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8th International Conference on Environmental Chemistry and Engineering (CS...

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8th International Conference on Environmental Chemistry and Engineering


About Conference

ConferenceSeries llc LTD is a renowned organization that organizes highly notable conferences throughout the globe. Currently we are bringing “8th International Conference on Environmental Chemistry and Engineering(Environmental Chemistry 2018) scheduled to be held during September20-22, 2018 at Berlin, Germany. The conference invites all the participants across the globe to attend and share their insights and convey recent developments in the field of Environmental Chemistry.

ConferenceSeries llc LTD organizes a conference series of 1000+ Global Events inclusive of 1000+ Conferences, 500+ Upcoming and Previous Symposiums and Workshops in USA, Europe & Asia with support from 1000 more scientific societies and publishes 700+ Open access Journals which contains over 50000 eminent personalities, reputed scientists as editorial board members.


Why to attend?

Environmental Chemistry 2018 is a unique event tailored to spread the awareness about the value of utilizing the natural resources. The conference strives to accumulate specialists and pioneers from across the globe in order to counter the economic under-evaluation ecologist may face in their practice. Several eminent researchers and speakers will present their outlook and advice, the venue of the event has been selected after much research to assure that the event is being held in one of the hotspots for the concerned field, therefore attendance is expected to be astounding, both in quality and quantity. The variety of prospective audience includes: figures of academic excellence, interested industrialists, Students, exhibitors and eminent faces from the world environmental chemistry & engineering thus enabling the sponsors a unique chance to choose from a pool of outstanding scopes for expansion of their business, new project undertaking and recruitment. All these factors combined and several more make Environmental Chemistry 2018 a “must attend” Environmental Chemistry conference.


2018 Highlights:

  • 300+ Participation (70 Industry: 30 Academia)
  • 5+ Keynote Speakers
  • 50+ Plenary Speakers
  • 10+ Exhibitors
  • 14 Innovative Educational Sessions
  • 5+ Workshops
  • B2B Meetings


Market Analysis

About Environmental Chemistry 2018

Environmental Chemistry 2018 looks forward to provide a forum for laying the foundations of a new principled approach in Environmental Science. This conference will bring together professors, researchers, and practitioners in all areas of environmental science and will provide an international forum for the dissemination of original research results, new ideas and practical developments. We are delighted to invite you all to attend and register for the “8th International Conference on Environmental Chemistry and Engineering (Environmental Chemistry 2018)” which is going to be held during September20-22, 2018 in Berlin, Germany.


Importance & Scope:

Environmental chemistry is a multi-disciplinary science involving chemistry, physics, life science, agriculture, medical-science, public health, sanitary engineering etc. In simple terms, it is the science of chemical phenomena in the environment. In broader terms, it is the study of sources, reactions, transport, effect and fate of chemical species in the air, water and soil and the effect of human activities on these. An understanding of basic concepts of environmental chemistry is essential not only for all chemists but also for all non-chemists engaged in environmental science, engineering and management.

Environmental chemistry is not a new discipline. Excellent work has been done in this field for the greater part of a century. At present there are many environmental issues, which have grown in size and complexity day by day and are threatening the survival of mankind on earth. There are many issues that need to handle in their chemical perspective viz. One of environmental chemistry’s major challenges is the determination of the nature and quantity of specific pollutants in the environment. Thus, chemical analysis is a vital first step in environmental chemistry research. The difficulty of analyzing for many environmental pollutants can be awesome.


Sessions/ Tracks

Environmental chemistry is the study of chemical processes occurring in the environment which are impacted by humankind's activities. These impacts may be felt on a local scale, through the presence of urban air pollutants or toxic substances arising from a chemical waste site, or on a global scale, through depletion of stratospheric ozone or global warming. The focus in our courses and research activities is upon developing a fundamental understanding of the nature of these chemical processes, so that humankind's activities can be accurately evaluated.

The field of environmental chemistry is both very broad and highly interdisciplinary. Within the Department of Chemistry we have a core group of faculty whose research interests are in atmospheric and aquatic chemistry, photochemistry, and the chemistry and transport of long-lived pollutants. We interact with other chemists in the Department, with numerous other researchers at the University who have related interests, and with nearby government agencies. Indeed, the setting for the study of environmental chemistry is ideal.


Track 1: 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 human habitation and for other organisms, and to procure pollution sites.

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.

