The track category is the heading under which your abstract will be reviewed and later published in the conference printed matters if accepted. During the submission process, you will be asked to select one track category for your abstract.
Environmental engineering is the application of science and engineering and subpart of chemical engineering. Environmental principles to protect the environment and our lives. Chemical and environmental engineers develop and design process to provide healthy air, water and soil.
- Track 1-1Oil Pollution
- Track 1-2Air Pollution
- Track 1-3Oceanography
- Track 1-4Soil degradation and conservation
- Track 1-5Water and Wastewater treatment and management
Polymers can be natural organic or synthetic. Polymer means "many parts" is long chain molecule created up several continuation units, known as monomers. Polymer science or macromolecular science is a subfield of Materials Science concerned with Polymers. Polymers are everywhere like in plastics, cosmetics, shampoos and alternative hair care product, contact lenses, nature, food, fabric and even in your DNA!
- Track 2-1Polymerziation
- Track 2-2Petrochemical
- Track 2-3Characterization of polymers
- Track 2-4Processing of polymers
- Track 2-5Properties of polymers
Petroleum geology is the study of source, existence, progression, aggregation, and research of hydrocarbon fuels in the Earth crust. It refers to the precise set of ecological disciplines that are applied to the search for hydrocarbons (oil exploration). Economic geology is preponderantly involved with the assessment of seven key components in substance basins: origin, repository, seal, trap, timing, advancement and transfer.
- Track 3-1Source Rock Analysis
- Track 3-2Basin Analysis
- Track 3-3Exploration Stage
- Track 3-4Appraisal Stage
- Track 3-5Production Stage
- Track 3-6Reservoir Analysis
Scientific Exploration of Petroleum aims to provide technological development of hydrocarbons by scientific means and its Development helps to promote the innovative ability of scholars and workers. It mainly focuses to develop the product which is eco-friendly to the Environment. There are three segments in Petroleum Product life cycle namely upstream, midstream and downstream. Scientific Exploration belongs to Upstream segment of the life cycle.
- Track 4-1State the Objectives
- Track 4-2Collecting Observations
- Track 4-3Formulate a Hypothesis
- Track 4-4Predicting Results
- Track 4-5Testing Predictions
- Track 4-6Accept, Modify or Reject Hypothesis
Seismic Survey is the primary tool used for Exploration in Petroleum industry. The main purpose of the seismic survey is to anticipate where the oil or gas available in plenty. The survey is done by creating a Seismic wave on the surface of the ground along a predetermined line. These wave travel inside the Earth and it is reflected by subsurface formations, where the time taken is recorded by Geophones. By analysing the time taken by the wave to reflect off subsurface formations and to the surface, a geophysicist can map the subsurface formations and anticipate where the oil or gas available in large quantities for Exploration.
- Track 5-12D Seismic Analysis
- Track 5-23D Seismic Analysis
- Track 5-3Data Acquisition
- Track 5-4Data Interpretation
- Track 5-5Data Processing
Material Science and Engineering comes under Science and Engineering Technology that studies about Microstructure and Mechanical Properties of materials. Material Science and Engineering deals with the transformations, heat treatments and mechanical behaviour of structural materials.
- Track 6-1Corrosion
- Track 6-2Bio Materials
- Track 6-3Computational Modeling of Materials
- Track 6-4Materials Performance
Repository Simulation is a reservoir designing in which the model is created to foresee the stream of fluids (oil, gas and water). The model is produced utilizing PCs with the assistance of very modernized software. It is developed to suspect whether the stream is right or off base. The reservoir designing consider both internal as well as external factors. A reservoir model represents the physical space of the reservoir by an array of discrete cells, delineated by a grid which may be regular or irregular. The array of cells is usually three-dimensional, although 1D and 2D models are sometimes used. Values for attributes such as porosity, permeability and water quality are associated with each cell.
- Track 7-1Flow of Fluids
- Track 7-2Porosity
- Track 7-3Permeability
- Track 7-4Fluid Quality
The development of drilling wells offshore in petrochemical industry provides additional energy resources. The essential seaward wellbore development process isn't altogether not quite the same as the rotational penetrating procedure utilized for arrive based boring. The primary contrasts are the sort boring equipment and changed strategies used to complete the activities in a more intricate circumstance. For offshore boring a Mechanical Properties of stable seaward stage or gliding vessel from which to penetrate must be given. These range from perpetual seaward settled or gliding stages to impermanent base bolstered or skimming boring vessels. In USA, 35% of oil are obtained through offshore development. The direction of drilling is ascertained by the dipole sharing investigation tool (DSI).
