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Recent Innovations and Technologies in Petroleum and Refinery Industries
- Petrochemistry 2018

About Conference

We take a great privilege to welcome all the people throughout the world to attend the “International conference on Petrochemistry and chemical engineering" amid December 10-11, Abu Dhabi, UAE 2018 which incorporates prompt keynote presentations, Oral talks, poster presentations and exhibitions.

Petro Chemistry 2018 gathering coordinates towards tending to fundamental issues and in addition future procedures of worldwide vitality industry. This will be the biggest and most encouraging universal meeting where oil and gas industry experts and in addition chiefs will come to talk about and wrangle on different parts of the difficulties, dangers and speculation openings all through the entire coordinated vitality and utilities inventory network. Allied Academies organizes 500+ Global Events inclusive of 300+ conferences, 500+ upcoming and previous symposiums and workshops in the USA. Europe and Asia with support from 1000 more scientific societies and publishes 700+ open access journals which contain over 3000 eminent personalities, reputed scientists as editorial board members.

Why to attend???

With individuals from around the globe concentrated on finding out about petro science and its advances, this is the best chance to achieve the biggest gathering of members from the oil network. Direct introductions, appropriate data, meet with ebb and flow and potential researchers, make a sprinkle with new inquires about and its improvements, and get name acknowledgment at this 3-days occasion at petro chemistry gathering. Widely acclaimed speakers, the latest strategies, improvements and the most up to date refreshes in oil industry are hallmarks of this conference.

Target Audience:

• Scientists
• Engineers
• Universities
• Students
• Young Researchers
• Business Entrepreneurs
• Chemical Engineers
• Petroleum Associations and Societies

Welcome Message

We are happy and honoured to welcome all distinguished guests and delegates to the International Conference on Petrochemistry and Chemical Engineering scheduled in Abu Dhabi, UAE from 10th to 11th December 2018.We are orchestrating a conference where industry, academia and government agencies are contributing existing mastery & collaborating to nurture subject knowledge and accelerate innovations in the field of Petrochemistry.

Market Analysis

Market Analysis Report:

Petrochemical Markets gives a point by point supply, request and value gauges of the key petrochemical feedstock naphtha alongside a review of the petrochemicals advertise including ethylene, propylene, benzene, and Paraxylene. The administration likewise gives investigation on splitting financial aspects, arbitrage financial matters; refinery and petrochemical office turnarounds and their effects on provincial adjust. 

Customers settle on certain choices in view of significant understanding from HIS Energy's top to bottom learning of market powers and political improvements that drive petrochemical feed stock advertise joined with profound quantitative detail and broad industry encounter.


Track 1: Petro Chemistry and Process Engineering

Chemical obtained either directly from cracking (pyrolysis), or indirectly from chemical processing of petroleum Oil or natural gas. Major petrochemicals are acetylene, benzene, ethane, ethylene, methane, propane, and hydrogen, from which hundreds of other chemicals are derived. These derivatives are used as elastomers, fibres, plasticizers, and solvents.Process Engineering is for the design, construction, maintenance and improvement of large equipment and facilities which are used for processing and producing oil and gas - either onshore or offshore.

• Electrochemistry and Electrochemical Engineering
• Crystallization
• Lubricant, Wax, and Grease Manufacturing Processes
• Asphalt Production
• Saturated and Unsaturated Gas Plants
• Sweetening and Treating Process
• Isomerisation and Polymerisation
• Catalytic Reforming and Hydro-treating
• Solvent Extraction and De-waxing
• Crude Oil Desalting and Distillation
• Conversion Processes – Decomposition, Unification, Alteration or Rearrangement
• Atmospheric and Vacuum distillation
• Petroleum Refining and Petrochemicals
• Unit Operations and Separation Processes

Track 2: Chemical and Biochemical Engineering

Chemical and biochemical engineering are at the core of the conversion of any kind of raw materials into substances and products required by modern society. Chemical engineers and biochemical engineers head the research into and development of methods for large-scale production of drugs, inexpensive production of basic chemicals and fuels. Research into and development of methods for preventing and remedying environmental problems in relation to chemicals in the production, as well as research into and development of methods for sustainable chemical and biochemical energy conversion are also key fields of activity.

