UID:
almahu_9948026690102882
Format:
1 online resource (337 p.)
Edition:
2nd ed.
ISBN:
1-281-05725-8
,
9786611057251
,
0-08-052753-1
Series Statement:
Developments in aquaculture and fisheries science ; 33
Content:
This book provides, in one place, basic information and considerations necessary to plan, build and operate seawater systems for culturing purposes. It provides design, construction and operations guidance for seawater (salinities from freshwater to brine) systems with flow rates of 10-1,000 gallons (40-4,000 liters) per minute. While the book concentrates on general circumstances, situations and concepts, comprehensive referencing of text and annotated bibliographies are provided in critical technical areas to allow readers to pursue specialized areas of interest. This upgraded and
Note:
Description based upon print version of record.
,
Front Cover; Design and Operating Guide for Aquaculture Seawater Systems; Copyright Page; Contents; Chapter 1. Introduction; Chapter 2. Problem definition and establishing requirements; 2.1 Design process; 2.2 Defining objectives; 2.3 Quantifying requirements; 2.4 Production cycle; 2.5 Production modeling; 2.6 Types of systems; 2.7 System carrying capacity; 2.8 Carrying capacity guidelines; 2.9 Design requirements; 2.10 Constraints; Chapter 3. Site considerations; 3.1 Marine conditions; 3.2 Terrestrial conditions; 3.3 Permitting; 3.4 Site selection; Chapter 4. Seawater sources
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4.1 Options and considerations4.2 Artificial seawater; 4.3 Seawater wells; 4.4 Marine intakes; Chapter 5. System planviews and elevations; 5.1 Generic system; 5.2 Elevations and head tanks; 5.3 Intake and pump house considerations; 5.4 Discharge considerations; Chapter 6. Piping design and calculations; 6.1 Major tradeoffs; 6.2 Biofouling control; 6.3 Water hammer; 6.4 Frictional losses in pipes; 6.5 Frictional losses in fittings; 6.6 Open channel flow; 6.7 Momentum in pipes; Chapter 7. Pump Selection; 7.1 Pump options; 7.2 Generic centrifugal pump; 7.3 NPSH and dynamic head
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7.4 Matching system and pumpChapter 8. Materials selection; 8.1 Biological constraints; 8.2 Seawater constraints; 8.3 Piping materials; 8.4 Pump materials; 8.5 Marine concrete; 8.6 Problem areas; Chapter 9. Seawater flow control; 9.1 Gravity flow; 9.2 Water level control; 9.3 Control of flow rate; 9.4 Flow measurement; Chapter 10. Suspended solids removal; 10.1 Considerations, tradeoffs and options; 10.2 Cartridge filters; 10.3 Diatomaceous earth filters; 10.4 Filter bags; 10.5 Centrifuges and cyclones; 10.6 Sand filters; 10.7 Microscreens; 10.8 Sedimentation; Chapter 11. Heating and cooling
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11.1 Setting requirements11.2 Heat exchangers; 11.3 Problem areas; Chapter 12. Aeration and degassing; 12.1 Aeration system requirements; 12.2 Gravity aerators; 12.3 Submerged aerators; 12.4 Gas supersaturation and degassing; 12.5 Removal of other gases; Chapter 13. Disinfection; 13.1 Considerations and options; 13.2 Chemical compounds; 13.3 Ozone; 13.4 Ultraviolet (UV) radiation; Chapter 14. Alarms, monitoring and automatic control systems; 14.1 Characteristics and options; 14.2 Alarm points; 14.3 Automatic control; Chapter 15. Water recycling; 15.1 Setting requirements and options
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15.2 Nitrification and biofilters15.3 Foam fractionation; 15.4 Activated carbon and ion exchange; 15.5 Algae; Chapter 16. Wet laboratory areas; 16.1 General considerations and trade-offs; 16.2 Indoor areas; 16.3 Outdoor areas; Chapter 17. Construction considerations; 17.1 Construction arrangements; 17.2 Construction cost estimating; 17.3 Design changes; 17.4 Installation of seawater lines; 17.5 Start-up; Chapter 18. Operational considerations; 18.1 Operating procedures; 18.2 Assignment of responsibilities; 18.3 Spares and redundancy; 18.4 Preventive maintenance; 18.5 Monitoring and control
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18.6 Operational problem areas
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English
Additional Edition:
ISBN 9780444505774
Additional Edition:
ISBN 0-444-50577-6
Language:
English
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