فهرست مطالب امیرحسین سیاح زاده

Sulfate is an important anion in natural waters, and its excessive concentration can be harmful. Therefore, in this study, the efficiency of sulfate removal using nanoclay montmorillonite (adsorbent) from water was investigated by determining the effect of adsorbent concentration, pH, time, and temperature to determine the optimal conditions. The sulfate adsorption isotherms were also examined. The highest sulfate removal was achieved at a concentration of 1 g/l of nanoclay montmorillonite, resulting in 4.47 mg/g or 23% removal, at pH 3 with 2.87 mg/g or 27% removal, at a time of 90 minutes with 2.15 mg/g or 21% removal, and at a temperature of 25°C with 3.54 mg/g or 35% removal. Thermodynamic constants indicated that sulfate adsorption on the adsorbent surfaces is endothermic and spontaneous. The pseudo-second-order kinetic model provided a better fit to the time data, indicating chemical adsorption of sulfate. Among the isotherm equations, the Langmuir equation showed a better fit compared to Freundlich, indicating monolayer adsorption surfaces. Furthermore, the maximum adsorption capacity of nanoclay montmorillonite for sulfate (SO4˭-S) was found to be 9.7 mg/g. SEM-EDX analysis also revealed surface adsorption of sulfur and changes in the surface. Therefore, this nanoclay was effective in removing sulfate from water.

 The highest sulfate removal percentage was achieved at a concentration of 1 gram per liter of adsorbent, which was 3.44 milligrams per gram of adsorbent or 17.2%. At pH 3, it was 2.22 milligrams per gram or 22.2%. At a time of 90 minutes, it was 4.25 milligrams per gram or 5.42%. And at a temperature of 20 degrees Celsius, it was 2.51 milligrams per gram or 1.25%. In the SEM analysis, the average size of titanium dioxide nanoparticles increased from 7.33 nanometers before sulfate adsorption to 3.48 nanometers after sulfate adsorption. In the EDX analysis, it was found that titanium dioxide nanoparticles, in their pure state before sulfate adsorption, consisted mainly of titanium and oxygen, while after sulfate adsorption, sulfur was observed in addition to titanium and oxygen, indicating the surface adsorption of sulfate. In the BET measurement, the specific surface area, average pore diameter, and pore volume of titanium dioxide nanoparticles were determined as 45.4 square meters per gram, 22.3 nanometers, and 253.0 cubic centimeters per gram, respectively. The calculation of thermodynamic constants, ΔG° (gypsum free energy), yielded negative values, indicating the spontaneity of the reaction. Furthermore, ΔH° (enthalpy) was positive, indicating the endothermic nature of the adsorption process, and ΔS° (entropy) was positive, indicating an increase in disorder during the reaction. The Langmuir isotherm equation provided a better fit with a correlation coefficient (R²) of 0.994. This better fit suggests a more favorable mechanism of adsorption.

Population growth has increased the need for energy especially use of fossil fuels, which in turn is lead to increase carbon dioxide in the atmosphere, which is a type of greenhouse gas that leading to enhance global warming. This global warming can put plant and animal habitats in danger and change climate patterns, resulting in floods, droughts and severe destructive storms. One of the ways that reduces carbon dioxide in the atmosphere is geological carbon dioxide storage, which requires a porous reservoir with an impermeable sealing caprock that laying on the reservoir. The importance of caprock is to inhibit the movement of submerging carbon dioxide, saline and the other existence materials preventing leakage of these materials into the upper formations. Caprock should be able to withstand in-situ stress changes and physical and chemical properties changes. The purpose of this paper is to review geological carbon dioxide storage methods and the mechanism of caprock in carbon dioxide storage. The research method is an overview of related sources and references. According to the results of this study, the sealing pressure of the caprock should be distinguished before the injection process and during the injection process should not exceed a certain amount. Likewise, before the injection of carbon dioxide, its temperature should be proportionate to the temperature of the reservoir to avert caprock failure and it is better to take the geochemical, geomechanical, thermal and flow path properties in experimental and simulation works into consideration for a better understanding of caprock’s behavior and structure.

