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Water Reuse: Potential for Expanding the Nation's Water Supply Through Reuse of Municipal Wastewater (2012)

Chapter: Appendix B: Computation of Average Daily Dose

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Suggested Citation:"Appendix B: Computation of Average Daily Dose." National Research Council. 2012. Water Reuse: Potential for Expanding the Nation's Water Supply Through Reuse of Municipal Wastewater. Washington, DC: The National Academies Press. doi: 10.17226/13303.
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Appendix B

Computation of Average Daily Dose

The Average Daily Dose from all exposures to reclaimed water (ADDRW) can be estimated using the following equation (modified from Hutcheson et al., 1990):

ADDRW = ADDR + ADDD + ADDI

The Average Daily Dose from ingestion of the reclaimed water (ADDR) can be estimated using the following equation (modified from Hutcheson and Martin, 1992):

image

where

 
  ContaminantR = Concentration of chemical in reclaimed water (mass/volume),
  VI = Daily volume of reclaimed water ingestion (mass/volume),
  BAF = Bioavailability adjustment factor,
  D2 = Duration of the exposure period (time),
  BW = Average body weight (e.g., 70 kg),
  AP = Averaging period (time),
  C = Appropriate units conversion factor.

The Average Daily Dose from dermal contact with reclaimed water (ADDD) can be estimated using the following equation:

image

where

 
  ContaminantR = Concentration of chemical in reclaimed water (mass/volume),
  SA = Skin surface area in contact with the surface water during the period of exposure (area),
  PC = Permeability constant (volume/time × area),
  D1 = Average duration of each exposure event (time/event),
  D2 = Duration of the exposure period (time),
  BAF = Bioavailability adjustment factor,
  F = Number of exposure events during the exposure period divided by the number of days in the exposure period (events/time),
  D1 = Average duration of each exposure event (time/event),
  D2 = Duration of the exposure period (time),
  BW = Average body weight (e.g., 70 kg),
  AP = Averaging period (time),
  C = Appropriate units conversion factor.
Page 250 Cite
Suggested Citation:"Appendix B: Computation of Average Daily Dose." National Research Council. 2012. Water Reuse: Potential for Expanding the Nation's Water Supply Through Reuse of Municipal Wastewater. Washington, DC: The National Academies Press. doi: 10.17226/13303.
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The Average Daily Dose from inhalation of contaminants in reclaimed water (ADDI) can be estimated using the following equation:

image

where

ContaminantR = Concentration of chemical in reclaimed water (mass/volume),
VR = Daily respiratory volume during the period of exposure (volume/time),
BAF = Bioavailability adjustment factor,
F = Number of exposure events during the exposure period divided by the number of days in the exposure period (events/time),
D1 = Average duration of each exposure event (time/event),
D2 = Duration of the exposure period (time),
BW = Average body weight (e.g., 70 kg),
AP = Averaging period (time),
C = Appropriate units conversion factor.
Page 249 Cite
Suggested Citation:"Appendix B: Computation of Average Daily Dose." National Research Council. 2012. Water Reuse: Potential for Expanding the Nation's Water Supply Through Reuse of Municipal Wastewater. Washington, DC: The National Academies Press. doi: 10.17226/13303.
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Page 249
Page 250 Cite
Suggested Citation:"Appendix B: Computation of Average Daily Dose." National Research Council. 2012. Water Reuse: Potential for Expanding the Nation's Water Supply Through Reuse of Municipal Wastewater. Washington, DC: The National Academies Press. doi: 10.17226/13303.
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Expanding water reuse—the use of treated wastewater for beneficial purposes including irrigation, industrial uses, and drinking water augmentation—could significantly increase the nation's total available water resources. Water Reuse presents a portfolio of treatment options available to mitigate water quality issues in reclaimed water along with new analysis suggesting that the risk of exposure to certain microbial and chemical contaminants from drinking reclaimed water does not appear to be any higher than the risk experienced in at least some current drinking water treatment systems, and may be orders of magnitude lower. This report recommends adjustments to the federal regulatory framework that could enhance public health protection for both planned and unplanned (or de facto) reuse and increase public confidence in water reuse.

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