• Reservoir Engineering
• Pharmaceutical Engineering
• Industrial Separation Techniques
• Food Technology
• Modern Thermodynamics
• Mass and Photo bioreactor
• Electrochemical energy conversion
• Bioprocess engineering
• Biofuel from algae
• Agrochemicals
• Materials Science

Track 3: Geology and Exploration

Geological prospecting and exploration for oil and gas is a set of industrial and R&D activities for geological study of subsurface resources, identification of promising areas, and discovery of fields, their evaluation and pre-development. The final objective of geological prospecting is preparation of subsurface resources. The main principle of geological prospecting is the comprehensive geological study of subsurface resources when along with oil and gas exploration all associated components (petroleum gas and its composition, sulphur, rare metals, etc.), possibility and practicality of their production or utilization are investigated; hydrogeological, coal mining, engineering, geological and other studies are performed; natural, climatic, socioeconomic, geological engineering and economic indicator and their changes caused by future field development are analysed.

• Exploration Strategy
• Geophysical Methods
• Geohazards and Sea Bed Service
• Seismic Data Acquisition, Processing and Interpretation Technique
• Structural Development and Basin Evolution
• Geochemistry
• Coal Geology
• Methods used in Petroleum Geology

Track 4: Drilling and well operation

The development of drilling wells offshore in the petrochemical industry offers additional energy resources. The essential seaward well bore 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 is obtained through offshore development. The direction of drilling is ascertained by the dipole sharing investigation tool (DSI).

• Well Logging
• Flaring
• Offshore Drilling
• Rotary Drilling
• Land Based Drilling
• Hydraulic fracturing
• Oil Spill and Petroleum industry

Track 5: Pipelines and Transportation

Pipeline transport is the transportation of goods through a pipe. Liquids and gases are transported in pipelines and any chemically stable substance can be sent through a pipeline. Pipelines exist for the transport of crude and refined petroleum, fuels - such as oil, natural gas and bio fuels - and other fluids including sewage, slurry, water, and beer. Oil pipelines are made from steel or plastic tubes which are usually buried. The oil is moved through the pipelines by pump stations along the pipeline. Natural gas (and similar gaseous fuels) are lightly pressurised into liquids knows as Natural Gas Liquids (NGLs). Natural gas pipelines are constructed of carbon steel. Highly toxic ammonia is theoretically the most dangerous substance to be transported through long-distance pipelines, but accidents have been rare. Hydrogen pipeline transport is the transportation of hydrogen through a pipe. District heating or tele-heating systems use a network of insulated pipes which transport heated water, pressurized hot water or sometimes steam to the customer. Pipelines conveying flammable or explosive material, such as natural gas or oil, pose special safety concerns and there have been various accidents. Pipelines can be the target of vandalism, sabotage, or even terrorist attacks. In war, pipelines are often the target of military attacks. Topics like Power and Generation of heat, Renewable energy by bio-system engineering, Bioprocess control parameters.

• Pipe Line Design, Laying, and Integration
• Intelligent Pigging—Pipelines
• Pipelines and geopolitics
• Pipeline Flow Assurance
• Mixing Fluid Streams
• Gas-grid injection
• Hazard identification
• Spill frequency-volume
• Benzene fate and transport