Astrazon Red GTL is one of chemical dyes that vastly used in various industries. According to effects of this dye, degradation of wastewater containing Astrazon Red GTL is vital. According to previous researches, suspended microorganisms reactor is one of economically methods. suspended biofilm microorganisms reactor can reach to optimal efficiency in suitable retention time. In this research, for the first time, two cylindrical reactor was used and a new reactor was designed and called as “circulating feed biofilm reactor”. Every of these cylindrical reactors had 2.75 litter volume, 10 cm area and 35 cm height. In this research “circulating feed biofilm reactor” was used for growing of mixed culture microorganism containing Bacillus and Aeromonas. This reactor was used for treatment of Astrazon Red GTL wastewater. In “circulating feed reactor”, two independent variables including retention time and input concentration of pollutant were measured and the effect of each variable were studied on the removal percentage of dye. Following that, modeling and determining the optimum conditions for operating the FB/FFMBBR was carried out based on Response Surface Methodology (RSM). The results showed that the optimum condition occurred at retention time of 6.21 h and input dye concentration of 74.77 mg/l. Based on this research, retention time has the greatest impact on the removal efficacy of this biological system.

Effluents bearing petroleum hydrocarbons must be treated prior to release into the environment due to the high toxicity of these compounds and the consequent hazards they pose to the receiving environment. The moving bed biofilm reactor (MBBR) is one of the several biofilm systems used in treating different types of wastewater that offers a good resistance to both toxic and hydraulic shocks. This study investigates the roles of the three air stripping, adsorption, and biodegradation mechanisms in the biofilm reactor using polyethylene sponge strips used as the biomass to treat the effluent from Tehran Refinery. Based on the results obtained, the optimum values of loading rate, retention time, and media filling ratio were equal to TPH=278 mg/L (COD=1000 mg/L), 22 hours, and 50 percent, respectively. Laboratory studies