Coagulation and flocculation are the most important processes in water treatment plants. Nowadays, in Iran, coagulants which have the most usage in water treatment are Aluminum Sulphate (Alum) and Ferric Chlo-ride. Using synthetic coagulants are not economical and useful for health in developing countries. The aim of this research is to survey and compare the Ferric Chloride coagulant function and this coagulant accompany with Plantago ovata coagulant aid under variable pH for eliminating of water turbidity. This study was performed in lab scale for water containing artificial turbidity of clay. The experiments were done in three turbidity ranges 100, 50, 20 NTU and two ranges of pH 7 and 8. The amount of Ferric Chloride in all experiments were 10 ppm and P.ovata extarct in optimum concentration for turbidity of 100, 50, 20 NTU was 0.2 ppm, 0.1 ppm and 0.04 ppm respectively. The optimum pH was 7. Using P.ovata co-agulant aid in turbidity 100, 50, 20 NTU can eliminate 94.1, 94.5, 88.15 percent of above turbidities, while using Ferric Chloride coagulant alone in optimum pH can eliminate 90.3, 85.16, 80.2 percent of the turbid-ities mentioned above. Results show that P.ovata extract is less efficient in high turbidities when used as a coagulant aid. Plantago ovata, as a coagulant aid, showed positive influence on turbidity removal from water. In addition, optimized pH showed important role in reducing turbidity.
About million peoples of the world suffering lack of sanitary drinking water. Every year, more than 6 million peoples (about 2 million children) are dieing, because of polluted drinking water, and developing countries expend a lot for importing chemical materials like Poly Aluminum Chloride and Alum [
Historical records of using different parts of plants such as, root, stem and seed for making clear water is related to Sanskrit book which says more than 4000 years ago Indians used seeds of Nirmali tree for making clear water from turbid water of the rivers. In many countries of the world using artificial polymers as coagulant and coagulant aid have been forbidden because of bad effects on human health [12,13,15,16]. This research studies the application of P.ovata as a coagulant aid. In addition, because of lack of comprehensive studies concerning elimination of turbidity with P.ovata as a coagulant aid and also in accompany with coagulant Ferric Chloride.
Plantago ovata is a native Iranian plant. It is a small, one year old plant without or with very short stem covered with soft fiber, from Plantginaceae family and its height is 7 to 30 centimeters [17-21]. P.ovata seeds contain Mosilaj, protein, fixed oil, cellulose and starch [
In this study, while preparing artificial water turbidity, the effect of adding coagulant aid in optimum pH to improve turbidity elimination was studied, and necessary comparisons were made practically. It is not possible to store enough water containing natural turbidity in the laboratory because of instability. Therefore, in this study, water containing three turbidities: high turbidity of 100 NTU, medium 50 NTU and low 20 NTU were added to the tap water by clay which was sieved with mesh 60 for making artificial turbidity. Ferric Chloride (FeCl3, 6H2O) made in Merck KGaA as coagulant and extract of P.ovata as coagulant aid were used. Sulphuric acid (1N) was used in this study to regulate pH value. The experiments were performed in the water and waste water lab of the faculty of environment, University of Tehran.
Experimental conditions of all experiments are as follows:
1) Experiments were performed in 25±2 °C because temperature is one of the most effective parameters on density, viscosity and amount of coagulants in keeping conditions.
2) The volume of applied water was 500 cc for all three applied turbidities.
3) Chemical oxygen demand (COD) was determined by Spectrophotometer DR/2000HACH.
4) TOC of samples for examining TOC before and after using coagulant aid P.ovata was measured by Spectrophotometer HACHLANGE DR/5000 uv/vis.
5) pH of the samples was measured by digital pH meter Metrohm Model 691.
6) Turbidity was determined by turbidity meter gage HANNA.
7) Digital scale METTLER AE200 was used for weighing.
All the experiments were performed by using jar experiment method. Jar unit PHIPPS & BIRD STIRRER MODEL 7790-402 was used.
At first, the seeds of plants were soaked in water for 24 hours. The obtained gelatine was filtered and dried at 105±5 °C in oven. The obtained powder was used for the experiments. Plants contain mosilaj, protein, cellulose and starch [17,22,24].
In this study, at first 5 samples of 500 ml water which its pH and turbidity has already been measured and contained the turbidity of 100, 50 or 20 NTU, was poured in special jar vessels, one time with known amount of coagulant Ferric Chloride and another time with coagulant Ferric Chloride with in accompany coagulant aid P.ovata.