- Track 8-1Well Logging
- Track 8-2Flaring
- Track 8-3Offshore Drilling
- Track 8-4Stability
- Track 8-5Rotary Drilling
- Track 8-6Land Based Drilling
Oil refining forms are the synthetic designing procedures and different offices utilized as a part of oil refineries (likewise alluded to as oil refineries) to change raw petroleum into valuable items, for example, liquified petroleum gas (LPG), gas or oil, lamp fuel, stream fuel, diesel oil and fuel oils. Oil refineries are vast mechanical edifices that include a wide range of preparing units and assistant units, for example, utility units and capacity tanks. Every refinery has its own special course of action and blend of refining forms controlled by the refinery area, wanted items and financial contemplations. There are most likely no two refineries that are indistinguishable in each regard. Some cutting-edge oil refineries process every day as much as 800,000 to 900,000 barrels (127,000 to 143,000 cubic meters) of raw petroleum.
- Track 9-1Oil Refineries
- Track 9-2Crude Oil Storage
- Track 9-3Blending Additives
- Track 9-4Crude Oil Distillation
The Petroleum life cycle initiates with Exploration and terminates with Sales. The petroleum product Life cycle comprises of three segments namely upstream, mid-stream and downstream. The upstream includes Exploration and Production (E&P) of gas/oil, midstream includes Refining and Processing, and downstream includes Distribution and Marketing of Petroleum product. This life cycle is very important in this Era.
- Track 10-1Exploration of Petroleum
- Track 10-2Refining
- Track 10-3Production
- Track 10-4Sales
- Track 10-5Marketing
Recreation displaying is the way toward planning and looking at an advanced model of a physical prototype to suspect its working in the real world. Recreation demonstrating is utilized to enable creators and engineers to comprehend whether, under what conditions, and in which ways a section could fail and what loads it can withstand. Recreation demonstrating can likewise help foresee liquid stream and warmth exchange designs. Recreation displaying enables originators and specialists to stay away from rehashed working of various physical models to break down plans for new or existing parts. Before planning the physical model, clients can practically and purposely research numerous advanced models.
- Track 11-1Optimize Geometry
- Track 11-2Verify Hand Calculations
- Track 11-3Assess Environmental Conditions
- Track 11-4Simulate Part Failure
- Track 11-5Budget Requirements
Oil industry holds a noteworthy capability of risks for the earth, and may affect it at various levels: air, water, soil, and therefore all living creatures on our planet. Inside this specific situation, the most far reaching and risky result of oil and gas industry exercises is contamination. Contamination is related with for all intents and purposes all exercises all through all phases of oil and gas generation, from exploratory exercises to Refining Crude. Wastewaters, gas outflows, strong waste and vaporizers created amid penetrating, generation, refining (in charge of the most contamination) and transportation add up to more than 800 unique chemicals, among which, obviously, win oil and oil-based commodities. Other ecological effects include escalation of the nursery impact, corrosive rain, poor water quality, groundwater contamination, among others. The oil and gas industry may likewise add to biodiversity and preservation misfortune and additionally to the pulverization of biological systems that, now and again, might be one of a kind.
- Track 12-1Biodiversity
- Track 12-2Destruction of Ecosystem
- Track 12-3Greenhouse Effect
- Track 12-4Gas Emission
- Track 12-5Refining Crude
- Track 12-6Uncertainty
Nanoscience and technology is that the branch of science that studies systems and manipulates matter on atomic, molecular and supramolecular scales (the micromillimeter scale). On such a length scale, quantum mechanical and surface boundary effects become relevant, conferring properties on materials that aren'tevident on larger, macroscopic length scales.It is associated with chemical engineering.
- Track 13-1Molecular Engineering
- Track 13-2Nanofabrication
- Track 13-3 Bionanotechnology and Nanomedicine
- Track 13-4Nanomaterials
BioMolecular engineering is a discipline that applies engineering principles, design concepts, and problem-solving skills to the life sciences at the molecular level to promote both fundamental and applied advancements in biological sciences, engineering and many related fields. Biomolecular engineers combine knowledge of molecular biology, biophysical chemistry and chemical engineering.
- Track 14-1Properties of polymers
- Track 14-2Chemistry
- Track 14-3Biology
- Track 14-4Chemical Engineering
- Track 14-5Biotechincal
Product innovation is the process of innovating new products which satisfies customer needs. Two major product innovations, tetraethyl lead and lubricating oil additives were brought to the petroleum industry by General Motors. These products made a revolution in petroleum industry. All the innovations were invented to satisfy clearly identified economic needs. Nowadays R&D team is continuously exploring their ideas and views to innovate a new product.
- Track 15-1New Product Development
- Track 15-2Strategic Importance
- Track 15-3Existing Product Development
- Track 15-4Brand Switching
Petroleum Chemistry is made up of blend of various hydrocarbons. The most productive hydrocarbons found in the science of oil are alkanes, these are additionally now and then knowing as expanded or straight hydrocarbons. A huge level of the staying concoction compound is the comprised of sweet-smelling hydrocarbons and cycloalkanes. Furthermore, oil science contains a few more intricate hydrocarbons, for example, asphaltenes. Each land area and henceforth oil field will create a crude oil with an alternate blend of particles relying on the general level of every hydrocarbon it contains, this specifically influences the colouration and thickness of the oil science. The essential type of hydrocarbons in the science of oil are the alkanes, which are additionally frequently named paraffins. These are named as soaked hydrocarbons and they show either fanned or straight particle chains.
