conferenceseries.com 867th Conference 5th World Congress on Petrochemistry and Chemical Engineering December 05-07, 2016 Phoenix, USA Scientific Tracks & Abstracts Day 1 Petrochemistry 2016 Page 21 Sessions Day 1 December 05, 2016 Reservoir Characterization | Process Technology | Gas supply and Gas Technology | Sustainable Energy | Polymer chemistry and Application Session Chair Rajendirana Adimoolam Bharat Petroleum Corporation Ltd, India Session Introduction Title: Thermal, spectral, oxidation stability and antioxidant behavior on Group II base oils Rajendiran Adimoolam, Bharat Petroleum Corporation Ltd, India Title: Development of partially biodegradable foams from PP/HMSPP blends with natural and synthetic polymers Elizabeth Carvalho Leite Cardoso, Nuclear and Energy Research Institute - IPEN, Brazil Title: Quantitative analytical model of the formation damage by gel particle Mahmoud Elsharafi,Midwestern State University, USA Title: Preparation of the natural zeolite based catalyst for hydrocracking process of petroleum derived atmospheric residue Tserendorj Tugsuu, National University of Mongolia, Mongolia Title: Aerogels and sponges based on carbon nanomaterials for oil/water separation F R Sultanov, Institute of Combustion Problems, Kazakhstan Title: Changing the structure of resin-asphaltenes molecules in cracking Y I Imanbayev, Institute of Combustion Problems, Kazakhstan Petrochemistry 2016 Page 22 A Rajendiran et al., J Pet Environ Biotechnol 2016, 7:6 (Suppl) conferenceseries.com http://dx.doi.org/10.4172/2157-7463.C1.025 5th World Congress on Petrochemistry and Chemical Engineering December 05-07, 2016 Phoenix, USA Thermal, spectral, oxidation stability and antioxidant behavior on Group II base oils A Rajendiran1, 2, K Krishnasamy1, S Kabilan1 and G Vasudev2 1Annamalai University, India 2Bharat Petroleum Corporation Ltd., Mumbai, India ue to constant increase in the demand for highly saturated Group II and Group III base oils and their application as special Dlubricants; it is a must to have a clear picture of structural distribution of base oils. In this study, pressure differential scanning calorimeter (PDSC), rotary pressure vessel oxidation test (RPVOT), kinematic viscosity (KV), NOACK volatility and elemental analysis as physico-chemical tests are studied for Group II base oils. The inferences derived from these analyses established the relationship between the chemical structure and selection of the base oils to meet future product specifications. 1H and 13C NMR (Nuclear Magnetic Resonance) data has been used to generate average structural profile and it was used to account for the oxidation stability of the selected base oils. Biography Mr.A.Rajendiran has 15 years of experience on development of lubricants. He has been involved in developing industrial products, automotive specialty products and bio degradable lubricants. Prior to this he worked as the in charge of Quality control lab about 12 years. He has wide experience on testing of testing fuels including Aviation fuels and lubricants, Chennai. Mr.A.Rajendiran has published six papers on phytochemistry at international and national journals. Also he had published 6 research papers in petroleum chemistry in various international journals. He is the life member of The Indian Science Congress Association, India. [email protected] Notes: J Pet Environ Biotechnol 2016 Volume 7, Issue 6 (Suppl) ISSN: 2157-7463 JPEB, an open access journal Petrochemistry 2016 December 05-07, 2016 Page 23 Elizabeth Carvalho Leite Cardoso, J Pet Environ Biotechnol 2016, 7:6 (Suppl) conferenceseries.com http://dx.doi.org/10.4172/2157-7463.C1.025 5th World Congress on Petrochemistry and Chemical Engineering December 05-07, 2016 Phoenix, USA Development of partially biodegradable foams from PP/HMSPP blends with natural and synthetic polymers Elizabeth Carvalho Leite Cardoso Nuclear and Energy Research Institute- IPEN, Brazil olymers are used in various applications and in different industrial areas providing enormous quantities of wastes in environment. PAmong diverse components of residues in landfills are polymeric materials, including polypropylene, which contribute with 20 to 30% of total volume of solid residues. As polymeric materials are immune to microbial degradation, they remain in soil and in landfills as a semi-permanent residue. Environmental concerning in litter reduction is being directed to renewable polymers development for manufacturing of polymeric foams. Foamed polymers are considered as future materials, with a wide range of applications; high density structural foams are specially used in civil construction, in replacement of metals, woods and concrete with a final purpose of reducing materials costs. At present development, it