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  • دکتری (1367)

    مهندسی شیمی

    لیدز، لیدز، انگلستان

  • کارشناسی‌ارشد (1364)

    مهندسی شیمی

    لیدز، لیدز، انگلستان

  • کارشناسی (1359)

    مهندسی شیمی

    دانشگاه صنعتی شریف، تهران، ایران

  • استفاده از مواد تغییر فاز و نانو در مدیریت انرژی، تولید زیست سوختها از فرایند شکست حرارتی و کاتالیستی چربیهای گیاهی و حیوانی، تکنولوژی اولفین
  • ازمایشگاه مهندسی انرژی

دکتر سید مجتبی صدرعاملی استاد دانشکده مهندسی شیمی میباشد که از سال 1367 در این دانشکده فعالیت دارند. ایشان مدرک کارشناسی خود را در رشته مهندسی شیمی در سال 1359 از دانشگاه صنعتی شریف کسب نموده و ادامه تحصیل در همین رشته را از سال 1363 در دانشگاه لیدز انگلستان در مقطع کارشناسی ارشد ودکتری شروع و در سالهای 1364 و 1367 به پایان رساندند. موضوعات مورد علاقه ایشان مدلسازی و شبیه سازی فرایند، بازیافت انرژی در ساختمان و صنعت، مدیریت انرژی توسط مواد تغییر فاز (عنوان هسته پژوهشی مصوب)، و تولید زیست سوختها از فرایند حرارتی کاتالیستی ضایعات زیستی و پلیمرها میباشد. ایشان در سال 99 بازنشسته شده اند.

ارتباط

رزومه

Optimization for free glycerol, diglyceride, and triglyceride reduction in biodiesel using ultrafiltration polymeric membrane: Effect of process parameters

S.M. Sadrameli K. Tajziehchi
Journal PapersProcess Safety and Environmental Protection , Volume 148 , Issue 21-Apr, 2021 January , {Pages 34-46 }

Abstract

Experimental investigation for the thermal management of a coaxial electrical cable system using a form-stable low temperature phase change material

M Jafaripour, SM Sadrameli, SAHS Mousavi, S Soleimanpour
Journal Papers , , {Pages }

Abstract

Experimental and numerical performance evaluation of a cooling vest subtending phase change material under the extremely hot and humid environment

S Yousefi, A Jamekhorshid, S Tahmasebi, SM Sadrameli
Journal Papers , , {Pages }

Abstract

Materials and structures engineering of sun-light absorbers for efficient direct solar steam generation

S Karami, FA Roghabadi, M Maleki, V Ahmadi, SM Sadrameli
Journal Papers , , {Pages }

Abstract

Highly Efficient Solar Steam Generators Based on Multicore@ Shell Nanostructured Aerogels of Carbon and Silica as the Light Absorber− Heat Insulator

S Karami, F Arabpour Roghabadi, F Pashaei Soorbaghi, V Ahmadi, ...
Journal Papers , , {Pages }

Abstract

Optimization for free glycerol, diglyceride, and triglyceride reduction in biodiesel using ultrafiltration polymeric membrane: Effect of process parameters

K Tajziehchi, SM Sadrameli
Journal Papers , , {Pages }

Abstract

Preparation, characterization and thermal properties of surface-modified expanded perlite/paraffin as a form-stable phase change composite in concrete.

S Hasanabadi, SM Sadrameli, S Sami
Journal Papers , , {Pages }

Abstract

A turbidity titration procedure for the nucleation mechanism determination of sodium sulfate decahydrate (Glauber salt) in unseeded aqueous solution

AK Dehghan, M Manteghian, SM Sadrameli
Journal Papers , , {Pages }

Abstract

Effect of working fluid inventory and heat input on transient and steady state behavior of a thermosyphon

SM Sadrameli, D Forootan, F Farajimoghaddam
Journal Papers , , {Pages }

Abstract

Optimization of energy consumption and temperature fluctuations for a household freezer using non‐toxic and non‐flammable eutectic phase change materials with a cascade arrangement

A Pirvaram, SM Sadrameli, L Abdolmaleki
Journal Papers , , {Pages }

Abstract

Fabrication and optimization of kaolin/stearic acid composite as a form-stable phase change material for application in the thermal energy storage systems

