Effects of Phosphate-based Corrosion Inhibitors on Disinfectant Stability and HAA/NDMA Formation when in Contact with Copper, Iron, and Lead

Hong, Zhang

08 January 2013

This research examined the impacts of water quality, phosphate-based corrosion inhibitors and pipe wall exposure on free chlorine (HOCl)/chloramine (NH2Cl) degradation and haloacetic acid (HAA)/N-nitrosodimethylamine (NDMA) formation in simulated distribution system water mains and household plumbing at bench-scale and pilot scale. In bench-scale bottle tests, the reactivity of fresh/pre-corroded pipe materials with HOCl/NH2Cl in decreasing order was: ductile iron, copper, lead. The addition of phosphate-based corrosion inhibitors generally increased HOCl/NH2Cl degradation for fresh iron coupons, but decreased HOCl/NH2Cl decay only for fresh copper coupons. Generally, these corrosion inhibitors did not impact HAA formation. Copper corrosion products, including Cu(II), Cu2O, CuO and Cu2(OH)2CO3, catalyzed HAA and NDMA formation. For HAAs, copper catalysis increased with increasing pH from 6.6 to 8.6 and/or increasing concentrations of these copper corrosion products. Interactions of copper with natural organic matter (NOM), likely by complexation, and the subsequent increase in the reactivity of NOM were proposed to be the primary reason for the increased HAA formation.NDMA formation increased with increasing Cu(II) concentrations, DMA concentrations, alkalinity and hardness but was inhibited by the presence of NOM. The transformation of NH2Cl to dichloramine (NHCl2) and complexation of copper with DMA were proposed to be involved in elevating the formation of NDMA at pH 7.0. Finally, in pilot-scale modified pipe loop tests, copper catalysis of NDMA formation was confirmed, especially under laminar flow conditions, and iron was shown to possibly catalyze NDMA formation under turbulent conditions. Orthophosphate increased the catalytic effects of iron but decreased copper catalysis on NDMA formation by either modifying the properties of the iron-associated suspended particles or reducing the dissolved metal concentrations. Orthophosphate increased chloramine decay when in contact with iron, likely by promoting nitrite formation, but orthophosphate decreased chloramine decay for copper and lead by reducing the availability of metal corrosion products.

Distribution system

Secondary disinfectant

Haloacetic acid

N-nitrosodimethylamine

Corrosion inhibitor

Iron

Lead

Copper

0775

Análise comparativa de inibidores de corrosão na água poro e no concreto armado para aço carbono CA-50 / Comparative analysis of corrosion inhibitors in the pore water and in reinforced concrete for carbon steel Ca-50

Ossorio Dominguez, Anile

January 2016

No presente trabalho analisa-se o comportamento do aço de reforço ante à corrosão, com o uso dos inibidores: nitrito de sódio, fosfato de sódio e etalonamina, na água de poros contaminada com cloreto, e no concreto com a finalidade de analisar seus resultados e seus mecanismos diferenciados. Para cumprir este objetivo o presente trabalho divide-se em duas etapas: uma primeira etapa baseada em simular sinteticamente a água de poro de um concreto, cuja solução é KOH 28g/l+NaOH 4g/l. Essa água de poro é simulada em ambiente marinho, cuja solução é KOH 28g/l + NaOH 4g/l+NaCl 35g/l, e a esta solução referência incorporamse os inibidores (20g/l da cada um). Realizaram-se ensaios de espectroscopia de impedância eletroquímica (EIE) (após 3 e 72 horas de imersão) e curvas de polarização (após 72 horas de imersão) com vistas a obter respostas da cinética da corrosão ante a cada solução. Obteve-se o melhor comportamento para a água de poros. No caso da água de poro contaminada por cloretos, o melhor comportamento se obteve para o inibidor nitrito de sódio. Na segunda etapa adotou-se apenas o inibidor nitrito de sódio, pois estatisticamente as eficiências dos três inibidores foram muito similares. Analisou-se o nitrito de sódio em amostras reais de concreto armado contaminado com cloreto de sódio. Para isso se elegeram dois tipos de cimentos (CP IV e CP V) e três relações água-cimento (a/c-0.4, a/c-0.5, a/c- 0.65). Para simular o ambiente marinho, realizaram-se ensaios acelerados de cloretos. Comparam-se métodos de análises simuladas sinteticamente e reais, concluindo-se em ambos meios, embora fossem um solido e outro líquido o inibidor Nitrito de Sódio aumento a sua eficiência com os ciclos de exposição. / In this paper it is analyzed the behavior of reinforcing steel against corrosion using inhibitors: sodium nitrate, sodium phosphate and ethanolamine in water contaminated with chlorides pore and concrete, in order to analyzing the results and different mechanisms. To meet the objective of this work, it was divided into two stages, a first stage based on synthetically simulate the pore water of a concrete, through the following solution KOH 28g/l+NaOH 4g/l, this same solution simulated pore water to a marine environment it would be KOH 28g/l + NaOH 4g/l+NaCl 35g/l, it is then incorporated into both reference solutions inhibitors in a proportion, (20g/l de cada um). Assays were performed electrochemical impedance spectroscopy (EIE) (last 3 hours and 72 hours of immersion) and polarization curves (last 72 hours of immersion) in order to obtain responses corrosion kinetics in each solution. the best performance was obtained in the pore water. In the case of water contaminated with chlorides pore, the best performance was obtained in the presence of sodium nitrite inhibitor. In the second step was performed only with the inhibitor sodium nitrate, as statistically efficiencies of the three inhibitors were similar. Sodium nitrate was analyzed in real samples of reinforced concrete contaminated with chlorides of sodium. So they were chosen two types of cement CP- IV and CP-V, cement water three relationships 0.4, a/c-0.5, a/c- 0.65. In this case to simulate the marine environment, accelerated tests were performed chloride. They were compared the methods of analysis, simulated synthetically and simulated in real concrete.