was possible the incorporation of PP/HMSPP polymeric matrix blends with sugarcane bagasse, PHB and PLA, in structural foams production. Thermal degradation at 100, 120 and 160ºC temperatures was not enough to induce biodegradability. Gamma irradiation degradation, at 50, 100, 150, 200 and 500 kGy showed to be effective for biodegradability induction. Irradiated bagasse blends suffered surface erosion, in favor of water uptake and consequently, a higher biodegradation in bulk structure. Biography Elizabeth Carvalho Leite Cardoso has completed her PhD in Nuclear and Energy Research Institute/Universidade de São Paulo (USP), in 2014. She has done her Post-doctoral studies in CQMA, involving PP/HMSPP foams with aliphatic polyesters intercalated with nanoclays and PLA/PBAT flexible films reinforcing with bio-calcium carbonate. [email protected] Notes: J Pet Environ Biotechnol 2016 Volume 7, Issue 6 (Suppl) ISSN: 2157-7463 JPEB, an open access journal Petrochemistry 2016 December 05-07, 2016 Page 24 Mahmoud Elsharafi, J Pet Environ Biotechnol 2016, 7:6 (Suppl) conferenceseries.com http://dx.doi.org/10.4172/2157-7463.C1.025 5th World Congress on Petrochemistry and Chemical Engineering December 05-07, 2016 Phoenix, USA Quantitative analytical model of the formation damage by gel particles Mahmoud Elsharafi Midwestern State University, USA ormation damage by gel particles has become one of the most important problems in mature reservoirs. The objective of the Fquantitative analytical model is to identify an analytical model to the best fit of the preformed particle gels (PPGs) filtration test results. This work will analyze the experiments results of low permeability core samples to evaluate the effect of various brine concentrations and particle sizes. This study used a linear analytical model relationship between cumulative volumes versus filtration time with a good fits result. Linear curve equations for the best fitting equation were obtained. According to quantitative analytical model for all of our filtration tests, the cumulative filtration test volume is explained by the following equation: (Vcf=m t+b). Where, Vcf is the cumulative filtration volume, m is the slop of the linear curve, t is the filtration time, and b is the intercept of the linear curve. Quantitative analytical model results showed the value of the slop m increases as the injection pressure increases. Compared with the experiments, the results show that, if the value of the intercept b>2 the damage occurred because the gel particles invasion started into the core surface. Results from the quantitative analytical model were indicated to have a good fitting with almost all of the experimental results. It is the first time to use quantitative analytical model for analysis of the formation damage by the PPGs. The results can be used to select the best gel treatment design. Biography Mahmoud Elsharafi has completed his from Missouri University of Science and Technology. He is an Assistant Professor at McCoy School of Engineering, an Associate Graduate Professor for Geoscience department. He is the coordinator for the Petroleum Engineering Certificate Program in Midwestern State University. He has published several papers in different conference and journals and has been serving as a reviewer for different journals. [email protected] Notes: J Pet Environ Biotechnol 2016 Volume 7, Issue 6 (Suppl) ISSN: 2157-7463 JPEB, an open access journal Petrochemistry 2016 December 05-07, 2016 Page 25 Tserendorj Tugsuu, J Pet Environ Biotechnol 2016, 7:6 (Suppl) conferenceseries.com http://dx.doi.org/10.4172/2157-7463.C1.025 5th World Congress on Petrochemistry and Chemical Engineering December 05-07, 2016 Phoenix, USA Preparation of the natural zeolite based catalyst for hydrocracking process of petroleum derived atmospheric residue Tserendorj Tugsuu National University of Mongolia, Mongolia his research focused to prepare the natural zeolite based catalysts for hydrocracking and to compare their catalytic reactivity. The Tclinoptilolite type natural zeolite of Tsagaantsav in Dornogobi province and the paraffinic atmospheric residue of Tamsagbulag crude oil in Dornod province were used in this research. The quality of adsorption or the ion exchange capacity of natural zeolite was improved from 0.21 mmol/g to 0.41 mmol/g after washing and thermal activation of natural zeolite. The Ni or Fe ion was loaded into the zeolite sample which was enriched and calcined previously, by ion exchange method. The prepared Ni/zeolite, Fe/zeolite catalysts were identified as clinoptilolite type zeolite from the database in D500 instrument, which was used in X-ray diffraction analysis. It means the structure of natural zeolite was not broken down during the metal loading.