confirmed that each of the three mechanisms of air stripping, adsorption, and biodegradation may be involved in the removal of petroleum hydrocarbons by the MBBR system depending on hydrocarbon concentrations. More specifically, biological degradation was the dominant removal mechanism with lower loading rates (TPH=57 mg/l with a COD equal to 200 mg/l) while stripping became the dominant mechanism at higher loading rates (TPH=278 mg/l with a COD equal to 1,000 mg/l). It was found that under optimum conditions and at TPH=278 mg/L (and COD=1,000 mg/l), stripping removed 58%; biodegradation, 29%; and adsorption, 13% of the petroleum hydrocarbon content. It was observed that the removal of petroleum hydrocarbons by stripping and adsorption processes took place within the first process hour at the latest.

E‌a‌c‌h y‌e‌a‌r, m‌o‌r‌e t‌h‌a‌n 2000 m‌i‌l‌l‌i‌o‌n t‌o‌n‌s o‌f w‌a‌s‌t‌e‌w‌a‌t‌e‌r i‌s g‌e‌n‌e‌r‌a‌t‌e‌d b‌y o‌i‌l r‌e‌f‌i‌n‌e‌r‌i‌e‌s i‌n t‌h‌e M‌i‌d‌d‌l‌e E‌a‌s‌t a‌n‌d E‌u‌r‌o‌p‌e‌a‌n U‌n‌i‌o‌n c‌o‌u‌n‌t‌r‌i‌e‌s o‌n‌l‌y. O‌i‌l r‌e‌f‌i‌n‌e‌r‌y w‌a‌s‌t‌e‌w‌a‌t‌e‌r c‌o‌n‌t‌a‌i‌n‌s a w‌i‌d‌e r‌a‌n‌g‌e o‌f t‌o‌x‌i‌c a‌n‌d n‌o‌n-b‌i‌o‌d‌e‌g‌r‌a‌d‌a‌b‌l‌e p‌o‌l‌l‌u‌t‌a‌n‌t‌s. I‌t‌s d‌i‌s‌c‌h‌a‌r‌g‌e i‌n‌t‌o t‌h‌e e‌n‌v‌i‌r‌o‌n‌m‌e‌n‌t h‌a‌s c‌r‌e‌a‌t‌e‌d a m‌a‌j‌o‌r e‌c‌o‌l‌o‌g‌i‌c‌a‌l p‌r‌o‌b‌l‌e‌m t‌h‌r‌o‌u‌g‌h‌o‌u‌t t‌h‌e w‌o‌r‌l‌d. A‌n a‌d‌s‌o‌r‌p‌t‌i‌o‌n p‌r‌o‌c‌e‌s‌s f‌o‌r s‌e‌w‌a‌g‌e r‌e‌f‌i‌n‌e‌r‌y t‌r‌e‌a‌t‌m‌e‌n‌t w‌o‌u‌l‌d b‌e a‌n a‌t‌t‌r‌a‌c‌t‌i‌v‌e m‌e‌t‌h‌o‌d, i‌f t‌h‌e a‌d‌s‌o‌r‌b‌e‌n‌t w‌e‌r‌e i‌n‌e‌x‌p‌e‌n‌s‌i‌v‌e a‌n‌d a‌v‌a‌i‌l‌a‌b‌l‌e. I‌n t‌h‌i‌s s‌t‌u‌d‌y, a‌c‌t‌i‌v‌a‌t‌e‌d c‌a‌r‌b‌o‌n, p‌r‌e‌p‌a‌r‌e‌d f‌r‌o‌m a‌l‌m‌o‌n‌d s‌h‌e‌l‌l a‌n‌d n‌u‌t s‌h‌e‌l‌l‌s, a‌r‌e u‌s‌e‌d a‌s n‌a‌t‌u‌r‌a‌l a‌d‌s‌o‌r‌b‌e‌n‌t‌s f‌o‌r t‌h‌e t‌r‌e‌a‌t‌m‌e‌n‌t o‌f p‌e‌t‌r‌o‌l‌e‌u‌m r‌e‌f‌i‌n‌e‌r‌y w‌a‌s‌t‌e‌w‌a‌t‌e‌r. T‌h‌e e‌f‌f‌e‌c‌t o‌f p‌H, c‌o‌n‌t‌a‌c‌t t‌i‌m‌e a‌n‌d a‌d‌s‌o‌r‌b‌e‌n‌t c‌o‌n‌c‌e‌n‌t‌r‌a‌t‌i‌o‌n o‌n T‌P‌H r‌e‌m‌o‌v‌a‌l e‌f‌f‌i‌c‌i‌e‌n‌c‌y w‌a‌s s‌t‌u‌d‌i‌e‌d. T‌h‌e r‌e‌s‌u‌l‌t‌s h‌a‌v‌e s‌h‌o‌w‌n t‌h‌a‌t t‌h‌e e‌f‌f‌e‌c‌t‌s o‌f p‌H o‌n t‌h‌e a‌d‌s‌o‌r‌p‌t‌i‌o‌n o‌f p‌e‌t‌r‌o‌l‌e‌u‌m h‌y‌d‌r‌o‌c‌a‌r‌b‌o‌n‌s o‌n‌t‌o p‌r‌e‌p‌a‌r‌e‌d a‌c‌t‌i‌v‌a‌t‌e‌d c‌a‌r‌b‌o‌n a‌r‌e s‌m‌a‌l‌l. I‌t h‌a‌s a‌l‌s‌o s‌h‌o‌w‌n t‌h‌a‌t a‌b‌o‌u‌t 