Concreto armado

Inibidores de corrosão

Água de poro

Corrosion inhibitor

Corrosion

Chlorides

Pore water

Concrete

Análise comparativa de inibidores de corrosão na água poro e no concreto armado para aço carbono CA-50 / Comparative analysis of corrosion inhibitors in the pore water and in reinforced concrete for carbon steel Ca-50

Ossorio Dominguez, Anile

January 2016

No presente trabalho analisa-se o comportamento do aço de reforço ante à corrosão, com o uso dos inibidores: nitrito de sódio, fosfato de sódio e etalonamina, na água de poros contaminada com cloreto, e no concreto com a finalidade de analisar seus resultados e seus mecanismos diferenciados. Para cumprir este objetivo o presente trabalho divide-se em duas etapas: uma primeira etapa baseada em simular sinteticamente a água de poro de um concreto, cuja solução é KOH 28g/l+NaOH 4g/l. Essa água de poro é simulada em ambiente marinho, cuja solução é KOH 28g/l + NaOH 4g/l+NaCl 35g/l, e a esta solução referência incorporamse os inibidores (20g/l da cada um). Realizaram-se ensaios de espectroscopia de impedância eletroquímica (EIE) (após 3 e 72 horas de imersão) e curvas de polarização (após 72 horas de imersão) com vistas a obter respostas da cinética da corrosão ante a cada solução. Obteve-se o melhor comportamento para a água de poros. No caso da água de poro contaminada por cloretos, o melhor comportamento se obteve para o inibidor nitrito de sódio. Na segunda etapa adotou-se apenas o inibidor nitrito de sódio, pois estatisticamente as eficiências dos três inibidores foram muito similares. Analisou-se o nitrito de sódio em amostras reais de concreto armado contaminado com cloreto de sódio. Para isso se elegeram dois tipos de cimentos (CP IV e CP V) e três relações água-cimento (a/c-0.4, a/c-0.5, a/c- 0.65). Para simular o ambiente marinho, realizaram-se ensaios acelerados de cloretos. Comparam-se métodos de análises simuladas sinteticamente e reais, concluindo-se em ambos meios, embora fossem um solido e outro líquido o inibidor Nitrito de Sódio aumento a sua eficiência com os ciclos de exposição. / In this paper it is analyzed the behavior of reinforcing steel against corrosion using inhibitors: sodium nitrate, sodium phosphate and ethanolamine in water contaminated with chlorides pore and concrete, in order to analyzing the results and different mechanisms. To meet the objective of this work, it was divided into two stages, a first stage based on synthetically simulate the pore water of a concrete, through the following solution KOH 28g/l+NaOH 4g/l, this same solution simulated pore water to a marine environment it would be KOH 28g/l + NaOH 4g/l+NaCl 35g/l, it is then incorporated into both reference solutions inhibitors in a proportion, (20g/l de cada um). Assays were performed electrochemical impedance spectroscopy (EIE) (last 3 hours and 72 hours of immersion) and polarization curves (last 72 hours of immersion) in order to obtain responses corrosion kinetics in each solution. the best performance was obtained in the pore water. In the case of water contaminated with chlorides pore, the best performance was obtained in the presence of sodium nitrite inhibitor. In the second step was performed only with the inhibitor sodium nitrate, as statistically efficiencies of the three inhibitors were similar. Sodium nitrate was analyzed in real samples of reinforced concrete contaminated with chlorides of sodium. So they were chosen two types of cement CP- IV and CP-V, cement water three relationships 0.4, a/c-0.5, a/c- 0.65. In this case to simulate the marine environment, accelerated tests were performed chloride. They were compared the methods of analysis, simulated synthetically and simulated in real concrete.

