The Resource Third century of biochemical oxygen demand, by Rodger B. Baird and Roy-Keith Smith

Third century of biochemical oxygen demand, by Rodger B. Baird and Roy-Keith Smith

Label
Third century of biochemical oxygen demand
Title
Third century of biochemical oxygen demand
Statement of responsibility
by Rodger B. Baird and Roy-Keith Smith
Creator
Contributor
Subject
Genre
Language
eng
Action
digitized
Cataloging source
OCLCE
http://library.link/vocab/creatorName
Baird, Rodger
Dewey number
628.3
Illustrations
illustrations
Index
index present
LC call number
TD737
LC item number
.B35 2002
Literary form
non fiction
NAL call number
TD737
NAL item number
.B35 2002
Nature of contents
  • dictionaries
  • bibliography
http://library.link/vocab/relatedWorkOrContributorName
Smith, Roy Keith
http://library.link/vocab/subjectName
Biochemical oxygen demand
Label
Third century of biochemical oxygen demand, by Rodger B. Baird and Roy-Keith Smith
Link
https://ezproxy.lib.ou.edu/login?url=https://app.knovel.com/hotlink/toc/id:kpTCBOD001/third-century-of?kpromoter=marc
Instantiates
Publication
Antecedent source
file reproduced from original
Bibliography note
Includes bibliographical references (pages 277-385) and index
Carrier category
online resource
Carrier category code
  • cr
Carrier MARC source
rdacarrier
Color
black and white
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • Winkler Titration and Modifications
  • Soluble and Particulate Chemical Oxygen Demand
  • Soluble Inert Chemical Oxygen Demand
  • Particulate Inert Chemical Oxygen Demand
  • Biodegradable Chemical Oxygen Demand
  • Readily Biodegradable Chemical Oxygen Demand
  • Hydrolysable Chemical Oxygen Demand
  • Biodegradable Volatile Suspended Solids
  • Chemically Hydrolysable Chemical Oxygen Demand
  • Total Oxygen Demand and Alternate Tests to Chemical Oxygen Demand
  • 13.
  • Other Chemical Techniques
  • Total Organic Carbon and Organic Matter
  • Wet Chemical Methods for Total Organic Carbon
  • Instrumental Total Organic Carbon Methods
  • Total Organic Carbon-Biochemical Oxygen Demand Relationship
  • Fractionation of Total Organic Carbon
  • Photometric Estimation of Total Organic Carbon and Organic Matter
  • Magnetic Measurements
  • Electrochemical and Electrode Techniques
  • Oxygen-Free Samples
  • 5.
  • Process of Biochemical Oxygen Demand
  • Microorganisms Consume Organic Substrates in the Waste
  • Oxygen is Used by Microorganisms
  • The Metric of the Test is the Difference Between the Initial and Final Values of Dissolved Oxygen
  • 1.
  • A Diluted Portion of the Sample is Tested
  • The Result is Extrapolated Back to the Undiluted Sample
  • Interactions of Mixed Populations of Microorganisms
  • Toxicity and Acclimation of Organisms
  • 6.
  • Theory of Biochemical Oxygen Demand
  • Theoretical Oxygen Demand of Pure Substances
  • Theoretical Approximations of Biochemical Oxygen Demand
  • Modeling Biochemical Oxygen Demand of Natural and Waste Waters
  • Biochemical Oxygen Demand in Wastewater Treatment Modeling
  • Introduction
  • Oxygen Sag and Water Quality Equations
  • Calculation of Biochemical Oxygen Demand from Experimental Data
  • 7.
  • Biochemical Oxygen Demand Method and Practice
  • A Five-Day Test
  • Kinetics
  • Carbonaceous versus Nitrogenous Biochemical Oxygen Demand
  • Nitrification Inhibition
  • Five-Day Biochemical Oxygen Demand as a Dilution Test
  • Pay Attention to the Dilution Water
  • 2.
  • Seeding is Important
  • Seed Control Measures
  • The Five-Day Biochemical Oxygen Demand of Seed
  • Glucose-Glutamic Acid Check Standard
  • Sampling
  • The Procedure
  • Preparing Dilutions
  • Initial Dissolved Oxygen Measurement
  • Incubation Temperature
  • Sealing Sample Bottles
  • Biochemical Oxygen Demand History
  • Calculations
  • Quality Control
  • Limit and Range of Biochemical Oxygen Demand Results
  • Ultimate Biochemical Oxygen Demand
  • Automation of the Biochemical Oxygen Demand Test
  • Case Study No. 1.
  • Comparison of Nitrification-Inhibition Methods
  • Case Study No. 2.