- Track 16-1Petroleum Refining
- Track 16-2Natural Gas Processing
- Track 16-3Flue Gas Analysis
- Track 16-4Biogas for Landfill Applications
- Track 16-5Safety Measurements for Flammable Mixtures
In the petroleum industry transportation and capacity identifies with the development of raw petroleum from the oil fields to oil refineries and to capacity territories where the oil-based commodities are put away for conveyance and crisis saves. Oil pipelines are covered and are for the most part produced using carbon steel or plastic tubes. Today Companies use oil stockpiling as a key instrument to fabricate benefits in the overall market. Utilization of most pipelines is to convey inflammable liquids or to work at medium to high weights and temperatures, it is basic that the capacity framework choice mirrors the business prerequisites.
- Track 17-1Gas Processing and Compression
- Track 17-2Oil Boosting
- Track 17-3Pipeline Integrity Services
- Track 17-4Downstream Pipeline
- Track 17-5Gas Production
- Track 17-6Virtual Pipeline
Remote sensing is the process of obtaining an information about an object without any physical contact with the object. Remote sensing technique is much important for petroleum industry. This technique is very useful for onshore exploration of petroleum resources. Remote sensing is relevant in all stages of petroleum lifecycle, including exploration, appraisal, development, production and restoration
- Track 18-1Hyperspectral Wavelengths
- Track 18-2Hyperspectral Sensors
- Track 18-3Spectral Angle Mapper (SAM)
- Track 18-4Linear Spectral Unmixing (LSU)
- Track 18-5Decision Tree Approach
Chemical Engineering deals with the look and maintenance of chemical plants and therefore the development of chemical processes for changing raw materials or chemicals into valuable forms. It combines information of Chemistry and Engineering for the assembly of chemicals and connected by-products. This branch of engineering may be a varied field, covering areas from biotechnolog and engineering, beneficiation, prescribed drugs, artificial fibres, crude oil processing plants etc.
- Track 19-1Polymer Engineering
- Track 19-2Biotechnology
- Track 19-3Petroleum Refining and Engineering
- Track 19-4Material Science and technology
- Track 19-5Environmental Engineering
- Track 19-6Petrochemical Engineering
- Track 19-7Biorefinery, Bioenergy, Bioproducts, Biromaterials
Digital Transformation of Petroleum is the new concept introduced in the petroleum industry to resolve the problems arise during petroleum products processing and marketing. New advanced innovations joined with information driven bits of knowledge can change activities, boosting spryness and vital basic leadership. Digital Transformation is the force that can transform the whole industry. These insights help the drive smarter, faster business decisions for industrial companies.
- Track 20-1Predictive Maintenance
- Track 20-2Improve Efficiency
- Track 20-3Reduce Downtime
- Track 20-4Decision Making
Chemical safety technology means the amalgamation of variety of risk decrement or risk management approaches that work towards making a facility and its chemical processes as safe as possible. Inherently safer technology (IST) is the first preference for managing chemical hazards. The first importance is to avoid hazards by using less hazardous substances. other safety technologies are implementation of protective structures, safety engineering controls and maintaining safe administrative systems. Several inherently safer approaches are implemented.
- Track 21-1Substitution
- Track 21-2Minimization
- Track 21-3Moderation
- Track 21-4Simplification
Research and Development on Unconventional resources becomes highly significant nowadays. The Development of Unconventional resources consider many factors that includes Geology, topography, Geography, Governance, Pricing. Ways to deal with discovering them must be founded on innovation and wanting to maintain a strategic distance from undesirable costs and error.
- Track 22-1Land Access
- Track 22-2Operability
- Track 22-3Exploitation of Resources
- Track 22-4Development of Resources
Renewable energy is energy obtained from sources that are essentially inexhaustible. The Renewable energy resources are wind, power, geothermal energy, tidal power and hydroelectric power. Solar Energy is the direct conversion of sunlight using solar panels. Biomass energy is stored sunlight contained in plants. Other renewable energies they don’t depend on sunlight are geothermal energy.
- Track 23-1Solar Energy
- Track 23-2Biomass and Bioenergy
- Track 23-3Biofuel and Biogas
- Track 23-4Geothermal
- Track 23-5Hydro Power and Tidal Power
- Track 23-6Wind Power and Wave Power
The method by that a substance speeds up a chemical action while not being consumed or altered within the process. Substances which will accomplish this outstanding exploit area unit termed catalysts and area unit of vast importance in chemistry and biology.
- Track 24-1Nanocatalysis
- Track 24-2Biocatalysis
- Track 24-3Homogeneous Catalysis
- Track 24-4Heterogeneous Catalysis
- Track 24-5Photocatalysis