Concreto armado

Inibidores de corrosão

Água de poro

Corrosion inhibitor

Corrosion

Chlorides

Pore water

Concrete

Avaliação do molibdato de sódio, tungstato de sódio e um copolímero a base de silano como inibidores de corrosão para o aço carbono ABNT 1005 em meio de NaCI 3,5%. / Evaluate the sodium molibdate, sodium tungstate and one copolymer of silane as corrosion inhibitor of the carbon steel ABNT 1005 in sodium chloride 3.5%.

Marina Gracinda Modesto

25 August 2008

O objetivo deste trabalho consiste em avaliar o molibdato de sódio (Na2MoO4), o tungstato de sódio (Na2WO4) e um copolímero a base de silano polioxialquileno e polidimetilsiloxano modificado (CPPM) como inibidores de corrosão para o açocarbono ABNT 1005 em meio de NaCl 3,5%. O estudo compreendeu na exposição do metal no meio proposto na ausência e presença de concentrações crescentes das substâncias estudadas. As técnicas utilizadas foram: ensaios de imersão com medida de perda de massa; medida de potencial de corrosão (Ecorr); espectroscopia de impedância eletroquímica (EIE) e curvas de polarização potenciodinâmicas anódicas e catódicas (Cpol). Os resultados dos ensaios de imersão com medida de perda de massa mostraram que a velocidade de corrosão do aço-carbono ABNT 1005 em meio de água do mar é menor que a velocidade de corrosão em meio de NaCl 3,5%. Os valores de potenciais de corrosão mostraram que o Na2MoO4 e Na2WO4 deslocaram os potenciais para valores mais positivos indicando um comportamento de inibidores anódicos. Os parâmetros obtidos pela técnica de EIE mostraram que para o Na2MoO4 o melhor tempo de imersão foi de 6 horas e para o Na2WO4 foi de 12 horas, com eficiências de 70% e 77%, respectivamente. As Cpol confirmaram os resultados de potenciais de corrosão, ou seja, onde tanto o Na2MoO4 quanto o Na2WO4 comportaram-se como inibidores anódicos para o açocarbono ABNT 1005 em meio de NaCl 3,5%. O valor de perda de espessura com a presença de 1x10-2 mol.L-1 de Na2MoO4 com 24 horas de imersão comparado com o valor obtido em NaCl 3,5% sem inibidor forneceu uma eficiência de 82%, enquanto que na presença de Na2WO4, também com 24 horas de imersão e na concentração de 1x10-2 mol.L-1, a eficiência foi de 65%. Os resultados obtidos com o CPPM mostraram que esta substância não age como inibidor de corrosão para o açocarbono ABNT 1005 em meio de NaCl 3,5%. / The aim of this study is to evaluate the sodium molybdate (Na2Mo4), sodium tungstate (Na2WO4) and polydimethyl-siloxane modified copolymer (CPPM) as corrosion inhibitors for the carbon steel ABNT 1005 in 3,5% NaCl media. The metal substrate was exposed in the media with absence and presence of increasing concentrations of the investigated substances. The techniques used were: mass loss tests; open circuit potential; potentiodynamic polarization (Cpol) and electrochemical impedance spectroscopy (EIS). For comparative purpose, mass loss testes were carried out in seawater and in 3,5% NaCl. The results showed that carbon steel ABNT 1005 corrosion rate in seawater is lower than the corrosion rate at 3,5% NaCl. The Na2Mo4 and Na2WO4 corrosion potentials showed more positive values than their absence, indicating an anodic inhibitor behavior. The parameters obtained by EIS technique showed that for the Na2MoO4 the best time of immersion was 6 hours and the Na2WO4 was 12 hours, with efficiencies of 70% and 77% respectively. The Cpol results confirmed the anodic behavior as corrosion inhibitors of the Na2MoO4 and Na2WO4 for carbon steel ABNT 1005 in 3,5% NaCl. After 24 hours of immersion in 1,0x10-2 mol.L-1 Na2MoO4 presence, the corrosion inhibition efficiency estimed using Tafel extrapolation was 82%. In the 1x10-2 mol.L-1 Na2WO4 presence after 24 hours of immersion, the efficiency obtained was 65%. The CPPM results showed it not acting as corrosion inhibitor for carbon steel ABNT 1005 in 3.5% NaCl.