  • Comparison of 2-Chloro-6-(Trichloromethyl) Pyridine
  • Case Study No. 3.
  • 3.
  • The Debate over 2-Chloro-6-(Trichloromethyl) Pyridine Toxicity in Carbonaceous Biochemical Oxygen Demand
  • Case Study No. 4.
  • The Research Study Gone Bad -- Check Your Blanks!
  • Case Study No. 5.
  • The Trouble With Glucose-Glutamic Acid
  • 8.
  • Respirometric Methods
  • Measurement of Respiration
  • Operation of Manometric and Electrolytic Respirometers
  • Comparison of Respirometers
  • Putrescibility and Relative Stability
  • A Standard Respirometric Method
  • Applications of Respirometry
  • Short-Term Biochemical Oxygen Demand Measurements
  • On-Line Respirometry
  • Modeling Plant Operations
  • 9.
  • Alternate Measures of Biochemical Oxygen Demand
  • Gas Chromatography and Headspace Biochemical Oxygen Demand Techniques
  • Alternate Oxygen Sources
  • Microcalorimetry and Biomass Activity
  • 4.
  • Miscellaneous Techniques
  • Microbial Bioelectrodes and Other Biosensors
  • 10.
  • Biodegradation and Toxicity
  • Biodegradation and Toxicity
  • Method for Determining Biochemical Oxygen Demand in the Presence of Toxicity
  • 11.
  • Sediment Oxygen Demand
  • Sediment Oxygen Demand Techniques
  • Sediment Oxygen Demand Concepts
  • Measurement of Dissolved Oxygen
  • 12.
  • Chemical Oxygen Demand
  • Standard Chemical Oxygen Demand Tests
  • Open Reflux Method
  • Closed Reflux, Titrimetric Method
  • Closed Reflux, Colorimetric Method
  • Relation of Chemical Oxygen Demand to Biochemical Oxygen Demand
  • Fractionation of Chemical Oxygen Demand
  • Total Influent Chemical Oxygen Demand
  • Total Residual Chemical Oxygen Demand
Dimensions
unknown
Extent
1 online resource (xiii, 393 pages)
Form of item
online
Governing access note
Access restricted to Ryerson students, faculty and staff.
Isbn
9781523104253
Lccn
2001046825
Level of compression
  • lossless
  • lossy
Media category
computer
Media MARC source
rdamedia
Media type code
  • c
Note
  • Knovel
  • Knovel
Other physical details
illustrations
Reformatting quality
  • preservation
  • access
Reproduction note
Electronic reproduction.
Specific material designation
remote
System control number
  • (OCoLC)894787980
  • (OCoLC)ocn894787980
System details
Master and use copy. Digital master created according to Benchmark for Faithful Digital Reproductions of Monographs and Serials, Version 1. Digital Library Federation, December 2002.
Label
Third century of biochemical oxygen demand, by Rodger B. Baird and Roy-Keith Smith
Link
https://ezproxy.lib.ou.edu/login?url=https://app.knovel.com/hotlink/toc/id:kpTCBOD001/third-century-of?kpromoter=marc
Publication
Antecedent source
file reproduced from original
Bibliography note
Includes bibliographical references (pages 277-385) and index
Carrier category
online resource
Carrier category code
  • cr
Carrier MARC source
rdacarrier
Color
black and white
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • Winkler Titration and Modifications
  • Soluble and Particulate Chemical Oxygen Demand
  • Soluble Inert Chemical Oxygen Demand
  • Particulate Inert Chemical Oxygen Demand
  • Biodegradable Chemical Oxygen Demand
  • Readily Biodegradable Chemical Oxygen Demand
  • Hydrolysable Chemical Oxygen Demand
  • Biodegradable Volatile Suspended Solids
  • Chemically Hydrolysable Chemical Oxygen Demand
  • Total Oxygen Demand and Alternate Tests to Chemical Oxygen Demand
  • 13.
  • Other Chemical Techniques
  • Total Organic Carbon and Organic Matter
  • Wet Chemical Methods for Total Organic Carbon
  • Instrumental Total Organic Carbon Methods
  • Total Organic Carbon-Biochemical Oxygen Demand Relationship
  • Fractionation of Total Organic Carbon
  • Photometric Estimation of Total Organic Carbon and Organic Matter
  • Magnetic Measurements
  • Electrochemical and Electrode Techniques
  • Oxygen-Free Samples
  • 5.
  • Process of Biochemical Oxygen Demand
  • Microorganisms Consume Organic Substrates in the Waste
  • Oxygen is Used by Microorganisms
  • The Metric of the Test is the Difference Between the Initial and Final Values of Dissolved Oxygen
  • 1.
