Theme: “the promotion of biofuels for a better environment.

Biofuels 2022

Renowned Speakers

Biofuels 2022

Biofuels 2022
 
Conference Series LLC Ltd invites all participants across the world to join Annual Congress on Biofuels and Biopolymers which is going to be held during May 28-29, 2022 Vancouver, Canada.
 
The theme of the conference “Innovative Challenges in the real-world of Biofuels”. Scientific Tracks designed for this conference will enable the attendees and participants to learn extremes.
 
Biofuels 2022 is a trending event which brings together efficient international Chemical, Electrical & Electronics Engineers, Mechanical Engineers, Civil Engineers, Environmental Engineers and Biofuels and biopolymers professionals, designers who are related to those topics are making the congress a perfect platform to share experience, gain and evaluate emerging technologies in Biofuels and Biopolymers across the globe. Initiation of cross-border co-operations between scientists and institutions will be also facilitated. This conference provides two days of great opportunity to discuss on recent approaches and advancements for development of new techniques for Biofuels.
 
Details of Biofuels 2022:
 
Conference Name : 3rd Annual Congress on Biopolymers and Biofuels
Date: May 28-29 2022
 
Importance & Scope:
 
The field of Biofuels and Biopolymers have not only helped the development in different fields in science and technology but also contributed towards the improvement of the quality of human life to a great extent. All this has become possible with the different discoveries and inventions leading to the development of various applications. The core aim of Biofuels 2022 conference is to provide an opportunity for the delegates to meet, interact and exchange new ideas in the various areas of Biofuels and Biopolymers.
 
Why to attend Biofuels 2022?
 
Biofuels and Biopolymers Conference paves a platform to globalize the research by installing a dialogue between industries and academic organizations and knowledge transfer from research to industry. Biofuels 2022 aims in proclaim knowledge and share new ideas amongst the professionals, industrialists and students from research areas of Biofuels and Biopolymers to share their research experiences and indulge in interactive discussions and special sessions at the event.
 
Target Audience:
 
Eminent Scientists/Research Professors in the field of Biofuels and Biopolymers
Junior/Senior research fellows in Biofuels and Biopolymers
Directors of Engineering companies
Chemical, Electrical & Electronics Engineers, Mechanical Engineers, Civil Engineers, Environmental Engineers
Members of different Biofuels and Biopolymers associations.
 

Track 1: Advanced Biofuels and Biopolymers

Advanced biofuels are fuels which will be processed from various varieties of biomass. First generation biofuels are processed from the sugars and vegetable oils fashioned in tillable crops, which may be swimmingly extracted applying standard technology. In comparison, advanced biofuels are made from lignocellulose biomass or woody crops, agricultural residues or waste, which makes it tougher to extract the requisite fuel. Advanced biofuel technologies have been devised because first generation biofuels manufacture has major limitations. First generation biofuel processes square measure convenient however restrained in most cases: there's a limit on top of that they can't yield enough biofuel while not forbidding food provides and variety. Many first-generation biofuels have faith in subsidies and don't value competitive with prevailing fossil fuels like oil, and some of them yield only limited greenhouse gas emissions savings. When considering emissions from production and transport, life-cycle assessment from first-generation biofuels typically approaches those of ancient fossil fuels. Advanced biofuels can aid resolving these complications and can impart a greater proportion of global fuel supply affordable, sustainable and with larger environmental interests.

Biopolymers are polymers made by living organisms; in alternative words, they’re compound biomolecules. Biopolymers contain monomeric units that are covalently guaranteed to make larger structure. There are 3 main categories of biopolymers, classified in keeping with the monomeric units used and therefore the structure of the biopolymers formed; polynucleotides(RNA and DNA), that square measure long polymers composed of thirteen or a lot of ester monomers, polypeptides that are short polymers of amino acids and polysaccharides, that are usually linear guaranteed compound macromolecules structure. Other samples of biopolymers embody rubber, suberin and animal pigment polymer.

Track 2:  Renewable Energy

Renewable Energy is usually printed as any energy resource’s which is able to be naturally renew or regenerated over a quick time which is directly derived from the sun (solar energy),indirectly from sun like wind energy, hydropower energy, bioenergy ,or from alternative mechanisms of natural resources (geothermal energy, periodic event energy).Renewable energy solely embraces energy derived from organic and natural resources it doesn’t include inorganic resources.REN21 is associate energy policy network that brings government and non-governmental organisation on and completely different organisations to be told from one another and build successes before renewable energy. Renewable energy that is replaced by a method, because the rate of process is quicker the speed is consumed. Renewable energy is energy that's generated from natural processes that area unit ceaselessly replenished. This includes daylight, geothermal heat, wind energy, tides, water, and various forms of biomass. This energy can't be exhausted and is continually revived. Biomass, could be a renewable organic matter, and may embrace biological material derived from living, or recently living organisms, like wood, waste, and alcohol fuels.

