industrial waste

Industries play an important role in the development of societies. The generation of large volumes of industrial waste with complex characteristics makes their management a challenge. In addition to occupying the land, the accumulation of these wastes causes environmental pollution. The main purpose of this study is to identify industrial wastes in the industrial zone of Gilan province and to investigate their management system. In this study, 11 industrial zones in Gilan province were investigated in 15 industrial groups. Astara industrial zone has the lowest number of units with six active units, and the largest number of active units under investigation is Sepidroud industrial zone (41 units) and then Rasht industrial zone (37 units). The food industry group with 50 active units (24%) has contributed the most in investigating the type and amount of industrial waste in Gilan province. Based on the data of the study, the total amount of industrial waste is 45926 tons per year. In addition, the main special genaration wastes are 60314 liters of used oils and 16707 tons of different types of wastes per year. The metal industrial group generated the largest amount of industrial waste with the genaration of 32917 tons per year. Also, the cellulose and synthetic oil industrial group units have the highest amount of hazardous waste genaration per year with the genaration of 29,600 liters and 6,300 tons, respectively. Based on the data obtained from the industrial units, the total sales and recycling methods accounted for 54.1% and disposal for 45.9% of cases. Obtaining information on industrial waste flow in Gilan province provides the opportunity to recover and save identified resources. In addition, many economic and environmental benefits are obtained by making a decision and implementing proper waste management.

Environmental pollution with heavy metals is one of the most serious environmental problems. There are several methods for removing heavy metals that require a lot of energy and are expensive. Therefore, the use of adsorbents such as algae has been considered. In this study, the efficiency of three species of microalgae Scenedesmus acutus, Scenedesmus incrassatulus, and Scenedesmus obliquus in adsorption of lead-heavy metal was investigated. For this purpose, pH (3 to 7), algal density (0.25 to 2 g), contaminant concentration (20 to 200 mg / l), time (30 to 150 minutes), and temperature (15 to 35 ° C) were investigated. it placed. The results showed that the rate of absorption of heavy metals by these three species was not significantly different. However, pH, algal density, pollutant concentration, time, and the temperature had a significant effect on the efficiency of algae in removing contaminants from the environment. The highest amount of lead uptake by microalgae occurred at pH 6, 25 ° C, adsorbent level of 0.5 g, contact time of 120 minutes, and density of 150 mg / l lead. Lead uptake had no effect on lipid and biodiesel production by microalgae.