Track 6: Online and Offline Shoring

Offshore drilling is a mechanical process where a well bore is drilled below the seabed. It is typically carried out in order to explore for and subsequently extract petroleum which lies in rock formations beneath the seabed. Most commonly, the term is used to describe drilling activities on the continental. Offshore drilling presents environmental challenges, both from the produced hydrocarbons and the materials used during the drilling operation.There are many different types of facilities from which off shore drilling operations take place. These include bottom founded drilling rigs (jackup barges and swamp barges), combined drilling and production facilities either bottom founded or floating platforms, and deep-water mobile offshore drilling units (MODU) including semi-submersibles and drill-ships. These are capable of operating in water depths up to 3,000 metres (9,800 ft). In shallower waters the mobile units are anchored to the seabed, however in deeper water (more than 1,500 metres (4,900 ft) the semi submersibles or drill-ships are maintained at the required.There are many different types of facilities from which offshore drilling operations take place. These include bottom founded drilling rigs (jackup barges and swamp barges), combined drilling and production facilities either bottom founded or floating platforms, and deep-water mobile offshore drilling units (MODU) including semi-submersibles and drill-ships. These are capable of operating in water depths up to 3,000 metres (9,800 ft). In shallower waters the mobile units are anchored to the seabed, however in deeper water (more than 1,500 metres (4,900 ft) the semi submersibles or drill-ships are maintained at the required drilling location using dynamic positioning.

• Offshore Vessels
• Brownfield Management
• Rig Fleet Management
• Offshore Field Optimization
• Offshore Development

Track 7: Upstream, Downstream and Midstream Integration

Upstream oil and gas operations identify deposits, drill wells, and recover raw materials from underground. This sector also includes related services, such as rig operations, feasibility studies; operations mostly include resource transportation and storage, such as pipelines and gathering systems. Kinder Morgan and Williams Companies are two examples of midstream firms. Downstream operations include refineries and marketing. These services turn crude oil into usable products such as gasoline, fuel oils, and petroleum-based products. Marketing services help move the finished products from energy companies to retailers or end users. Marathon Petroleum and Phillips 66 are two noteworthy examples of downstream companies.

• Midstream/Upstream Interface Optimisation
• Oil Refining Technologies
• EPC Capability & Capacity
• Transportation and Marketing Challenges
• Target Refining and Petrochemical Integration
• Natural-gas processing
• Natural gas condensate
• Hydrocarbon exploration
• Coal bed methane
• Streamline Simulation

Track 8: Biopolymer Chemistry and Research

Biopolymers are polymers created by living beings; as it were, they are polymeric biomolecules. Since they are polymers, biopolymers contain monomeric units that are covalently attached to shape bigger structures. There are three fundamental classes of biopolymers, ordered by the monomeric units utilized and the structure of the biopolymer framed: polynucleotides (RNA and DNA), which are long polymers made out of at least 13 nucleotide monomers; polypeptides, which are short polymers of amino acids; and polysaccharides, which are frequently straight fortified polymeric starch structures. Other cases of biopolymers incorporate elastic, suberin, melanin and lignin.

• Flory–Huggins solution theory
• Bio-based Thermosetting Polymers
• Biopolymer Companies and Market
• Production and Commercialization
• Biomaterials and Biopolymers
• Bio composite materials
• Plastic Pollution and Waste Management
• Industrial Biotechnology and Biorefineries
• Future and Scope for Biopolymers and Bio plastics
• Cossee-Arlman mechanism

Track 9: Catalysis and Pyrolysis

This field amalgamate facet of organic, organo metallic, and inorganic chemistry. Synthesis forms a considerable component of most programs in this area. Mechanistic scrutiny are often undertaken to discover how an unexpected product is formed or to rearrange the recital of a catalytic system. Because synthesis and catalysis are essential, to the construction of new materials, Catalysts are progressively used by chemists busy in fine chemical synthesis within Reorganization of a compound into smaller and simpler compounds, or compounds of  lofty molecular weight, under elevated temperatures usually in the range of 400°C to 800°C to as high as 1400°C. It differs from combustion in that it occurs in the absence of air and therefore no oxidation takes place. The pyro-lytic disintegration of wood forms a large number of chemical substances. Some of these chemicals can be used as substitutes for conventional fuels.The dispersal of the products varies with the chemical composition of the biomass and the operating conditions.