The samples were shaken for one minute with 100 cycles per minute, then 25 minutes with 30 cycles per minute to make Floc. During this time, formation of Flocs were observed , then Flocs were allowed to settle for 30 minutes and after that jars were sampled for analyzing and measuring turbidity and pH. The residual turbidity was compared with initial turbidity. In addition, pH variations were examined. This method was repeated for four times, Sulphuric acid (1N) was used to study the influence of pH on efficiency of coagulant aid P.ovata. Then pH variation as well as final turbidity of the samples was compared with the initial values.
In this research, the role of P.ovata in elimination of water turbidity was studied, using coagulation and flocculation processes. P.ovata coagulant aid was used to reduce Ferric chloride consumption and optimum value and optimum pH were determined. One of the most important parameters was the amount of produced sludge which examined in each stage. Obtained results concerning use of Ferric Chloride alone and with coagulant aid in variable pH, were shown in Figures 1 to10.
Figures 1, 3 and 5 show results for pH, 7 and for consumption Ferric Chloride alone and with coagulant aid P.ovata. Figures 2, 4 and 6 for pH, 8 is produced.
Results indicates that turbidity elimination is ideal in pH,7 and using Ferric Chloride with P.ovata. Figures 7 to10 present the comparison of turbidity elimination for all experiments. The results are as follows:
1) Using 10 ppm Ferric Chloride and 0.2 ppm of P.ovata in 100 NTU turbidity and pH, 7 could remove 94.1% of turbidity, while in pH, 8, turbidity elimination was 89.2%.
2) In moderate turbidity 50 NTU using 10 ppm Ferric Chloride and 0.1 ppm of P.ovata in pH, 7, eliminate 94.5% of the turbidity while in pH, 8 this value was 89.3% 3) In low turbidity of 20 NTU using 10 ppm Ferric Chloride and 0.04 ppm of P.ovata in pH, 7, turbidity reached to 2.37 NTU and elimination rate efficiency was 88.15%. At the same condition in pH, 8 the removal efficiency was 81.45 %.
4) COD measurement results, in all experiment were Nil and it shows that using P.ovata does not have any residual in treated water.
5) TOC in all experiment has been done and there is not any Toc in treated water.
Application of P.ovata plays an important role in turbidity elimination, reducing Ferric Chloride consumption as well as producing sludge significantly.
In this section of research, jar test on water sample with pH, 7 was repeated and in each time of injection specified quantity of P.ovata has used as coagulant aid. The results of these tests are presented in Figures 1, 3, 5, 7 and 9.
The influence of P.ovata on coagulation process increases with P.ovata injection enhancement. However, if P.ovata injection exceeds its optimum value, its effect will decrease. Increase in the efficiency of water turbidity removal was observed in low pH values, should be determined under conditions in water treatment plants.
The produced sludge from water plant operation is classified as chemical sludge which should be disposed under specific procedures in some countries. Sludge production reduction is the first step to decrease investment cost and sludge transfer and removal operation. One technique is simultaneous utilizations of Ferric Chloride and coagulant aid. When P.ovata is selected as a coagulant aid, consumption of Ferric Chloride decreases that leads to decrease of sludge production.
In this research economized value of variation of consumption of chemical materials was studied. If consumption of P.ovata leads to decrease in Ferric Chloride consumption, with considering global and regional price of this material, it is possible to estimate decreased cost of chemical materials.
Totally, the following results were obtained from the tests:
1) The efficiency of P.ovata seed extract coagulant aid is influenced by pH and optimum pH increases its efficiency.
2) In turbidity of 50 NTU the seed extract of P.ovata in concentration of 0.1 ppm with 10 ppm of Ferric Chloride can eliminate turbidity more than Ferric Chloride in concentration of alone.
3) With turbidity reduction to 20 NTU, efficiency of P.ovata decreases, however leads to standard turbidity level.
4) According to the results presented in figures and tables of this research, the extract of P.ovata does not reduce final pH of water sample, while using Ferric Chloride alone reduces final pH of the samples.
5) pH reduction improves the performance of Ferric Chloride alone as well as Ferric Chloride in accompany with P.ovata.
6) Using coagulant aid promotes the efficiency of Ferric Chloride and reduces the turbidity more than alone situation.
7) The seeds of this plant are much cheaper than artificial coagulant aids. This plant is sowed in Iran and readily accessible. In addition, from health aspect, not only P.ovata does not have any harmful effect in comparison with artificial coagulant aid but also it used as a medicinal plant. Finally it is recommended that the same research is conducted on the influent of water treatment plants in pilot scale.