Theme: Scientific and Technological Breakthroughs: The New Landscape in Industrial Chemistry & Water Treatment

Industrial Chemistry 2018

Industrial Chemistry 2018

1. Industrial  Chemistry
Organic Chemistry
Inorganic Chemistry
Analytical Chemistry
Physical Chemistry
 

2.Inorganic Chemistry: The Elements
Element Denotation
Fibres and Plastics
Organometallic Compounds
Geochemistry
Catalysis

 

3.Medicinal Chemistry: Fusion of Traditional Medicine
Drug resistance by misuse of Medications
Naturopathy and Acupuncture as a secondary medical system
Artenisinin: A traditional medicine block bust
 

4.Analytical Chemistry
Qualitative analysis
Quantitative analysis
Infrared spectroscopy
Differential Scanning Calorimetry
Gravimetric analysis
 

5.Organometallic Chemistry
Transmetalation
Organometallic substitution reaction
Carbon-Hydrogen bond activation
Cyclometalation
 

6.Industrial Photochemistry
Luminescence
Grotthuss-Draper law and Stark Einstein law
Fluorescence and Phosphorescence
Organic photochemistry
Inorganic and Organometallic photochemistry
 

7.Ultrapure Water Production
Membrane Filtration
Electro deionisation
Microfiltration
Membrane elements
Applications in Pharmaceutical and Biotechnology companies
 

8.White Biotechnology and Green Chemistry
Bio catalysis
Waste minimization
Use of renewable resources or agro Industrial residues
Renewable feedstock Optimization
New high performance microorganisms
Spiro connected heterocycles
 

9.Petroleum and Polymer Processing
Olefins and aromatics
Monomer vs. Polymer
Polymers in crude oil refining
Fluid catalytic cracking
Plasticization of polymers with supercritical fluids
 

10.Solid State Physics
Crystallography
Renewable and sustainable energy
Aerospace and transport
Advanced manufacturing
Material Science
 

11.Biopolymers and Bio plastics
  Biodegradable plastics
  Micro and Nano blends based on natural polymers
 

12.Lead Drug Discovery
Choosing disease and drug target
Identification of pharmacophore
Lead compounds and SAR
High throughput screening
Computer aided drug design
 

13.Nano materials in Water Treatment
Zero-Valent  metal nanoparticles
Metal oxides nanoparticles
Antibacterial activity
 

14.Desalination
Vacuum distillation
Multi-stage flash distillation
Multiple- effect distillation
 

15.Allotrope of Carbon
Diamond
In-situ doping of diamond
Quantum applications
Electrochemical surface of diamonds
Kimberlites and lamproites
 

16.Polymer Science
Condensation
Polymer Rheology and polymer morphology
Conducting polymers
Rubbers-Materials and processing technology

Chemistry & Water Conferences- On behalf of Industrial Chemistry and Water Treatment  organizing committee, we warmly welcome analytical expertise researchers, professors, scientific communities, delegates, students, business professionals and executives to attend to attend the “International Conference on Industrial Chemistry and Water Treatment” which is to be held during May 21-22, 2018 at New York, USA.

Industrial Chemistry and Water Treatment 2018 is an International platform for presenting research about chemistry and related fields thus contributes to the dissemination of knowledge for the benefit of both the academia and chemical and water treatment business. This event brings together the top professionals in the chemistry and chemical engineering field along with the highly affiliated professors to explore the advancements and latest applications achieved in the field of Industrial chemistry,Water Treatment technology and reverse osmosis membrane technology. Industrial Chemistry and Water Treatment 2018 discusses various fields of chemistry employed in Petroleum and Organic Industrial Chemistry, Industrial Polymers, Metals and Composites Chemistry, Industrial Processes, White biotechnology and Green Chemistry, Metallurgy and Material Science in Industrial Chemistry, Applied chemistry, Industrial Photo Chemistry, Pharmaceutical Chemistry, Clean water technology, Water Solutions and Strategies in chemical Industry, Reverse Osmosis and Nano filtration, Domestic Water Treatment, Desalination, Ultrapure Water Production, Industrial Water and Waste Water treatment, Boiler Water Treatment and Cooling Water Treatment, Applied Membranes and Nano membrane technology and chemical science fields which mark the support for the advanced and much needed research by their study on various topics. The scientific program will focus on current advances in the research in water treatment and use of chemistry and related with particular focus on its roles and applications in various fields and industries.

In the light of this theme, the Conference Series LLC Ltd aims to provide a forum for International Chemistry researchers from various areas of chemistry, pharmacy, Water technologies and life science by providing a platform for critical analysis of new data, and to share latest cutting-edge research findings and results about all aspects of industrial chemistry. Chemistry conferences provide a platform to detail the research work of expertise from various scientific backgrounds and the same can be perceived by young researchers and students. Chemistry Conferences-Industrial Chemistry and Water Treatment mainly aim to provide knowledge on chemistry involved in various Industries and in Water Treatment.  In course of research work and therefore Industrial chemistry and Water Treatment 2018 would be a perfect venue to share and develop knowledge on Chemical industry, Various Industrial Processes, Different industries , Applied Chemistry and Water Treatment technology, Membranes (Hydranutics 8040 Membrane) and desalination.

