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Open Access Article
1 - Waste Management of Petrochemical Industries and Its Management
زهرا ضمیرایی علی ناهدNatural gas and crude distillates such as naphtha from petroleum refining are used as feedstocks to manufacture a wide range of petrochemicals that are in turn used in the manufacture of consumer goods. Petrochemical plants are typically l MoreNatural gas and crude distillates such as naphtha from petroleum refining are used as feedstocks to manufacture a wide range of petrochemicals that are in turn used in the manufacture of consumer goods. Petrochemical plants are typically large and complex, and the combination and sequence of products manufactured are often unique to the plant. Petrochemical plants generate significant amounts of solid wastes and sludges, some of which are hazardous because of the presence of toxic organics and heavy metals. A good practice target for a petrochemical complex is to reduce total organic emissions (including VOCs) from the process units to 0.6% of the throughput. In this paper a variety of control of air emissions techniques is has been studied. Petrochemical waste waters often require a combination of treatment methods to remove oil and other contaminants before discharge. For solid and hazardous wastes, combustion (preceded in some cases by solvent extraction) of toxic organics is considered an effective treatment technology for petrochemical organic wastes. Steam stripping and oxidation are also used for treating organic waste streams. The generation of sludges should be minimized. Wastes containing toxic metals should be stabilized before disposal. Manuscript profile -
Open Access Article
2 - Prioritization of energy recovery technologies from municipal solid waste (Case study of Mashhad)
Arman ShahnazariThermal energy recovery technologies which used to burn solid urban waste are one of the relatively new and appropriate methods in waste management. Heat and gases are generated by burning waste that can be used to generate energy. In this research, a decision model bas MoreThermal energy recovery technologies which used to burn solid urban waste are one of the relatively new and appropriate methods in waste management. Heat and gases are generated by burning waste that can be used to generate energy. In this research, a decision model based on the Analytic Hierarchy Process (AHP) method is Provided to select the best thermochemical system based on three technical, economic and environmental criteria. In this study, waste incineration, gasification, pyrolysis and plasma systems were evaluated. Collection of required information was obtained by reviewing reliable sources and preparing and completing questionnaires. The study area in this study is Mashhad city. The results of this study indicate that among the studied systems, plasma system (technology) is the best option for energy recovery from solid wastes in Mashhad, after that, waste incineration, gasification and pyrolysis systems are in the next categories, respectively. Manuscript profile -
Open Access Article
3 - Study of the Amount and Composition of Construction and Demolition Wastes in the Karaj City
Saeideh Bigdeloo Seyed Hassan Mousavi Mazaher Moeinaddini ghasemali omraniIn Karaj, the large volume of wastes was produced due to the high level of construction activities such as demolition of old buildings and the construction of new buildings. In this regard, it is necessary to have management system with environmental protection perspect MoreIn Karaj, the large volume of wastes was produced due to the high level of construction activities such as demolition of old buildings and the construction of new buildings. In this regard, it is necessary to have management system with environmental protection perspective for the construction and demolition wastes (CDW). Therefore, the main purpose of this research was study of the amount and composition of CDW in Karaj municipality zones (10 zones) in 2017 with the financial support of Karaj municipality. In the first step, a little amount of CDW was investigated by Karaj waste management organization's statistics. The results showed that the Karaj construction sector produces 5973 tons (2186410 tons/year) of CDW every day, which is around 3% of the total amount of the country generated CDW. Also, the share of per capita CDW production is 1220 kg/year for each person per year and the maximum CDW generation rate was in the November and December and the minimum one was in March and April. In the second step, the composition of CDW was determined using field observations of the disposal sites and landfills. The average composition of CDW showed that up to 80% of the wastes are composed of the soil operation (soil, sand, stone and …) asphalt and concrete parts, building materials (such as brick, block, plaster, pottery, mosaic, etc.) Manuscript profile -
Open Access Article
4 - Investigation of environmental effects of rubber waste and proposed methods in the management of this type of wastes
علی ناهدRubber is one of the materials that are widely used in industry and when they expire, they fall into the category of hazardous wastes. The release of rubber wastes into the environment causes many problems, including diseases, their bad landscape in nature, and terrible MoreRubber is one of the materials that are widely used in industry and when they expire, they fall into the category of hazardous wastes. The release of rubber wastes into the environment causes many problems, including diseases, their bad landscape in nature, and terrible fires caused by their accumulation and environmental pollution. Also, rubber can be reused due to its non-degradability and elastic properties; as a result, the management of worn tires has a particular importance. There are several ways to manage rubber waste that can be safe and effective when done properly. These methods include sanitary landfilling, incineration, pyrolysis, milling, reuse at various scales, and re-coating. In this article, each method is reviewed and their advantages and disadvantages are stated. Also, there are examples of different applications of rubber waste in various industries. Manuscript profile
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