• Kinetics and catalysis
• Characterization of pyrolysis reaction
• Gasification
• Polymer Engineering
• Environmental and green catalysis
• Photo catalysis and Nano Catalysis
• Karrick process
• Spectroscopy in Catalysis

Track 10: Industrial Biotechnology and Bioprocessing

To produce materials for industry, like chemicals, plastics, food, agricultural and pharmaceutical products and energy carriers. Industrial biotechnology, which is often referred as white biotechnology utilizes microorganisms and enzymes. Waste generated from agriculture and forestry and renewable raw materials are used for the production of industrial goods. It also contributes to lowering of greenhouse gas emissions. Bioprocess engineering is an essential component for rapid conversion of bio products from the laboratory to a manufacturing scale. This makes the benefits of biotechnology on a large scale at a reasonable cost for common people. Bioprocess engineering may include the work of mechanical, electrical, and industrial engineers to apply idea and knowledge of their domains and process based on using living cells.

• Molecular Biosensing, Bio robotics and Biomarkers
• Industrial and Chemical Biotechnology
• Petroleum Biotechnology and Green chemicals
• Pharmaceutical and Medical Biotechnology
• Microbial Biotechnology and Food Processing
• Bioinformatics, Systems Biology and Computational Biomedicine
• Biomaterials, Bio polymers & Biosensors
• Biochemistry and Protein Engineering

Track 11: Green catalysis and sustainable energy

Green chemistry otherwise called as sustainable chemistry, which is part  of chemistry and chemical engineering focused on designing products and by minimizing the generation and use of hazardous substances .whereas, environmental chemistry focuses on the effects chemicals polluting the nature, green chemistry focuses on technological ways to prevent pollution and by reducing the consumption of non-renewable resources.Application of Green chemistry and its application strongly support the development of greener concepts in process parameters, selection of compounds and resulting environmental aspects. Successful implementation of green chemistry research helps in analysing of new and existing green chemistry technologies are improving the environmental impacts.

• Design of Next Generation Catalysis
• Nanotechnology and Green catalysis
• Smart-grid technology
• Green Chemistry in Pharmaceuticals
• Green catalysis in Petrochemical Industries
• Green catalysis and Pollution control
• Enhanced geothermal system
• Green economy

Track 12: Gas supply and Gas Technology 

Industrial gases are a group of gases that are specifically manufactured for use in a wide range of industries, which include oil and gas, petrochemistry, chemicals, power, mining, steelmaking, metals, environmental pollution, medicine, pharmaceuticals, biotechnology, food, water, fertilizers, nuclear power, electronics and aerospace. Their production is a part of the wider chemical Industry (where industrial gases are often seen as "specialty chemicals").The principal gases provided are nitrogen, oxygen, carbon dioxide, argon, hydrogen, helium and acetylene; although a huge variety of natural gases and mixtures are available in gas cylinders. Whilst most industrial gas is usually only sold to other.The principal gases provided are nitrogen, oxygen, carbon dioxide, argon, hydrogen, helium and acetylene; although a huge variety of natural gases and mixtures are available in gas cylinders. Whilst most industrial gas is usually only sold to other industrial enterprises; retail sales of gas cylinders and associated equipment to tradesmen and the general public are available through gas local agents and typically includes products such as balloon helium , dispensing gases for beer kegs, welding gases and welding equipment, LPG and medical oxygen.

• Gas Conversion Technologies
• Gas Compression
• Sources of Supply & Demand
• Gas Field Developments
• Gas Storage and Transport 

Track 13: Nano science and Nano chemistry

Simulation modeling is the process of creating and analyzing a digital prototype of a physical model to predict its performance in the real world. Simulation modeling is used to help engineers understand whether, under what conditions, and in which ways a part could fail and what loads it can withstand. Simulation modeling can also help predict fluid flow and heat transfer patterns. Simulation modelling allows designers and engineers to avoid repeated building of multiple physical prototypes to analyze designs for new or existing parts. Before creating the physical prototype, users can virtually investigate many digital prototypes.