Aço carbono

Cloreto de sódio

Corrosão

Inibidores de corrosão

Carbon steel

Corrosion

Corrosion inhibitor

Sodium chloride

Calcium and magnesium containing anti-corrosion films on mild steel

Yang, Yuan Feng

January 2010

Under normal conditions, cathodically protected mild steel in seawater is protected by a precipitated film of calcium carbonate and magnesium hydroxide, the so-called calcareous film. This study has attempted to investigate the dynamics of calcareous deposit formation during cathodic protection and the composition of calcareous deposits formed under different applied current densities, and also the role played by the initial current density in forming a good quality calcareous deposit. In addition, an under protection situation can occur where current demand values are under estimated, or where structures are approaching the end of their design lives. In these conditions, a calcareous film might well occur but complete protection is probably not possible. These situations have also been studied. At low insufficient current densities where steel corrosion is still occurring, a clear correlation exists between the iron containing corrosion product and the overlaying magnesium hydroxide layer. Such effects have also been investigated using pH titration analysis, where the effect of co-precipitation of the iron and magnesium oxides/hydroxides has been shown. At higher current densities a layered precipitate has been shown to occur consisting of an inner magnesium containing layer and an outer calcium containing layer. At obvious overprotection current densities, the mechanical stresses involved in hydrogen evolution are assumed to give rise to film cracking. To augment and compliment the study on calcareous calcium/magnesium films formed during cathodic protection, a calcium-magnesium containing pigment has also been investigated in aqueous solutions at open circuit as a possible corrosion inhibitor. Another study looked at the same inhibitor in conjunction with a sacrificial zinc anode. Very effective inhibition has been shown with the film containing not only magnesium, calcium and phosphorous but also zinc. In all the investigations electrochemical methods have been used together with various surface analytical techniques.

669

Electrochemical investigation of "green" film-forming corrosion inhibitors : / Elektrokemisk undersökning av "grön" filmbildande korrosionsinhibitorer :

Wang, Hansheng

January 2011

In this work, a comparative electrochemical study has been performed to evaluate corrosion inhibition property of several film-forming corrosion inhibitors provide by Akzo Nobel on carbon steel in a chloride solution. For carbon steel exposed to 1 M NaCl solution with and without added inhibitor, electrochemical measurements including electrochemical impedance spectroscopy (EIS), linear polarization resistance (LPR) at different exposure time intervals, and potentiodynamic polarization at the termination of the exposure, have been performed to investigate the film forming process and to evaluate corrosion inhibition efficiency of the inhibitors, as well as its evolution with time. The corrosion resistance data obtained from the EIS and LPR measurements are in good agreement. The results indicate different inhibition properties of the inhibitors tested. The inhibition effect of SSF CI-1 is negligible in the first hour of exposure, but it increases steadily with time for 1 day, and then remains the same level during the exposure up to one week. SSF CI-2 exhibits a good inhibition effect in the first hour, but the effect decreases with time to a low level after 8 hours, and then increases again with prolonged exposure. SSF CI-4 shows a low inhibition effect during the first day, and then increases to a maximum level after three days’ exposure. For SSF CI-5 and SSF CI-6, the inhibition effect within 8 hours is relative low but higher than that of SSF CI-4, and the effect increases with time during prolonged exposure. The SSF CI-5 seems to be better than SSF CI-6 because of a more stable inhibition effect. The EIS results indicate that most of the inhibitors form a resistive surface film on carbon steel, which becomes more resistive and protective after several days’ of exposure. However, in the initial stage of exposure, the SSF CI-6 does not show an effect of formation of a resistive film on the surface. The potentiodynamic polarization measurements suggest that, SSF CI-1 and SSF CI-2 are anodic type inhibitor, SSF CI-4 is cathodic type inhibitor, and SSF CI-5 and SSF CI-6 are mix type inhibitor. Moreover, the inhibitors tested show a similar corrosion inhibition effect as mussel adhesive protein (MAP) at the low dosage level.

corrosion inhibitor

“green chemistry”

film forming

electrochemical method

inhibition efficiency

Other Chemistry Topics

Annan kemi

Evaluating Corrosion Control Alternatives For A Reverse Osmosis, Nanofiltration And Anion-exchange Blended Water Supply

