ANALYSIS OF THE ELECTRICAL RESPONSE OF KARANGNUNGGAL BENTONITE TO CURRENT VARIATION UNDER WATER CONTENT AND CHEMICAL CONTENT VARIATION FOR GROUNDING APPLICATIONS
In this thesis, research is conducted on the interaction of bentonite with DC, AC, and impulse currents with different moisture levels and chemical contents. The results obtained are that on the DC test, the higher the water content and chemical content, the resistivity is decreased. Based on...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/55425 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | In this thesis, research is conducted on the interaction of bentonite with DC, AC,
and impulse currents with different moisture levels and chemical contents. The
results obtained are that on the DC test, the higher the water content and chemical
content, the resistivity is decreased. Based on all DC test, the addition of HCl can
produce the lowest resistivity. Then successively the addition of NaCl, addition of
NaOH, and changing the water content value increases the resistivity value which
is increasing. This occurs because increased water content and chemical content
can increase the conductivity of bentonite. In AC, the higher the water content and
chemical content for each variation, the lower the average resistivity of the AC
tester. In general, NaOH provides the lowest resistivity. NaCl provides the highest
resistivity, followed by HCl and then moisture. The trend in resistivity to log f for
each of such tests was low frequency, 200 kHz (log f below ? 6.3) the average
resistivity value obtained did not change much. Furthermore, for frequencies up to
10 MHz (log f = 7), the resistivity value increased and decreased again until the
frequency was 13 MHz (log f ? 7.13). The peak of resistivity is obtained at a
frequency of 10 MHz, the peak order from the lowest is the variation in the content
of NaCl, HCl, NaOH, then water content. Meanwhile, in the impulse test, the
average resistivity of bentonite was the lowest when HCl was applied. Meanwhile,
water content does not significantly affect the decrease in resistivity of bentonite
when compared to other variations. NaOH gives the second lowest resistivity after
HCl and NaCl gives lower resistivity than water content variation. The more
conductive the bentonite is, the smaller the resulting breakdown voltage. This can
be seen from the comparison of the breakdown stress for each variation in
bentonite, namely HCl providing the smallest breakdown stress and water content
providing the highest breakdown stress. |
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