90\% o‌f a‌d‌s‌o‌r‌p‌t‌i‌o‌n o‌c‌c‌u‌r‌s i‌n t‌h‌e f‌i‌r‌s‌t 30 m‌i‌n‌u‌t‌e‌s o‌f t‌h‌e p‌r‌o‌c‌e‌s‌s a‌n‌d i‌s c‌o‌m‌p‌l‌e‌t‌e‌d i‌n 60 m‌i‌n‌u‌t‌e‌s o‌f c‌o‌n‌t‌a‌c‌t t‌i‌m‌e w‌h‌e‌n t‌h‌e a‌d‌s‌o‌r‌p‌t‌i‌o‌n r‌e‌a‌c‌h‌e‌s e‌q‌u‌i‌l‌i‌b‌r‌i‌u‌m c‌o‌n‌d‌i‌t‌i‌o‌n. T‌h‌e e‌x‌p‌e‌r‌i‌m‌e‌n‌t‌s d‌e‌m‌o‌n‌s‌t‌r‌a‌t‌e‌d t‌h‌a‌t a‌n i‌n‌c‌r‌e‌a‌s‌e i‌n a‌d‌s‌o‌r‌b‌e‌n‌t c‌o‌n‌c‌e‌n‌t‌r‌a‌t‌i‌o‌n l‌e‌a‌d‌s t‌o a‌d‌s‌o‌r‌b‌e‌n‌t p‌a‌r‌t‌i‌c‌l‌e‌s a‌t‌t‌a‌c‌h‌i‌n‌g t‌o e‌a‌c‌h o‌t‌h‌e‌r. T‌h‌i‌s r‌e‌d‌u‌c‌e‌s s‌u‌r‌f‌a‌c‌e a‌r‌e‌a a‌n‌d a‌d‌s‌o‌r‌p‌t‌i‌o‌n s‌i‌t‌e‌s, t‌h‌e‌r‌e‌f‌o‌r‌e, d‌e‌c‌r‌e‌a‌s‌i‌n‌g a‌d‌s‌o‌r‌p‌t‌i‌o‌n e‌f‌f‌i‌c‌i‌e‌n‌c‌y p‌e‌r m‌a‌s‌s u‌n‌i‌t o‌f a‌d‌s‌o‌r‌b‌e‌n‌t. T‌h‌e h‌i‌g‌h‌e‌s‌t T‌P‌H r‌e‌m‌o‌v‌a‌l e‌f‌f‌i‌c‌i‌e‌n‌c‌y o‌b‌t‌a‌i‌n‌e‌d w‌a‌s 85\% a‌t p‌H=8, w‌i‌t‌h a c‌o‌n‌c‌e‌n‌t‌r‌a‌t‌i‌o‌n o‌f a‌c‌t‌i‌v‌a‌t‌e‌d c‌a‌r‌b‌o‌n=5 g‌r/L a‌n‌d c‌o‌n‌t‌a‌c‌t t‌i‌m‌e= 2 h‌o‌u‌r‌s. E‌q‌u‌i‌l‌i‌b‌r‌i‌u‌m s‌o‌r‌p‌t‌i‌o‌n d‌a‌t‌a w‌e‌r‌e c‌o‌m‌p‌a‌r‌e‌d w‌i‌t‌h L‌a‌n‌g‌m‌u‌i‌r, F‌r‌e‌u‌n‌d‌l‌i‌c‌h, T‌e‌m‌k‌i‌n a‌n‌d D‌u‌b‌i‌n‌i‌n-R‌a‌d‌u‌s‌h‌k‌e‌v‌i‌c‌h i‌s‌o‌t‌h‌e‌r‌m‌s. T‌h‌e h‌i‌g‌h‌e‌s‌t $R^2$ v‌a‌l‌u‌e w‌a‌s o‌b‌t‌a‌i‌n‌e‌d f‌o‌r t‌h‌e F‌r‌e‌u‌n‌d‌l‌i‌c‌h m‌o‌d‌e‌l, w‌h‌i‌c‌h i‌n‌d‌i‌c‌a‌t‌e‌d t‌h‌e h‌e‌t‌e‌r‌o‌g‌e‌n‌e‌i‌t‌y o‌f t‌h‌e a‌d‌s‌o‌r‌b‌e‌n‌t s‌u‌r‌f‌a‌c‌e.B‌a‌s‌e‌d o‌n t‌h‌e L‌a‌n‌g‌m‌u‌i‌r m‌o‌d‌e‌l, t‌h‌e m‌a‌x‌i‌m‌u‌m m‌o‌n‌o‌l‌a‌y‌e‌r a‌d‌s‌o‌r‌p‌t‌i‌o‌n c‌a‌p‌a‌c‌i‌t‌i‌e‌s o‌f a‌l‌m‌o‌n‌d s‌h‌e‌l‌l a‌n‌d n‌u‌t s‌h‌e‌l‌l a‌c‌t‌i‌v‌a‌t‌e‌d c‌a‌r‌b‌o‌n w‌e‌r‌e e‌s‌t‌i‌m‌a‌t‌e‌d t‌o b‌e 83 m‌g/g‌r a‌n‌d 59 m‌g/g‌r, r‌e‌s‌p‌e‌c‌t‌i‌v‌e‌l‌y. T‌h‌e h‌e‌a‌t o‌f t‌h‌e s‌o‌r‌p‌t‌i‌o‌n p‌r‌o‌c‌e‌s‌s f‌o‌r a‌l‌m‌o‌n‌d s‌h‌e‌l‌l a‌n‌d n‌u‌t s‌h‌e‌l‌l a‌c‌t‌i‌v‌a‌t‌e‌d c‌a‌r‌b‌o‌n w‌a‌s e‌s‌t‌i‌m‌a‌t‌e‌d f‌r‌o‌m t‌h‌e T‌e‌m‌k‌i‌n m‌o‌d‌e‌l t‌o b‌e 26.15 J/m‌o‌l a‌n‌d 15.47 J/m‌o‌l‌e, r‌e‌s‌p‌e‌c‌t‌i‌v‌e‌l‌y, w‌h‌i‌c‌h v‌i‌v‌i‌d‌l‌y p‌r‌o‌v‌e‌s t‌h‌a‌t t‌h‌e a‌d‌s‌o‌r‌p‌t‌i‌o‌n e‌x‌p‌e‌r‌i‌m‌e‌n‌t f‌o‌l‌l‌o‌w‌e‌d a p‌h‌y‌s‌i‌c‌a‌l p‌r‌o‌c‌e‌s‌s. A‌d‌s‌o‌r‌p‌t‌i‌o‌n o‌f p‌e‌t‌r‌o‌l‌e‌u‌m h‌y‌d‌r‌o‌c‌a‌r‌b‌o‌n‌s o‌n‌t‌o a‌c‌t‌i‌v‌a‌t‌e‌d c‌a‌r‌b‌o‌n‌s w‌a‌s f‌o‌l‌l‌o‌w‌e‌d b‌y p‌s‌e‌u‌d‌o-s‌e‌c‌o‌n‌d-o‌r‌d‌e‌r r‌e‌a‌c‌t‌i‌o‌n‌s.

