A study of the potential improvement of Sydvaranger Gruve´s process water treatment through experiments with different flocculants and coagulants
Permanent link
https://hdl.handle.net/10037/7926Date
2015-06-01Type
Master thesisMastergradsoppgave
Author
Floer, Ida KatrineAbstract
Mining is the process or industry of extracting valuable minerals or other
geological materials from the earth. The nature of mining creates a potential
negative impact on the environment both during the mining operations
and several years after the mine is closed. Over the years regulations designed
to moderate the negative effects are adopted, and environmental issues
and challenges have gotten more attention. The mining industries aim
to improve production efficiency and at the same time take care of the environment
according to best practice. The latter is the subject in this thesis,
which aims to look at Sydvaranger Gruve AS’s use of chemical treatment
of process water within the mining industry.
Flocculants and coagulants are chemicals that are used in water treatment
in many industries. In this approach the water resource is limited and the
aim is to treat the process water in order to recirculate it. Despite the same
mineral being processed the process water will not have the same properties
due to the huge variations of influencing factors. Some theory regarding
water treatment with chemicals exists, but there are still many assumptions
and a lack of understanding. There are many chemicals on the market
and it requires a lot of testing to assure that the most efficient chemical is
used in the process water treatment.
Sydvaranger Gruve AS is a mining company located North in Norway
close to the Russian border. The company has a history that dates back over
a hundred years and it is known for its pioneering development of technology
to process taconites, which is a low-grade ore. Sydvaranger Gruve AS
is currently using a cationic coagulant with low molecular weight, Magnafloc
LT 38, in combination with a slightly anionic flocculent with a medium
molecular weight, Magnafloc 10.
The study presented in this thesis is based on existing literature, though
the previous work in this area has proved to be limited. It is challenging
to conclude the specific chemical reaction due to lack of literature, but assumptions
will be made based on theory.
In this thesis the process is presented in the form of description and flowcharts.
Influencing factors regarding the process and geology are identified and
discussed. The existing theory regarding chemical water treatment is presented
and various chemical products for water treatment are gathered
from different suppliers. The procedure for testing is presented, the testing
is performed in three main stages and are evaluated both quantitative
and qualitative. A lot of effort has been put into finding a suitable chemical
or a combination of chemicals and many chemicals were tested through experimental
work. Zetag 8187, a strongly cationic flocculent with a medium
high molecular weight, is the chemical that has shown the best result and
has been examined further to compare its behavior against the chemicals
in use today.
A quality assurance has been performed to illustrate the reliability of the
test methods and procedures despite the large variations in the influencing
factors. A risk assessment based on environmental issues has been done
on the final chemical recommendation, Zetag 8187, versus the chemicals
that are in use today, Magnafloc 10 and Magnafloc LT 38, in order to see
if there are any environmental benefits by substitution of chemicals, other
than performance. The results are presented and final recommendations
are made based on the tests and other observations. Despite proving good
results in small-scale tests, extensive plant scale tests should be carried out
to verify the results shown in the thesis.
Publisher
UiT The Arctic University of NorwayUiT Norges arktiske universitet
Metadata
Show full item recordCollections
Copyright 2015 The Author(s)
The following license file are associated with this item: