End of Waste Code
End of Waste Code

Author: Queensland. Department of Environment and Science. Waste and Contaminated Land Assessment

Publisher:

Published: 2023

Total Pages: 0

ISBN-13:

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An EOW code states when a waste stops being a waste following any necessary processing or treatment. This EOW code states when the water treatment residual waste becomes a resource and any relevant requirements and/or conditions for its use.

DRAFT Amended End of Waste Code
DRAFT Amended End of Waste Code

Author: Department of Environment and Science. Waste Assessment

Publisher:

Published: 2022

Total Pages: 0

ISBN-13:

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This End of Waste code for water treatment residuals has been issued by the chief executive in accordance with section 159 of the Waste Reduction and Recycling Act 2011 (WRR Act). This EOW code states when water treatment residuals becomes a resource and any relevant requirements and/or conditions for its use. If the resource is not being used in accordance with the relevant requirement sand/or conditions of this EOW code, or another type of permit that allows for its use, it is considered a waste under section 13 of the Environmental Protection Act 1994 (EP Act) and must be disposed of appropriately at a facility that is lawfully able to receive the waste. -- Summary.

End of Waste Code
End of Waste Code

Author:

Publisher:

Published: 2019

Total Pages: 13

ISBN-13:

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An End of Waste code states when a waste stops being a waste following any necessary processing or treatment. This End of Waste code is limited to water treatment residuals generated from the treatment of water for the supply of water for human consumption. The water treatment residuals becomes a resource when the requirements and conditions under this End of Waste code are met.

Management of Water Treatment Plant Residuals
Management of Water Treatment Plant Residuals

Author:

Publisher: Amer Society of Civil Engineers

Published: 1996

Total Pages: 294

ISBN-13: 9780784401811

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This manual provides general information and insight into the development of a comprehensive water treatment residuals management plan for potable water treatment facilities. Readers gain an understanding of how to characterize the form, quantity, and quality of the residuals; determine the appropriate regulatory requirements; identify feasible disposal options; select appropriate residuals processing/treatment technologies; and develop a residuals management strategy that meets both the economic and noneconomic goals established for a water treatment facility. Addressed primarily are those residuals produced by coagulation/filtration plants, precipitative softening plants, membrane separation, ion exchange (IX), and granular activated carbon (GAC) absorption. In addition, available treatment technologies for gaseous residuals including stripping, odor control, gaseous chemical leak treatment, and ozonation are described.

Water Treatment Residuals Engineering
Water Treatment Residuals Engineering

Author: David A. Cornwell

Publisher: American Water Works Association

Published: 2006

Total Pages: 0

ISBN-13: 9781583214152

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This manual provides a single reference of information on residuals. It is an expansion and update of the original "Water Treatment Plant Waste Management," published in 1987. Expanded material includes AwwaRF residual products completed over the last 15 years, and provides information sources to find additional details.

Management of Water Treatment Plant Residuals
Management of Water Treatment Plant Residuals

Author: American Water Works Association

Publisher: Amer Water Works Assn

Published: 1996-01-01

Total Pages: 294

ISBN-13: 9780898678628

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This manual provides general information and insight into the development of a comprehensive water treatment residuals management plan for potable water treatment facilities. Readers gain an understanding of how to characterize the form, quantity, and quality of the residuals; determine the appropriate regulatory requirements; identify feasible disposal options; select appropriate residuals processing/treatment technologies; and develop a residuals management strategy that meets both the economic and noneconomic goals established for a water treatment facility. Addressed primarily are those residuals produced by coagulation/filtration plants, precipitative softening plants, membrane separation, ion exchange (IX), and granular activated carbon (GAC) absorption. In addition, available treatment technologies for gaseous residuals including stripping, odor control, gaseous chemical leak treatment, and ozonation are described.