Effect of Different Acids on the Scale in Pipelines of Linz-Donawitz (LD) Plant (Steel Making Process) ()
1. Introduction
Excessive scale formation in the water pipeline can cause interruption in water supply and serious abrasion of pumps with consequent high operating costs.
Scale formation is the most common problem faced today by any steel plant. The reason for this is the presence of different ions in the water that cause the formation of scales in the pipelines and when we narrow down to ld process in any steel plant then we find that the water used to strip the gases coming out of the ld plant contains total suspended solids (TSS) and total dissolved solids (TDS). By using different technics, TSS and TDS are removed from the water but the presence of some amount of calcium and magnesium in wastewater is causing scale formation in the pipelines and if we don’t remove scales at a regular interval of time it will lead to clogging of pipeline. And also the presences of small amount of calcium and magnesium ions make it undesirable for reuse in any process in any industry [1] [2] . So it is needed to remove the sediments from the pipeline at a regular interval either by chemical methods or physical methods.
To effectively prevent scale deposits, a number of factors should be considered, such as flow rate of the solutions [3] [4] , temperature [5] and use of antiscaling agents [6] [7] . There were different methods for the removal and prevention of scaling in the pipeline like filtration, aeration etc. At present methods like plain settling, aeration (CO2 purging), coagulation and flocculation are being implemented in several industries. But the scale deposition problem is still there. So, acid is more preferable to remove scales in the present scenario at LD. But the question is how much and which acid we can use?
2. Materials and Methods
2.1. Materials
1%, 2%, 3%, 4% and 5% concentrations of Hydrochloric acid (HCl), Sulphuric acid (H2SO4), Nitric acid (HNO3), Oxalic acid (H2C2O4) and Sulfamic acid (H3NSO3) were used.
2.2. Methods
2.2.1. Dissolution of Scales in Acids
5 gm of scale (from LD of Steel plant) was taken. Certain volume of acid was taken with different concentration (1%, 2%, 3%, 4% and 5%) of acid each time. Content was kept for 60 mins at room temperature. Then it was filtered using filter paper, dried by air blow drier and weighted.
2.2.2. Corrosion in Pipe Due to Different Acids
5% solution of HCl, NO3 and H3NSO3 were prepared. A piece of pipe was dipped in each acid for 60 mins. The piece of pipe was weighted and the difference in weight was calculated.
3. Results and Discussion
HCl can remove most of the scales (Table 1) but there is a possibility that it will corrode the pipe as well. Apart from corrosion HCl also cannot be used in pipes made up of stainless steel since the protective chromiumoxide layer on stainless steel is corroded by the halide. Nitric acid can also dissolve scales but less than HCl (Table 2). Also nitric acid can be used in pipes made up of stainless steel since it is an oxidising acid hence it increases the chromium oxide layer (Figure 1). Sulphuric acids cannot be used to remove scale since it forms precipitate (Table 3). Oxalic acid, at low concentration dissolves small amount of scale but at concentration more than 2% it forms precipitate (Table 4). Sulfamic acid, its 5% dissolves around 30% of the scale (Table 5). The comparison done in Figure 2 gives us a fair amount of knowledge about the action of different acid on scale. From this experiment we came to know that we have only 3 acids but there is a chance of corrosion of pipeline from those acids so we did one more experiment to see the corrosion in the pipe from different acids.
From Table 6, corrosion would be most due to hydrochloric acid than it’s due to sulphamic acid and it would be least due to nitric acid.
Table 1. Effect of concentration of HCl on scale.
Figure 1. Shows oxidising nature of nitric acid.
Table 2. Effect of concentration of H2SO4 on scale.
Table 3. Effect of concentration of HNO3 on scale.
Table 4. Effect of concentration of H2C2O4 on scale.
Table 5. Effect of concentration of H3NSO3 on scale.
Figure 2. Percentage dissolved scale versus concentration.
Table 6. Effect of different acids on pipe.
4. Conclusion
From experimental results with different acids (organic/inorganic) one concludes that inorganic acids work more efficiently than organic acids as we can see oxalic acid dissolves much less amount of scale than hydrochloric or nitric acid. It is evident that HCl works most efficiently when we only consider scale dissolution. But with the data from the experiment on corrosion we can see that HCl can also corrode the pipe and is not useful with pipes made of stainless steel. According to the experiments we get Nitric acid as the second best acid for dissolution of scales and when we consider corrosion as a factor, it will corrode least amongst all the acids being used. Apart from that we can also use nitric acid with stainless steel pipes.
Acknowledgements
The authors acknowledge the financial support as well as support through facilities provided by TATA Steel, Jamshedpur.
Acronyms
LD = Linz Donawitz
TSS = Total Suspended Solids
TDS = Total Dissolved Solids
GCP = Gas Cleaning Plant