• Mathematical Modeling in Chemical Engineering
• Modelling of Bioprocesses
• Simulation and Separation Equipment Design
• Simulation, Optimization, Planning and Control of Processes
• Monte Carlo Method
• Agent-based Model
• Individual-Based Models
• Micro scale and Macro scale Models 

Track 14: Marine Science and Marine drug

The study of marine biology includes a wide variety of disciplines such as astronomy, biological oceanography, cellular biology, chemistry, ecology, geology, meteorology, molecular biology, physical oceanography and zoology and the new science of marine conservation biology draws on many longstanding scientific disciplines such as marine ecology, biogeography, zoology, botany, genetics, fisheries biology, anthropology, economics and law. The marine drugs which are obtained from marine organisms are known as marine drugs. These marine drugs are used since ancient times. And interestingly, innumerable products derived from the marine organisms in several 'crude forms' have been widely used across the globe by the traditional practitioners for thousands of years.

• Deep Sea Mining
• Marine heavy metals poisoning marine toxicology
• Fisheries Biology and Management
• Coastal Ecology
• Ocean Bio-geochemistry
• Marine Geology

Track 15: Petro Chemistry and HealthCare

Pharmaceutical chemical engineering is a department of Chemical Engineering that mainly deals with the design and construction of unit operations that involve biological organisms or molecules, such as bioreactors. Its applications are in the petrochemical industry, food and pharmaceutical, biotechnology, and water treatment industries. A bioreactor may also refer to a device meant to grow cells or tissues in the ambience of cell culture. These devices are being developed for use in tissue engineering or biochemical engineering. Different types of Bioreactors are Photo bioreactor, Sewage treatment, Up and Down agitation bioreactor, NASA tissue cloning bioreactor, Moss bioreactor. The biomaterials market currently generates more than $30 billion globally, and is expected to increase at a double-digit CAGR in the next few years. Orthopedic applications form the largest division of the overall biomaterials market. Polymer-based biomaterials are expected to initiate the next wave of market growth; and the future biochips and biosensors business segments also offer huge growth potential.

• New Concepts and Innovations
• Safety and Hazard Developments
• Chemical Reaction Engineering
• Chemical Reactors
• Process Design and Analysis

Track 16: Environmental Chemistry and Engineering

Environmental chemistry is the scientific review of the chemical and biochemical phenomena that occur in natural places. Environmental chemistry can be described as the study of the sources, reactions, transport, effects of chemical species in the air, soil, and water environments and the effect of human activity on these. Environmental chemistry is an integrative science that includes atmospheric, aquatic and soil chemistry, as well as uses analytical chemistry. It is allied to environmental and other areas of science. It is different from green chemistry, which tries to trim potential pollution at its source.Whereas Environmental engineering deals with the combination of sciences and engineering principles to develop the natural environment to  provide healthy air, water, and land for Whereas Environmental engineering deals with the combination of sciences and engineering principles to develop the natural environment, to  provide healthy air, water, and land for human habitation and for other organisms, and to procure pollution sites. BCC research estimates that the global environmental sensor and monitoring business will grow from $13.2 billion in 2014 to nearly $17.6 billion in 2019, a compound annual growth rate (CAGR) of 5.9% for the period of 2014 to 2019. This report provides information on emerging  growth areas, such as large-scale monitoring networks, analyses of global market trends, with data from 2013, estimates for 2014, and projections   of compound annual growth rates (CAGRs) through 2019.

• Environmental Technologies and sustainability Metrics
• Renewable Energy Sources and Storages
• Chemical and Polymer Engineering
• Chemical and Polymer Engineering
• Environmental Hazards
• Environmental Geology
• Applications of Environmental Chemistry

Track 17: Pollution and Sustainable Environment

Pollution prevention reduces the amount of pollution generated by industry, agriculture, or consumers. In contrast to pollution control strategies which seek to manage a pollutant after it is emitted and reduce its impact upon the environment, the pollution prevention approach seeks to increase efficiency of a process, reducing the amount of pollution generated at its source. Although there is wide agreement that source reduction is the preferred strategy, some professionals also use the term pollution prevention.

