Pipelines are system of pipes designed to transport liquids, gases or solid/
liquid mixtures over long distances. Some are used for domestic, household
and sewage purposes. Others are buried underground or submerged in
water for transportation of natural oil and gas (O & G) products. In this
work, the specimens had to be kept in a workable state and steps were taken
to prepare each specimen: all cuts and sheared edges were ground out to prevent
them from becoming sites for preferential attack. The finishing of the
specimen surface with grit abrasive paper (sand paper) and rinsing of the
specimens in distilled water were done. Then degreasing of specimen in acetone
and air-dried were carried out. Upon drying, the specimens were immediately
weighed to obtain their initial weights. Twelve specimens were used
for the test as follows: 6 Aluminum (Al); and 6 mild steel (MS) samples. With
a 2 M concentration of Vernomia Amydalina (VA) extract solution, the MS
and Al samples were immersed in different plastic containers containing 400
ml of seawater with pH value of 7.25 with no (0%) inhibitor added to it. A 5%
(400 ml) of the VA solution was poured into the measuring cylinder for each
sample-Al and MS. The specimens were suspended by the strings and completely
immersed in the different percentage test media. The same procedure
was carried out for each of the different percentages, 10%, 15%, 20%, and
25% and a total of 12 solutions were set up. The experimental procedure used
was that seawater of 7.25 pH was obtained from Abonnema water front of
Rivers State. At the end of every week (168 hours), the specimens were removed
from the corrosive media. Observation and recording of appearance
of the specimen noting sites were done. Cleanings of specimen with white
handkerchief or tissue paper were carried out and washing of specimen with
distilled water, scrubbing of specimen with a soft brush and dipping the specimen into acetone after washing, it was removed to air-dry and weighed. It is
observed that optimum inhibition of coupons was obtained between 15% -
25% of VA solution during the first four weeks of testing. At the fifth week
the inhibitor was gradually losing its effectiveness. This means that more inhibitor
need be added at regular intervals to sustain the effectiveness of the
inhibitor.
References
[1]
Aced Students Portal (2014) Wikipedia. Copyright?2005.
[2]
Inegiyemiema, M. and Nitonye, S. (2015). Hydrodynamic Analysis of a Column Structure of a Petroleum Storage Tank. International Journal of Scientific and Engineering Research, 5, 739-752. http://www.ijser.org
[3]
Okoroafor, C. (2004) Cathodic Protection as a Means of Saving National Asset. Journal of Corrosion Science and Technology, 1, 1-6.
[4]
Alawode, A.J. and Ogunleye, I.O. (2011) Maintenance, Security and Environmental Implications of Pipeline Damage and Ruptures in the Niger Delta Region. Pacific Journal of Science and Technology, 12, 565-573.
[5]
Beavers, J. (2007) Semantic Prominence in the Syntax: A Case Study in English Object/Oblique Alternations. The University of Kentucky at Lexington, KY.
[6]
Fontana, M.G. (1986) Corrosion Engineering. Mc Graw-Hill, Inc., New York, New York.
[7]
Encyclopedia of Electrochemistry Website (2001)
http://electrochem.cwru.edu/ed/encycl/
[8]
Natarajan, K.A. and Fortana, M.G. (2006) Advances in Corrosion Engineering, Ilsc Bangalore. Corrosion Engineering. Mc Graw-Hill, Inc., New York.
[9]
Fontana, M.G. and Greene, N.D. (2010) Corrosion Engineering, Materials Science and Engineering, University of Minnesota. McGraw-Hill, Inc., New York, 1978.
[10]
Beavers, A.J., Peabody, A.W. and Little, B.J. (2007) Control of Pipeline Corrosion. NACE International, Houston Tex.
[11]
Samson, N. (2015) Stress and Resistance Analysis for the Design of a Work Barge. International Journal of Scientific and Engineering Research, 6, pn-1064974.
http://www.ijser.org
[12]
Iduk, U. and Samson, N. (2015) Effects and Solutions of Marine Pollution from Ships in Nigerian Waterways. International Journal of Scientific and Engineering Research, 6, 782-792. http://www.ijser.org
[13]
Ekine, A.S. and Emujakporue, G.O. (2010) Investigation of Corrosion of Buried Oil Pipeline by the Electrical Geophysical Methods. Journal of Applied Science and Environmental Management, 14, 63-65. https://doi.org/10.4314/jasem.v14i1.56492
[14]
Ilman, M.N. Analysis of Internal Corrosion in Subsea Oil Pipelines. Gadjah Mada University, Yogyakarta.
[15]
Inegiyemiema, M., Nitonye, S., Dick, I.F. and Erekosima, A. (2014) Design of a Mooring System for an Offshore Structure (A Case Study of 5000-Tonnes Offshore Work Barge [WB]). International Journal of Engineering and Technology, 4, 683-692. http://www.ijet.journal.org
[16]
Raouf, A.A. and Ahmed, M.F. (2011) The General Equation of the Pipe to Soil Potential at All Humidity Conditions by the Use of both Soil Factor and Stray Potential of the Pipe-Soilearthing Grid System. Journal of American Science, 7, 787-795.
[17]
Ogbonna, I.J. (2008) Mechanism and Modeling of Atmospheric Corrosion of ZincCoated Iron Sheets along the South-Eastern Coast of the Niger Delta. Ph.D Thesis, University of Calabar, Calabar.
[18]
Osakuni, M.U. and Abam, T.K. (2004) Shallow Resistivity Measurement for Cathodic Protection of Pipelines in the Niger Delta. Journal of Environmental Geology, 45, 747-752. https://doi.org/10.1007/s00254-003-0916-9
[19]
Samson, N. and Ogbonnaya, E.A. (2015) Optimized Condition Monitoring Model for Performance Evaluation of a Shell and Tube Heat Exchanger. International Research Journal in Engineering, Science and Technology (IREJEST), 12, 21-34.
http://www.irejest.org
Andrew, E.R., Graham, E.C.B., Sleven, J.D., Foreman, S., American Water Works Association Research Foundation (2005) External Corrosion and Corrosion Control of Buried Water Mains. American Water Works Association, 159 p.
[22]
Tuaweri, T.J., Ogbonnaya, E.A. and Onyemaobi, O.O. (2015) Corrosion Inhibition of Heat Treated Mild Steel with Neem Leaves Extract in a Chloride Medium. International Journal of Research in Engineering and Technology, 4, 404-409.
https://www.ijret.org
https://doi.org/10.15623/ijret.2015.0406069
[23]
Sully, J.R and Taylor D.W. (2004) Electrochemical Methods of Corrosion Testing Metals Handbook. Vol. 13.
[24]
Tuaweri, T.J. and Ogbonnaya, E.A. (2017) Corrosion Inhibition Characteristics of Vernonia Amygdalina (Bitter Leaf) on Mild Steel in Seawater. Journal of Science and Engineering Research, 4, 6-13. http://www.jsaer.com/
[25]
Standard Practice 2007. Protective Criteria. National Association of Corrosion Engineers International, Sp0169.
[26]
Ahmed, I., Islam, A. and Ali, N. (2017) Determination of Corrosion Rate of Mild Steel in different Medium Measuring Current Density. International Conference on Mechanical Engineering and Renewable Energy, Chittagong, Bangladesh, 18-20 December 2017, 1-4.
https://www.researchgate.net/publication/321998150_DETERMINATION_OF_CORROSION_RATE _OF_MILD_STEEL_IN_DIFFERENT_MEDIUM_MEASURING_CURRENT_DENSITY
