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The effect of chlorine, heat and physical stress on entrained plankton at Koeberg Nuclear Power StationHuggett, Jenny A January 1988 (has links)
Bibliography: pages 112-138. / The large volume of seawater used for cooling at Koeberg Nuclear Power Station contains many planktonic organisms which are exposed to heat, chlorine and physical stress during their passage through the system. Phytoplankton biomass, measured as chlorophyll a, was reduced by an average of 55.32% due to entrainment, and productivity was decreased by 38.30% on average, mainly due to chlorination. Zooplankton mortality averaged 22.34% for all species and 30.52% for copepods, the dominant group. The copepod Paracartia africana was used in laboratory experiments designed to simulate entrainment. Latent mortality was monitored up to 60 hours after a 30-minute application of stress factors (physical stress was not simulated), and approximately 75% of the total mortality occurred within the 30-minute period. Male Paracartia experienced higher mortalities than females. Extrapolation of these results predicts an overall entrainment mortality (including latent mortality) of 40% for copepods and 29.04% for total zooplankton, although the latter cannot be substantiated. Plankton entrainment at Koeberg was not considered to be overly detrimental to the marine environment because of the very localised area affected, rapid dispersion of heat and chlorine, rapid regeneration times of phytoplankton and some zooplankton, low abundance of commercially important species and potential recruitment from the surrounding productive Benguela upwelling region.
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An evaluation of chlorine as a disinfectant for potable water supplies in the United States : weighing the human health risksMonaghan, Pegeen 31 October 1991 (has links)
The removal of microbial populations from potable
water has been a practice with great importance towards
public health, as it has resulted in the reduction of
literally millions of cases of infectious disease. In the
United States, pathogenic organisms are most commonly
removed from drinking water through the application of
chlorine. Ninety-nine per cent of all U.S. potable water
treatment facilities that disinfect, rely on chlorine as
their sole or primary disinfectant, and over 175,000,000
Americans regularly consume chlorinated water.
In 1974, Rook and Bellar et al. published studies
which indicated that chlorine reacted with organic matter
in water during treatment to produce a wide-range of
halogenated by-products. Since that time, numerous
analyses have been performed to isolate and identify the
by-products of chlorination. Toxicologic and
epidemiologic studies have been performed, some of which
suggest that the use of chlorine as a disinfectant may be
contributing to the incidence of chronic disease in the
United States.
Because of the concern that the use of chlorine for
potable water disinfection may be contributing to chronic
disease, Amendments to the Safe Drinking Water Act (SDWA)
have been promulgated which strictly regulate
disinfectants and disinfection by-products. Future
disinfectant and disinfectant by-product regulations
(1992) will have a major impact on the purveyors of
potable water in the U.S.. Probably the largest challenge
U.S. water treatment utilities now face is in the attempt
to control for disinfectants and disinfectant by-products
while maintaining the microbiological integrity of the
water supply. The SDWA Amendments and their supporting
regulations will result in major changes in the way water
quality parameters are measured, and the way disinfection
and treatment strategies are practiced.
This thesis looks closely at the role of chlorine as
a disinfectant, the by-products arising from chlorine
reacting with organic matter, as well as the rationale
behind the disinfectant and disinfectant by-product
regulations. After examining the chemical, toxicologic
and epidemiologic evidence which fueled the new SDWA
regulations, available treatment strategies for meeting
the new regulations will be detailed and examined. A
water treatment strategy which best appears to maximize
the reduction of waterborne disease and minimize the risk
of chronic disease will then be offered. / Graduation date: 1992
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