M Jafaripour, SM Sadrameli, H Pahlavanzadeh, SAHS Mousavi
Journal Papers , , {Pages }

Abstract

Application of environmental friendly and eutectic phase change materials for the efficiency enhancement of household freezers

L Abdolmaleki, SM Sadrameli, A Pirvaram
Journal PapersRenewable Energy , Volume 145 , 2020 January 1, {Pages 233-241 }

Abstract

In this study, a novel freezer consisting of an internal phase change material compartment is compared with an ordinary one. A eutectic mixture of polyethylene glycol has been used which is among the non-flammable and non-toxic phase change materials. The freezer was tested under the standard conditions in the test room both with and without phase change materials loaded in the system and all the temperatures inside the device were monitored for 24 h by the monitoring software. A design of experiment analysis was used and the main goal of this work was to use an optimum amount and temperature of eutectic phase change material inside the freezer. The application of phase change materials in the freezer compartment, located in each tray lea

Catalytic upgrading of beech wood pyrolysis oil over iron-and zinc-promoted hierarchical MFI zeolites

A Palizdar, SM Sadrameli
Journal PapersFuel , Volume 264 , 2020 March 15, {Pages 116813 }

Abstract

The catalytic upgrading of beech wood pyrolysis oil has been carried out over iron- and zinc-promoted hierarchical Mordenite Framework Inverted (MFI) zeolites to produce a blendable stream with fluid catalytic cracking (FCC) feed. The iron and zinc were introduced to the zeolite structure in different loadings through the impregnation technique using metal nitrate solutions with various concentrations. The aim was to investigate the effect of zeolite acidity control along with mesoporosity of HZSM-5 zeolite on catalytic upgrading parameters. The results showed that the metal doping reduced textural properties through coverage of the catalyst surface by metal species. The existence of metals also altered acid site distribution of the hierarc

Effect of working fluid inventory and heat input on transient and steady state behavior of a thermosyphon

SM Sadrameli, D Forootan, F Farajimoghaddam
Journal PapersJournal of Thermal Analysis and Calorimetry , 2020 January 22, {Pages 10-Jan }

Abstract

The effect of working fluid inventory and heat input on the performance of thermosyphon is investigated in this paper. First, a thermosyphon with diameter of 16 mm made of steel with toluene as working fluid and the length of the evaporator, adiabatic and condenser section 10, 23 and 17 cm was considered, respectively. The working fluid inventory was considered 0.1, 0.14, 0.18 and 0.24 of total volume of thermosyphon and in each case 54–235 W of heat input applied to the evaporator area also. In order to evaluate the transient behavior of the thermosyphon, in any amount of working fluid, 28 W of heat input was considered and temperature of the evaporator area were recorded at different times. The results showed that in startup, in the val

Preparation, characterization and thermal properties of surface-modified expanded perlite/paraffin as a form-stable phase change composite in concrete

Salman Hasanabadi, Seyed Mojtaba Sadrameli, Samaneh Sami
Journal PapersJournal of Thermal Analysis and Calorimetry , 2020 February 24, {Pages 09-Jan }

Abstract

Energy storage plays an important role in improving the applicability of a wide range of energy systems. Buildings could be considered as a desirable place for this purpose. Incorporating phase change materials (PCMs) as form-stable composites into the building materials has been widely taken into consideration in recent years. However, there are still some shortcomings in applying this technique. In this study, we focused on a surface modification method to prevent leakage of PCM from porous aggregates during heating/cooling cycles. Paraffin (PA) as phase change material was impregnated into the expanded perlite (EP) particles by vacuum impregnation method, and prepared EP/PA composite was coated by a layer of polystyrene. Thermal characte

Production of renewable aromatics and heterocycles by catalytic pyrolysis of biomass resources using rhenium and tin promoted ZSM-5 zeolite catalysts

Shahin Shahsavari, Seyed Mojtaba Sadrameli
Journal PapersProcess Safety and Environmental Protection , 2020 May 17, {Pages }