Agriculture uses 69% of the world's water withdrawal - including irrigation, livestock watering and cleaning, and aquaculture. The production of energy also requires water in processes such as thermal power plant cooling systems or lowering the water table for raw materials extraction.

In the US, chemical companies spend over $ 12 billion a year on environmental, health and safety programs. This has, for example, has led to the reduction of hazardous releases to the air, land and water by over 70 percent over the last 40 years. Another environmental measure concerns the use of energy. In the 20 years from 1990, the chemical industry in the US saved energy at the average rate of 2.1% and in Europe at more than 4%.

 

Chemistry Conferences: The global market analysis for chemicals and water treatment should reach $38.2 billion by 2021 from $28.5 billion in 2018 at a compound annual growth rate (CAGR) of 6.1%, from 2017 to 2021.

In 2018 market analysis for alternative U.S chemical end-use product market is expected to increase from $149.9 billion to an estimated $345.6 billion by 2021. In 2026 it should reach $884.1 billion, with a compound annual growth rate of 19.4% for the period of 2018-2026.

USA Industrial Chemistry: U.S. chemistry output is expected to rise 1.6% in 2018 and 3.7% in 2019. Chemical production will continue to grow across over all United States of America during 2018. In next five years, growth will occur in the Gulf Coast region, followed by the Ohio Valley. American chemistry revenues will more than $1.0 trillion by 2020.

USA chemical production-excluding production of the pharmaceuticals segment, which is expected to contract this year-will expand 2.7% this year, in 2017 4.1%  and  in 2018 5.0%. Including pharmaceuticals, the chemical industry will expand this year at a slightly lower 1.6%. In 2019 growth in production volumes will accelerate and the industry will expand 3.7% and In 2018 by another 4.5%. Capacity utilization is expected to tighten to 73.5% in 2018 and further to 73.3% in 2019.

Effects of renewed competitiveness from shale gas is experienced by U.S. basic chemicals, inorganic chemicals, petrochemicals, resins, synthetic rubber, Plastic, and manufactured fibres. Basic chemicals production is anticipated to grow 3.1% in 2018 and 4.9% in 2019. Production volume growth will exceed 5.0% per year during 2018 and 2019 by new capacity coming, followed by smaller gains in 2020 and 2021. Basic major role in expanding production play by chemicals, led by petrochemicals and organics as well as plastic resins. There will be strength in the production of inorganic chemicals, synthetic rubbers and manufactured fibres as well.

In the specialties chemicals segment, production will pick up by 1.5% in 2018, after contracting last year, and grow further by 3.4% in 2019.

USA Water Treatment: This statistic represents the revenue of the water utility industry in the United States between 2000 and 2010. In 2000, this particular industry generated a revenue of approximately 29.9 billion U.S. dollars. Water is a prerequisite for economic development. Water as a resource for production focuses on the economic value of the natural resource water. Different types of industries demand different quantities of water resources, and produce and dispose of different kinds of wastewater. Agriculture uses 69% of the world's water withdrawal - including irrigation, livestock watering and cleaning, and aquaculture. The production of energy also requires water in processes such as thermal power plant cooling systems or lowering the water table for raw materials extraction.

FAO reports that global water withdrawal increased from less than 600 km3/year in 1900 to almost 4,000 km3/year in 2010. According to the OECD "Environmental Outlook to 2050", global demand for water is projected to increase by 55% between 2000 and 2050, mainly driven by a 400% increase in demand from the manufacturing sector.  Proper water management for production purposes is getting more and more important as the manufacturing sector is just one of many stakeholders dependent on this natural resource. The report explores the main policy responses governments should consider to address the challenges of increased water demand.

Jobs:

Chemical industry adding jobs in the industry’s expansion continues to reverse a falling trend in employment. In 2016 0.8% growth was expected in the chemical industry employment.  This trend is in contrast to continuous decline in employment from 1999 to 2011. Because chemical industry workers are among the highest paid in the manufacturing sector, growing payrolls will strengthen local economies.

Chemical industry capital spending in the U.S. surged 12.1% in 2014 and gained 21.0% in 2015, reaching $43.58 billion. During 2015, chemistry accounted for one-half of total construction spending by the manufacturing sector. Despite the hindrance of slow global growth, uncertainty and U.S. tax policies that discourage business investment, these strong gains in capital spending for American chemistry are expected to continue. U.S. chemical industry capital spending will increase by 10.4% this year; 7.8% in 2017; 7.2% in 2017; and the year-over-year gains will remain above 6.0% until 2020.

Expansions will continue and investments to improve operating efficiencies will play a role as well. By 2021, Chemical industry will reach $65 billion by U.S. capital spending—more than triple the level of spending at the start of this prolonged cycle in 2010.

Capital spending for bulk petrochemical and for organic intermediates, along with spending for plastic resins, will advance from less than 29% of the total to 52% in 2021.

By rising 2% to $132 billion, the trade excess in chemicals (excluding pharmaceuticals) will grow to $36 billion in this year and imports hold steady at $96 billion. Two-way trade between the U.S. and its foreign partners will reach $227 billion this year and will grow steadily over the coming years.

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Conference Date May 21-22, 2018
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