THE SYNTHESIS OF N,O-CARBOXYMETHYL CHITOSAN-g- OLIGO(ASPARTIC ACID) AS CORROSION INHIBITOR ON CARBON STEEL AND SCALE INHIBITOR
Corrosion on the inner surface of crude oil and natural gas pipelines due to fluid mixtures that <br /> <br /> produces CO2 co-insisted by the scale formation was the serious problem in oil and gas <br /> <br /> industry. Corrosion can cause thinning and leakage of pipeline,...
Saved in:
| Main Author: | |
|---|---|
| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/29083 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Corrosion on the inner surface of crude oil and natural gas pipelines due to fluid mixtures that <br />
<br />
produces CO2 co-insisted by the scale formation was the serious problem in oil and gas <br />
<br />
industry. Corrosion can cause thinning and leakage of pipeline, while scalling will reduce <br />
<br />
diameter of flowing pipe as well as blockage of some pipeline parts along the oil and gas <br />
<br />
transportation routes from oil wells to the treatment place, then it would be potentially <br />
<br />
causing financial loss and also environmental damage. Therefore, it is necessary to apply a <br />
<br />
method that can control corrosion rate as well as capable to prevent scale formation on that <br />
<br />
system, effectively and efficiently. Polymer compounds containing double bonds and <br />
<br />
heteroatoms are known to be effective as corrosion inhibitor because it can be complexing <br />
<br />
agent or chelating agent when those adhere on metal surfaces, it has good thermal stability <br />
<br />
and can cover larger metal surface areas. Chitosan is one of the biopolymers that can be used <br />
<br />
as a corrosion inhibitor, but it has low solubility in water. Increasing the solubility of chitosan <br />
<br />
in water can be done by carboxymethylation reaction. Meanwhile, oligosuccinimide (OSI) is <br />
<br />
an intermediate of oligoaspartic acid that was known to be effective as a scale inhibitor. In <br />
<br />
this study, N,O-carboxymethyl chitosan (N,O-KMK) and oligosuccinimide were synthesized. <br />
<br />
Then, it followed by grafting onto copolymerized reactions between N,O-KMK and OSI to <br />
<br />
produce N,O-carboxymethyl chitosan-g-oligo(aspartic acid) or N,O-KMK-g-OASP which <br />
<br />
has double functions both as corrosion inhibitor and scale inhibitor. The structure analysis of <br />
<br />
precursors and copolymer was performed by Fourier Transform Infrared (FTIR), Nuclear <br />
<br />
Magnetic Resonance (NMR) spectroscopy, and Liquid Chromatography-Mass Spectroscopy <br />
<br />
(LC-MS). The thermal stability of polymers was analyzed by thermogravimetric (TGA). <br />
<br />
Subsequently, the efficiency of corrosion inhibition was measured by Electrochemical <br />
<br />
Impedance Spectroscopy (EIS), potentiodinamic polarization (Tafel) and weight loss test <br />
<br />
methods in 1% (w/v) NaCl solution saturated by CO2 gas, while scale inhibition was <br />
<br />
analyzed by static scale inhibition test. FTIR spectrum of N,O-KMK-g-OASP showed an <br />
<br />
increasing peak intensity in the wave number 1650 cm-1 from streching vibration in the <br />
<br />
bonding of amide carbonyl groups because more amide groups was formed after the <br />
<br />
copolymerization reaction. N,O-KMK and OSI were classified as mixed inhibitors. Each of <br />
<br />
them was effective enough to reduce corrosion rates at 35 oC and 25 oC respectively. N,OKMK <br />
<br />
still inhibited corrosion rate at 55 oC, but more rapidly coagulated, while OSI has <br />
<br />
higher inhibition efficiency at room temperature but it becomes ineffective at 55 oC. N,OKMK- <br />
<br />
g-OASP is classified as an anodic inhibitor, the efficiency of corrosion inhibition <br />
<br />
increased by increasing concentrations and temperature. N,O-KMK-g-OASP evaluation <br />
<br />
results as a CaCO3 scale inhibitor showed the inhibition efficiency up to 95.77% when the <br />
<br />
concentration amount 30 ppm. These results show that OSI, N,O-KMK and N,O-KMK-g- <br />
<br />
OASP are effective to reduce the corrosion rate on carbon steels in 1% (w/v) NaCl solution <br />
<br />
saturated by CO2 gas. In addition, N,O-KMK-g-OASP also showed effective performance as <br />
<br />
a CaCO3 scale inhibitor. <br />
|
|---|