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% Generated by roxygen2: do not edit by hand
% Please edit documentation in R/PEC_sw_drift.R
\name{PEC_sw_drift}
\alias{PEC_sw_drift}
\title{Calculate predicted environmental concentrations in surface water due to drift}
\usage{
PEC_sw_drift(
rate,
applications = 1,
water_depth = 30,
drift_percentages = NULL,
drift_data = c("JKI", "RF"),
crop = "Ackerbau",
distances = c(1, 5, 10, 20),
rate_units = "g/ha",
PEC_units = "µg/L"
)
}
\arguments{
\item{rate}{Application rate in units specified below}
\item{applications}{Number of applications for selection of drift percentile}
\item{water_depth}{Depth of the water body in cm}
\item{drift_percentages}{Percentage drift values for which to calculate PECsw.
'drift_data' and 'distances' if not NULL.}
\item{drift_data}{Source of drift percentage data. If 'JKI', the [drift_data_JKI]
included in the package is used. If 'RF', the Rautmann formula is used, if
implemented for the crop type and number of applications}
\item{crop}{Crop name (use German names for JKI data), defaults to "Ackerbau"}
\item{distances}{The distances in m for which to get PEC values}
\item{rate_units}{Defaults to g/ha}
\item{PEC_units}{Requested units for the calculated PEC. Only µg/L currently supported}
}
\value{
The predicted concentration in surface water
}
\description{
This is a basic, vectorised form of a simple calculation of a contaminant
concentration in surface water based on complete, instantaneous mixing
with input via spray drift.
}
\examples{
PEC_sw_drift(100)
# Alternatively, we can use the formula for a single application to "Ackerbau" from the paper
PEC_sw_drift(100, drift_data = "RF")
# This makes it possible to also use different substances
PEC_sw_drift(100, distances = c(1, 3, 5, 6, 10, 20, 50, 100), drift_data = "RF")
# Using custom drift percentages is also supported
PEC_sw_drift(100, drift_percentages = c(2.77, 0.95, 0.57, 0.48, 0.29, 0.15, 0.06, 0.03))
}
\author{
Johannes Ranke
}
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