• Natural resource management
• Bioreactor
• Wind turbine
• Hydrogen fuel cell
• Ocean thermal energy conversion
• Photovoltaic

Track 18: Health Environment and Safety

Environment, Health & Safety (EHS) programs are so prevalent across global manufacturing organizations, at first thought, providing a definition can feel redundant and unnecessary. However, in the midst of emerging best practices, shiny new tools and technologies, and a plethora of metrics to capture and analyze events and actions Environmental Health and Safety Managers work with and for organizations (private and public sector) to promote good working practices for employees. Mostly, they observe these organizations to ensure that they comply with environmental legislation regarding safety in the workplace. When they work in environmental roles, it is about ensuring that steps are taken to protect the environment from the actions of the organization, and ensuring that people are protected from the environment.

• Physical and Chemical hazards
• Radiological Hazards
• Hazardous Materials Management
• Construction and Decommissioning 

Tracks 19: Biofuels and Bioenergy

Bioenergy depicts any vitality source in view of organic issue – everything from a waste cooking fire or a biomass control station to ethanol-based auto fuel. Not at all like oil, coal or gas, bioenergy considers a sustainable power source alternative, since plant and creature materials can be effectively recovered. At display, bioenergy represents the larger part of sustainable power source created internationally. Bioenergy is regularly thought to be naturally cordial in light of the fact that, in principle, the CO2 discharged when plants and trees are copied is offset by the CO2 consumed by the new ones planted to supplant those gathered. Be that as it may, the ecological and social advantages of bioenergy are fervently – particularly on account of biofuels, which are regularly created from sustenance yields, for example, palm oil, corn or sugar. The biofuels is once in a while utilized conversely with bioenergy, however more regularly it's utilized particularly to portray fluid bioenergy powers, for example, biodiesel (a diesel substitute) and bioethanol (which can be utilized as a part of petroleum motors).

• Bioenergy Applications
• Biomass
• Bio gas
• Bioethanol
• Avionics biofuels
• Bio-refineries
• Biodiesel
• Bioethanol for Sustainable Transport
• Ozone depleting substance discharges
• Natural sanitation

Track 20: Chemical and biochemical engineering

Concoction and biochemical designing are at the center of the change of any sort of crude materials into substances and items required by present day society. Research into and advancement of strategies for forestalling and curing natural issues in connection to synthetic substances in the creation, and in addition explore into and improvement of techniques for practical concoction and biochemical vitality transformation are additionally key fields of action.

• Store Engineering
• Agrochemicals
• Biofuel from green growth
• Bioprocess designing
• Electrochemical vitality change
• Greenery and Photo bioreactor
• Present day Thermodynamics
• Sustenance Technology
• Modern Separation Techniques
• Water Science and Technology
• Pharmaceutical Engineering
• Materials Science 

Organizing Committee
OCM Member
Mimoun H  
University of Boumerdes Algeria
M'Sila, Algeria
OCM Member
Mohamed A. F. Omran
The Norwegian University of Science and Technology
Hogskoleringen, Norway
OCM Member
Gopal Chakrabarti
West Bengal Education Service, Bikash Bhavan
Kolkata, India
OCM Member
Mr Xianmin Zhou
King Fahd University of Petroleum and Minerals
Dhahran , Saudi Arabia
OCM Member
Tatiana I. Novikova
Institute of Geodynamics, NOA, Greece
Athens, Greece
OCM Member
University of Carthage
Tunis, Tunisia
OCM Member
Abdeen Mustafa Omer
Energy Research Institute (ERI)
Nottinghamshire, United Kingdom
OCM Member
Guido Reinhardt
Institute for Energy and Environmental Research Heidelberg
Pfinztal, Germany
OCM Member
Liangxing HU
Nanyang Technological University, Singapore
Singapore, Singapore
OCM Member
Shatha Kaduhm Abdul-Latif Muallah
Baghdad University, Iraq
Baghdad, Iraq

To Collaborate Scientific Professionals around the World

Conference Date December 10-11, 2018
Speaker Oppurtunity Day 1 Day 2
Poster Oppurtunity Available
e-Poster Oppurtunity Available
Sponsorship Opportunities Click here for Sponsorship Opportunities

Abu Dhabi, UAE

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