  • A Diluted Portion of the Sample is Tested
  • The Result is Extrapolated Back to the Undiluted Sample
  • Interactions of Mixed Populations of Microorganisms
  • Toxicity and Acclimation of Organisms
  • 6.
  • Theory of Biochemical Oxygen Demand
  • Theoretical Oxygen Demand of Pure Substances
  • Theoretical Approximations of Biochemical Oxygen Demand
  • Modeling Biochemical Oxygen Demand of Natural and Waste Waters
  • Biochemical Oxygen Demand in Wastewater Treatment Modeling
  • Introduction
  • Oxygen Sag and Water Quality Equations
  • Calculation of Biochemical Oxygen Demand from Experimental Data
  • 7.
  • Biochemical Oxygen Demand Method and Practice
  • A Five-Day Test
  • Kinetics
  • Carbonaceous versus Nitrogenous Biochemical Oxygen Demand
  • Nitrification Inhibition
  • Five-Day Biochemical Oxygen Demand as a Dilution Test
  • Pay Attention to the Dilution Water
  • 2.
  • Seeding is Important
  • Seed Control Measures
  • The Five-Day Biochemical Oxygen Demand of Seed
  • Glucose-Glutamic Acid Check Standard
  • Sampling
  • The Procedure
  • Preparing Dilutions
  • Initial Dissolved Oxygen Measurement
  • Incubation Temperature
  • Sealing Sample Bottles
  • Biochemical Oxygen Demand History
  • Calculations
  • Quality Control
  • Limit and Range of Biochemical Oxygen Demand Results
  • Ultimate Biochemical Oxygen Demand
  • Automation of the Biochemical Oxygen Demand Test
  • Case Study No. 1.
  • Comparison of Nitrification-Inhibition Methods
  • Case Study No. 2.
  • Comparison of 2-Chloro-6-(Trichloromethyl) Pyridine
  • Case Study No. 3.
  • 3.
  • The Debate over 2-Chloro-6-(Trichloromethyl) Pyridine Toxicity in Carbonaceous Biochemical Oxygen Demand
  • Case Study No. 4.
  • The Research Study Gone Bad -- Check Your Blanks!
  • Case Study No. 5.
  • The Trouble With Glucose-Glutamic Acid
  • 8.
  • Respirometric Methods
  • Measurement of Respiration
  • Operation of Manometric and Electrolytic Respirometers
  • Comparison of Respirometers
  • Putrescibility and Relative Stability
  • A Standard Respirometric Method
  • Applications of Respirometry
  • Short-Term Biochemical Oxygen Demand Measurements
  • On-Line Respirometry
  • Modeling Plant Operations
  • 9.
  • Alternate Measures of Biochemical Oxygen Demand
  • Gas Chromatography and Headspace Biochemical Oxygen Demand Techniques
  • Alternate Oxygen Sources
  • Microcalorimetry and Biomass Activity
  • 4.
  • Miscellaneous Techniques
  • Microbial Bioelectrodes and Other Biosensors
  • 10.
  • Biodegradation and Toxicity
  • Biodegradation and Toxicity
  • Method for Determining Biochemical Oxygen Demand in the Presence of Toxicity
  • 11.
  • Sediment Oxygen Demand
  • Sediment Oxygen Demand Techniques
  • Sediment Oxygen Demand Concepts
  • Measurement of Dissolved Oxygen
  • 12.
  • Chemical Oxygen Demand
  • Standard Chemical Oxygen Demand Tests
  • Open Reflux Method
  • Closed Reflux, Titrimetric Method
  • Closed Reflux, Colorimetric Method
  • Relation of Chemical Oxygen Demand to Biochemical Oxygen Demand
  • Fractionation of Chemical Oxygen Demand
  • Total Influent Chemical Oxygen Demand
  • Total Residual Chemical Oxygen Demand
Dimensions
unknown
Extent
1 online resource (xiii, 393 pages)
Form of item
online
Governing access note
Access restricted to Ryerson students, faculty and staff.
Isbn
9781523104253
Lccn
2001046825
Level of compression
  • lossless
  • lossy
Media category
computer
Media MARC source
rdamedia
Media type code
  • c
Note
  • Knovel
  • Knovel
Other physical details
illustrations
Reformatting quality
  • preservation
  • access
Reproduction note
Electronic reproduction.
Specific material designation
remote
System control number
  • (OCoLC)894787980
  • (OCoLC)ocn894787980
System details
Master and use copy. Digital master created according to Benchmark for Faithful Digital Reproductions of Monographs and Serials, Version 1. Digital Library Federation, December 2002.

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