapter 25. Objectives of Boiler Water Treatment - Chapter 26. External Treatment and Internal Treatment - Chapter 27. Water Treatment programs - Guidelines - PART - IV. EXTERNAL TREATMENT - Chapter 28. External Treatment - A Prelude - Chapter 29. Coagulation (Removal of Color, Turbidity and Suspended Matter) - Chapter 30. Filtration - Chapter 31. Softening by Chemical Method (Lime - Soda Softening) - Chapter 32. Ion Exchange Resins and Treatment Methods - Chapter 33. Softening by Ion-Exchange Method - Chapter 34. Dealkalization - Chapter 35. Demineralization (Deionization) - Chapter 36. Mixed Bed Deionization - Chapter 37. Reverse Osmosis - Chapter 38. Evaporation - Chapter 39. Silica Removal - Chapter 40. Oil Removal - Chapter 41. Condensate Treatment (Condensate Polishing) - Chapter 42. Deaeration (Mechanical Removal of Oxygen) - PART - V. INTERNAL TREATMENT - Chapter 43. Internal Boiler Water Treatment - A Prelude - Chapter 44. Organic Polymers and Their Role as Scale Inhibitors, Dispersants and Sludge Conditioners in Boiler Water Treatment - Chapter 45. Internal Treatment - Chemical Feeding - Chapter 46. Prevention of Scale Formation - Chapter 47. Sludge Conditioning - Chapter 48. Prevention of Corrosion - An Introduction - Chapter 49. Prevention of Corrosion Due to Low pH - Chapter 50. Prevention of Pitting Corrosion Using Oxygen Scavengers (Chemical Removal of Oxygen) - Chapter 51. Prevention of Caustic Embrittlement and Caustic Gouging - Chapter 52. Prevention of Chelant Corrosion - Chapter 53. Prevention of Condensate Corrosion - Chapter 54. Prevention of Pre-Boiler Corrosion - Chapter 55. Prevention of Economizer Corrosion - Chapter 56. Prevention of Foaming, Priming & Carryover - Chapter 57. Prevention of Silica Carryover - Chapter 58. Boiler Blow Down - PART - VI. BOILER WATER TREATMENT - IMPORTANT CALCULATIONS - Chapter 59. Basic Conversion Factors - Chapter 60. Water Softening - Calculations - Chapter 61. Cycles of Concentration, Blowdown, Feed Water and Makeup Water - Calculations - Chapter 62. Determination of Dosage of Chemicals - PART - VII. BOILER START UP, CLEANING, LAY UP AND MAINTENANCE - Chapter 63. Boiler Startup (Pre-operational Cleaning) - Chapter 64. Descaling and Boiler Cleaning - Chapter 65. Boiler LayUp - Chapter 66. Boiler Maintenance - PART - VIII. CHEMICALS HANDLING, SOLUTION PREPARATION AND FEEDERS - Chapter 67. Chemicals Handling and Storage - Chapter 68. Preparation of Solutions and Suspensions - Chapter 69. Chemical Feeders - PART - IX. ANALYSIS OF WATER AND STEAM - See Website for full TOC
A guide to the identification and elimination of corrosion in cooling water systems and related equipment. This book features full-color photographs of actual failures, which illustrate the detailed description of each common failure mode presented. It includes case histories, and also presents a variety of environments and equipment.
HVAC Water Chillers and Cooling Towers provides fundamental principles and practical techniques for the design, application, purchase, operation, and maintenance of water chillers and cooling towers. Written by a leading expert in the field, the book analyzes topics such as piping, water treatment, noise control, electrical service, and energy effi
Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product. The Most Complete, Current Guide to Failure Analysis for Cooling Water Systems Fully updated for the latest technologies and techniques, this new edition describes proven procedures for determining the root cause of cooling system failure, correcting the problem, and preventing future occurrences.The first section covers cooling water system design and operation and features ten new chapters on the various materials most commonly found in cooling systems. The remaining four sections discuss waterside corrosion, cracking, mechanical damage, and material and design issues. This authoritative resource explains how to identify failure locations and mechanisms, recognize critical factors influencing failure, carry out inspection procedures, and implement preventive measures to reducedamage. Illustrative case histories are provided in each chapter. The Nalco Guide to Cooling Water Systems Failure Analysis, Second Edition, covers: Carbon and alloy steel Cast iron Stainless steel Copper alloys Aluminum alloys Corrosion-resistant alloys Coatings Nonmetallic materials Brazed and soldered joints Corrosion monitoring Crevice and underdeposit corrosion Oxygen corrosion Biologically influenced corrosion Acid corrosion Alkaline corrosion Galvanic corrosion Dealloying Intergranular corrosion Graphitic corrosion Localized and pitting corrosion Corrosion fatigue Stress corrosion cracking Erosion-corrosion Cavitation Manufacturing defects Weld defects Design and operating conditions
Introductory technical guidance for mechanical engineers and others interested in water treatment for cooling towers. This is what is discussed: 1. TYPES OF COOLING WATER SYSTEMS 2. COOLING TOWER WATER CALCULATIONS 3. OBJECTIVES OF COOLING WATER TREATMENT 4. MICROBIOLOGICAL DEPOSITS AND CONTROL 5. CORROSION IN COOLING SYSTEMS 6. DEVELOPING AN EFFECTIVE COOLING WATER TREATMENT PROGRAM 7. COOLING WATER SYSTEM START-UP AND LAYUP REQUIREMENTS.