Track 2: Environmental Biotechnology

Environmental biotechnology is a complex of scientific and engineering education related to the use of microorganisms and their products in the inhibition of environmental pollution through bio treatment of liquid, solid, and gaseous wastes, bioremediation of spoil environments, bio monitoring of environment and treatment processes. The aids of biotechnological treatment of wastes are as follows: diversity of the conditions suitable for biodegradation, biodegradation of a wide spectrum of hazard substances by natural microorganisms; availability of a wide range of biotechnological channels for complete wrecking of hazardous wastes; and diversity of the conditions suitable for biodegradation. The major considerations for utilization of biotechnology in waste treatment are technically and economically reasonable rate of detoxification of substances during biotechnological treatment, and ability of natural microorganisms to degrade substances.

U.S. sales of environmental biotechnology products were valued at $241.2 million in 2012. This is expected to increase at a total compound annual growth rate (CAGR) of 7.9%, with 2013 sales of $261.9 million, rising to $382.3 million in 2018.

Track 3: Pollution Control Chemistry and Green Chemistry

Green chemistry is the design of chemical products and processes that reduce or eliminate the use or generation of hazardous substances. Green chemistry applies across the life cycle of a chemical product, including its design, manufacture, use, and ultimate disposal. Green chemistry is also known as sustainable chemistry. Green chemistry reduces pollution at its source by minimizing or eliminating the hazards of chemical feed stocks, reagents, solvents, and products.

The global market for air pollution control equipment reached nearly $56.6 billion and $61 billion in 2013 and 2014, respectively. This market is expected to grow at a compound annual growth rate (CAGR) of 5.2% to $78.4 billion for the period 2014-2019. This report provides in-depth analysis of the global markets and technologies for air pollution control equipment.

Track 4: Environmental Toxicology and Mutagenicity

Environmental toxicology is the science and practices of the adverse effects mainly of chemicals other man-made agents in the environment and through the environment. The targeted receptors of these adverse effects may be both the ecosystem and the human. Environmental toxicology includes the study of chemical substances potential and actual contaminants – polluting air, water, soil and food, their impacts upon the structure and function of ecological systems, including man as well as the use of these results for decision making and environmental management.

Mutagenicity refers to the induction of permanent transmissible changes in the structure of the genetic material of cells or organisms. These changes (mutations) may involve a single gene or a block of genes.

The global in vitro toxicity testing market was valued at $4 billion in 2011 and more than $4.9 billion in 2012. This market is estimated to reach nearly $9.9 billion in 2017, with a compound annual growth rate (CAGR) of 14.7% for the five-year period, 2012 to 2017. This report provides an overview of the global in vitro toxicity testing market, with assessments of its growth potential over the next five years and the current market scenario for alternative measures to animal testing.

Track 5: Energy and Environment

Energy and environment are related in the technological and scientific aspects including energy conservation, and the synergy of energy forms and systems with the physical environment. The levels of atmospheric carbon dioxide has risen by 31% between 1800 and 2000, going from 280 parts per million to 367 parts per million. Scientists predict that co2 levels could be as high as 970 parts per million by the year 2100. Different factors are responsible for this development, such as promotion with respect to technical parameters of energy converters, in particular, improved efficiency; discharge characteristics and increased lifetime. Various environmental policies have been implemented across the world for reduction of GHG emissions for improvement of environment.

  • Renewable energy
  • Solid waste management
  • Sustainable development
  • Biogas and biomass
  • Solar energy

The global market for energy and environmental catalysts totaled $25.7 billion in 2014. This market is expected to grow at a compound annual growth rate (CAGR) of 5.6%, from nearly $27.3 billion in 2015 to nearly $35.8 billion by 2020

Track 6: Applications of Environmental Chemistry

Environmental chemistry application areas:

  • Risk/Hazard Assessments and Environmental Impact Assessments
  • Environmental Management
  • Groundwater protection
  • Surface water quality protection
  • Soil protection
  • Cleaner production and waste management Policy

Track 7: Environmental Design

Environmental design is the manner of addressing surrounding environmental parameters when devising plans, policies, programs, buildings, or products.

Environmental design can also refer to the applied arts and sciences dealing with creating the human-designed environment. These fields constitute architecture, geography, urban planning, landscape architecture, and interior design. Environmental design can also encircle interdisciplinary areas such as historical preservation and lighting design. In terms of a bigger scope, environmental design has implications for the industrial design of products: wind-electricity generators, innovative automobiles, solar-electric equipment, and other kinds of equipment could serve as examples. Currently, the term has expanded to employ wind-electricity generators to ecological and sustainability issues.