Abstract

The purpose of this study is to investigate the effects of rhenium and tin loading (between 0 and 5% by impregnation method) on a ZSM-5 zeolite catalyst as well as the product distribution and aromatic yield under different catalytic conditions. A biomass to catalyst ratio of 5–20 is also considered. Due to its feed characteristics, beechwood was selected as the biomass resource, and the catalytic pyrolysis process was chosen, for it is an economic process. For a better analysis of the product distribution, all product samples were identified using gas chromatography coupled with mass spectrometry. Responses then were analyzed utilizing the full factorial method. The models obtained for high-economic-value produced aromatic and heterocycl

Separation of CO 2/N 2 mixture by vacuum pressure swing adsorption (VPSA) using zeolite 13X type and carbon molecular sieve adsorbents

Mehdi Alibolandi, Seyed Mojtaba Sadrameli, Fatemeh Rezaee, Jafar Towfighi Darian
Journal PapersHeat and Mass Transfer , Volume 56 , Issue 6, 2020 June , {Pages 1985-1994 }

Abstract

Separation of carbon dioxide in flue gases from the combustion equipment is one of the most serious concerns for industries and especially for the power plants which are the main producers of this pollutant gas. From the various separation methods, vacuum pressure swing adsorption (VPSA) process is attracted interest due to its lower energy consumption and high efficiency. A VPSA process was studied for the separation of a mixture of CO 2/N 2 (80% N 2 and 20% CO 2). Experiments were performed in an eight-step, four-bed setup using zeolite 13X and carbon molecular sieve (CMS) as adsorbents. Experimental measurements by the bench-scale system have been obtained in a pressure range of 2.7–4.7 bar, cycle times of 360–600 s, the product flow

Preparation of Macro Encapsulated Phase Change Materials for High Temperature Energy Storage Applications

Seyed Mojtaba Sadrameli, Sajad Soleimanpour
Journal Papers , 2020 January , {Pages 647-655 }

Abstract

Capsulated phase change materials (CPCM) is one of the most interesting and applicable high energy density solutions due to the store of thermal energy, though there has been little investigations for such systems at high temperature (Jamekhorshid et al. in Renew Sustain Energy Rev 31:531–542, 2014 [1], Qian et al. in Energy Convers Manag 98:34–45, 2015 [2]). The aim of this work is to create a CPCM with high durability for high temperature applications. The capsulation can be made by physical or chemical methods (Qian et al. in Powder Technol 282:37–42, 2015 [3]). Phase change materials (PCMs) are substances which melt and solidify at a constant temperature and are capable of storing and releasing large amounts of e

Thermal cracking of hydrocarbons for the production of light olefins; A review on optimal process design, operation, and control

Mohammad Fakhroleslam, Seyed Mojtaba Sadrameli
Journal PapersIndustrial & Engineering Chemistry Research , 2020 June 11, {Pages }

Abstract

Olefins production plants are large-scale processes in most of which gaseous and liquid hydrocarbons are cracked to produce light olefins. The complex and large-scale nature of these plants makes it an utmost necessity to design and operate them by using of computer-aided optimization and control methods. This review paper provides an overview of the reported research works on the optimization and control of different parts of olefin plants. The main research studies are discussed in to main sections of Optimal design, and Process operation and control. In the optimal design section, the state of the optimal design of cracking furnace systems, cold-end separation systems, and separation columns have been studied. Then in process operation a

Prolonged Lifetime of Perovskite Solar Cells Using a Moisture-Blocked and Temperature-Controlled Encapsulation System Comprising a Phase Change Material as a Cooling Agent

Nasibeh Mansour Rezaei Fumani, Farzaneh Arabpour Roghabadi, Maryam Alidaei, Seyed Mojtaba Sadrameli, Vahid Ahmadi, Farhood Najafi
Journal PapersACS omega , Volume 5 , Issue 13, 2020 March 30, {Pages 7106-7114 }

Abstract

Although the power conversion efficiency of perovskite solar cells (PSCs) reached up to 25% that made them comparable to the commercial solar cells, they are facing issues toward commercialization, especially their short lifetime. Remarkably, the most important key factors that regulate the durability of the devices are moisture, light, and heat. In this work, prolonging the device lifetime is focused by designing a flexible moisture-blocked and temperature-controlled encapsulation system. In this regard, a thermally adjusted phase change material is embedded in a polymer encapsulation layer to avoid the moisture diffusion, rapid temperature fluctuation, and undesired crystalline phase change of the perovskite layer in the PSCs under the op

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