Wilder, Rebecca J

01 January 2012

The research reported herein describes the study activities performed by University of Central Florida (UCF) on behalf of the Town of Jupiter Water Utilities (Town). The Town recently changed its water treatment operations from a combination of reverse osmosis (RO), lime softening (LS) and anion-exchange (IX) to a combination of RO, IX and nanofiltration (NF). Although this treatment change provided enhanced water to the surrounding community in terms of better contaminant removal and reduced DBP formation potential, integration of the NF process altered finished water quality parameters including pH, alkalinity and hardness. There was concern that these changes could result in secondary impacts related to accelerated corrosion of distribution system components and subsequent regulatory compliance. In addition, replacement of the LS process altered the in-plant blending operations by creating an unstable intermediate blend composed of RO and IX waters. There were concerns that this intermediate blend was affecting the integrity of in-plant hydraulic conveyance components. UCF developed a corrosion monitoring study to assess the potential impacts related to internal corrosion, water quality and regulatory compliance after integrating NF into the existing water supply. The intended purpose was to further highlight the complexities of corrosion, describe a unique approach to corrosion monitoring as well as offer various recommendations for corrosion control in a system that relies on a blended water supply. Research was conducted in three phases to address the in-plant and distribution system corrosion issues separately and identify appropriate corrosion control treatment alternatives. The three test phases included: a baseline conditions assessment to iv compare corrosion of the intermediate RO-IX blend with the finished water blend (ROIX-NF); an in-plant corrosion control evaluation; and a distribution system corrosion control evaluation. A test apparatus was constructed and operated at the Town’s facilities to monitor corrosion activity of mild steel, copper and lead solder metal components. The test apparatus consisted of looped PVC pipe segments housed with electrochemical probes and metal coupons to monitor corrosion rates of the metallic components. Electrochemical probes containing metal electrodes were used to obtain instantaneous corrosion rates by means of the Linear Polarization Resistance (LPR) technique while the metal coupons were gravimetrically evaluated for weight loss. The electrochemical probes permitted daily monitoring of each metal’s corrosion rates while metal coupons were analyzed at the conclusion of testing and used for comparison. Different test waters flowed through the corrosion rack according to each test phase and relative corrosion rates were compared to evaluate corrosion control techniques. Study findings indicated that the intermediate blend was more corrosive, in general, then the final blend; however, research also indicated that the final blend of water was increasing lead and copper concentrations within the distribution system. An orthophosphate corrosion inhibitor was evaluated for in-plant corrosion control. The inhibitor’s performance was assessed by comparing mild steel corrosion rates with and without the chemical. In addition, secondary impacts related to introduction of the chemical were evaluated by pre-corroding the metallic components prior to the introduction of the inhibitor. Results indicated that the inhibitor marginally decreased corrosion rates and increased the turbidity of the water supply. Based on these v observations, it was concluded that the inhibitor was not a viable solution for in-plant corrosion control. To resolve in-plant corrosion issues, recommendations were made for modification of in-plant blending operations to eliminate the corrosive intermediate blend from the process allowing the RO, IX and NF treated waters to be blended in a common location. The effectiveness of a poly/ortho blended phosphate chemical inhibitor was evaluated for reducing lead and copper corrosion to resolve distribution corrosion issues. A 50/50 poly/ortho blend was selected because of its analogous use in similar municipal water facilities. Metallic corrosion rates, particularly lead and copper, were compared with and without the inhibitor to assess the performance of the chemical. Like the previous test phase, the metallic components were pre-corroded prior to the chemical’s introduction to determine if secondary impacts could result from its presence. Results indicated that lead and copper corrosion rates were lower in the presence of the inhibitor, and secondary impacts related to increased turbidity were not observed for this chemical. Based on these results, it was recommended that a poly/ortho blended phosphate be used to decrease lead and copper corrosion within the Town’s distribution system.

Corrosion

corrosion control

corrosion inhibitor

membranes

reverse osmosis

nanofiltration

linear polarization resistance

Engineering

Environmental Engineering

Corrosion Inhibition Performance of Imidazolium Ionic Liquids and Their Influence On Surface Ferrous Carbonate Layer Formation

Yang, Dongrui

07 June 2016

No description available.

Chemical Engineering

Materials Science

Mild steel

CO2 corrosion

corrosion inhibitor

EIS

polarization

interfaces

Imidazolium

ionic liquid

An experimental study of corrosion inhibitor performance and slug flow characteristics in horizontal multiphase pipelines

Menezes, Richard Joseph

January 1994

No description available.

Engineering, Chemical

Corrosion inhibitor performance

Slug flow characteristics

Horizontal multiphase pipelines

Effect of Corrosion Inhibitor on Water Wetting and Carbon Dioxide Corrosion in Oil-Water Two-Phase Flow

Li, Chong

10 August 2009

No description available.

Chemical Engineering

phase wetting

carbon dioxide corrosion

two-phase flow

corrosion inhibitor

carbon steel

wettability