The global market for environmental remediation technologies was valued at about $59.5 billion in 2013. The total market is expected to expand from nearly $61.7 billion in 2014 to $80.5 billion in 2019, with a compound annual growth rate (CAGR) of 5.5% from 2014 through 2019

Track 8: Environmental Hazards

Environmental hazards may be chemical, physical, biological, biomechanical or psychosocial in nature. Environmental hazards build traditional risks of poor sanitation and shelter, as well as agricultural and industrial contamination of air, water, food, land. Environmental health risks result from people interacting with hazards in the surrounding environment.

In order to prevent environmental hazards affecting our health, it is very important to be aware of the hazards and to take steps to supervise the risks. Some majorly deals with general environmental health hazards, and not extremes of climate, chemical hazards, occupational hazards, physical hazards and hazards associated with food also may be the reason.

The global market for hazardous waste management reached $23.8 billion in 2013 and nearly $25.9 billion in 2014. This market is expected to grow to nearly $33.9 billion in 2019, with a compound annual growth rate (CAGR) of 5.5%

Track 9: Chemical and Polymer Engineering

Polymer engineering is an engineering that designs analysis and modify polymer material. Basic divisions of polymer are thermoplastic, elastomer, and thermoset which helps to design areas of application compounding and processing of polymer are major description of polymer. It includes different types of polymerization. The special technical importance of polymers can be judged by the fact that half of the professional organic chemists employed by industry in the United States are engaged in research or development related to polymers.

Track 10: Environmental Management and Policy

This Area reviews the origins and nature of environmental challenges facing society through the study of their scientific, socio-economic and political dimensions, and prospect the ways of addressing these challenges through environmental, natural resource management, conservation and policy approaches. It is concerned with existing and emerging strategies for avoiding and managing the impacts of human activities and for conserving the resources of the biosphere in ways that are supporting to sustainable development. It provides knowledge, concepts, and skills needed to be effective in environmental management in business, government, and not-for-profit sectors.

Track 11: Environmental Biology

Environmental Biology is the study of organism’s interaction with the environment, and how they adapt to changing environments. It explores the interconnections among biology, ecology, evolution, and conservation. Environments consist of many components including both physical features, such as climate and soil type, and biological features, such as prey and predators. The term environmental biology has wider connotations than ecology because it includes the study of humans in the environment, so you will find such subjects as agriculture, pollution and the unnatural surroundings. Understanding the ecology of an area is like trying to put together a gigantic, multidimensional jigsaw. Some pieces are the individual species in the area.

Track 12: Environmental science

Environmental science is a multidisciplinary academic field that combines physical, biological and information sciences to the environmental study. The social science fields that are incorporated into environmental science include geography, economics, and political science. Philosophy and ethics are the two fields within the humanities that are also included in environmental science. The surface environment of the Earth is disciplined by interactions between the deep Earth, the atmosphere, the hydrosphere, and the biosphere. This intercommunication occur on timescales ranging from picoseconds for chemical reactions on mineral surfaces to the millions of years over which plate tectonic processes and earth’s evolution take place. Investigations are open on what shapes our world and the environment in which we live, in order to understand the interactions between Earth's geology, atmosphere, biosphere, oceans, and human responses and roles.

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.

Track 13: Renewable Energy Sources and Storages

Energy storage is the capture of energy that produces energy for onetime or later several times. A device that stores energy is called accumulator. Both wind and solar energy in recent years can help to produce valuable source of renewable energy. Wind turbines and Photovoltaic by installation can produce enough energy to sustain themselves. Bulk energy storage can be dominated by pumped hydro which accounts for 98% global energy storage.

Track 14: Environmental Geology

Environmental geology unites the core foundation of environmental science and places particular emphasis on the study of geology and executing it to real-world situations. It is an applied science concerned with the practical application of the basis of geology in the iron out of environmental problems. It includes Hydrogeology, Environmental Mineralogy, Hydro geochemistry, Soil Mechanics etc. The fundamentals concepts of environmental geology are Human population growth, Sustainability, Hazardous earth processes etc. Environmental Geology employs in geologic hazards, topical issues, and natural resources of concern to society such as change in climate and provides sound advice about how humanity can live responsibly on Earth.

Research on environmental geology emphases on the physical and chemical processes occurring at or nearby the Earth’s surface impacting by human activities. Hydrogeology is important nowadays as some piece of the world are sacred with frequent rainfall and plentiful surface water resources, but most countries need to use the water that is underground stored to supplement their needs. Environmental geology applies geologic information to the solution, prediction and study of geologic complications such as Earth materials, Landscape evaluation, Natural hazards, Environmental impact analysis and remediation.


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