Activated carbon is a valuable product that has many industrial and environmental applications and therefore it’s production from cheap wastes, is an economic-environmental action. According to the multiplicity of factors that affect adsorption properties of produced activated carbon, the design of experiments via Taguchi method was used to identify the main factors and optimization of activated carbon production. Based on the results, the impregnation ratio and activating reagent have the greatest impact on iodine number of almond shell activated carbon compared to other factors. In this study, activated carbon was produced with iodine number equal to 1331 mg/g, by optimization of chemical activation almond shell. Adsorption experiments showed that adsorption kinetics of dissolved petroleum hydrocarbons on activated carbon derived has followed from second-order reaction. Near to 95% of adsorption was happened during the first 30 minutes of process. Also the adsorption isotherm data were well followed from Freundlich isotherm model.

Backgrounds and Municipal Solid Waste (MSW) management and planning without adequate and reliable data about its physical components and generation rate are not obtainable. Because of MSW collection and landfilling expenses, in last decades, reuse and recycle of its components as an environmental object have been considered.In this research, in order to determine the possibility of source recycling application in Malayer and physical composition of MSW, samples were taken by Truck-Load method and cluster random sampling from autumn 2006 until summer 2007 and analyzed for physical components percents. The obtained data were analyzed by One-Way ANOVA and Tuky statistical test. Also, public partnership was investigated. Public opinion deliberation was accomplished by dividing the city into several clusters. Questionnaires were filled by oral interview conversation. The results showed that average daily generation rate was 138 Tons and 0.88 Kg per person per day. The average percent of recyclable materials was about 11% of total daily generated wastes. Also 99% of residents had positive response to source recycling plans. In general, by planning of enforceable reuse and recycling programmes, could avoid of 15 Tons of recyclable materials burial and save 19 millions Rials each day.