Track 3: Algae Biofuels and fossil fuels

Aviation biofuel is a biofuel utilized for aircraft. It is reckoned by some to be the paramount means by which the aviation industry can diminish its carbon footprint. After a multi-year technical analysis from aircraft makers, engine manufacturers and oil companies, biofuels were advocated for commercial use in July 2011. Since then, some airlines have evaluated with using of biofuels on commercial flights. A fuel could also be a fuel formed by natural processes, like anaerobic decomposition of buried dead organisms, containing energy originating in ancient activity. Such organisms and their succeeding fossil fuels usually have AN age of numerous years, and generally over 650 million years. Fossil fuels contain high percentages of carbon and embody crude, coal, and gas. Commonly used derivatives of fossil fuels embody lamp oil and gas. Fossil fuels vary from volatile materials with low carbon-to-hydrogen ratios (like methane), to liquids (like petroleum), to non volatilisable materials composed of nearly pure carbon, like anthracite.  Methane may be found in organic compound fields either alone, related to oil, or within the variety of gas clathrates.

Track 4: Recycling and Waste Management of polymers

Biobased biopolymers offer advantages not only on the raw materials side but also on the disposal side through certain promising end-of-life (EOL) options. Especially waste disposal with energy recovery has an added benefit, which lies in gaining carbon neutral energy while allowing multiple uses after possible recycling. The Commission said that all of the composts containing biodegradable polymer materials could be classified using a risk assessment system at a higher toxicity level. Biodegradable biopolymer waste can be treated by aerobic degradation, composting, or anaerobic digestion .When biopolymers are composted or digested, their individual elements are recycled naturally, in particular their carbon and hydrogen content.

Track 5: Biopolymers in Biomedical Applications

Polymers have become a necessary commodity of everyday life and are used for manufacturing of hundreds of things of our daily use from house hold items to transportation and communication. Polymers are also used in medicine; however, all the polymers cannot be used for this purpose. For medical applications, a polymer should have the following properties: (a) bio-safe and non-toxic which means that it should be non-carcinogenic, non-teratogenicity, non-mutagenic, non-cytotoxic, non-pyrogenic, nonhemolytic, non-allergenic and chronically non-inflammative etc. (b) must be effective in terms of functionality, durability, and performance (c) must be interfacial, mechanically and biologically biocompatible and (d) sterilizable through different techniques like autoclave, dry heating, electron beam irradiation etc. It should also be chemically inert and very stable i.e. it should not decay or disintegrate to give obnoxious toxic products with the passage of time especially when it is intended to be implanted within body.

Track 6: Biopolymers in Biofibers & Microbial Cellulose

Cellulose the most generous natural biopolymer on the earth, synthesized by plants, algae and also some species of bacteria and microorganisms. The Plant by-product polysaccharide and Black Carbon (BC) have an equivalent chemical composition however disagree in structure and physical properties. The BC network structure comprises cellulose Nano fibrils 3-8 nm in diameter, and the crystalline regions are been the normal cellulose I. The properties such as the Nano metric structure, unique physical and mechanical properties together produce higher purity that lead to great number of commercial products. Lingo cellulosic agricultural by products area unit an intensive and low cost supply for polysaccharide fibers. Agro-based Biofibers have the design, properties and style that build them appropriate to be used as composite, textile, pulp and paper manufacture.

Track 7: Synthetic polymers, Nano polymers and Nanotechnology

Nanopolymers with different structures, shapes, and functional forms have recently been prepared using several techniques. Nanopolymers are the most promising basic building blocks for mounting complex and simple hierarchical nanosystems.

 Synthetic polymers are human-made polymers. From the utility point of view they can be classified into three main categories: thermoplastics, elastomers and synthetic fibers. They are found commonly in a variety of consumer products such as honey, glue, etc

Track 8: Future & Scope of Biopolymers, Biofuels

In search of novel Advanced Materials solutions and keeping an eye on the goal of sustainable production and consumption, bioplastics have several (potential) benefits. The use of renewable resources to produce bioplastics the key for increasing resource productivity, the resources can be cultivated on an (at least) annual basis, the principle of cascade use, as biomass can primarily be used for materials and then for energy generation, a reduction of the carbon footprint and GHG egressions of some materials and products – saving fossil fuels resources, and for substituting them step by step.

The use of biopolymers could markedly increase as more durable versions are developed, and the cost to manufacture these bio-plastics continues to go fall. Bio-plastics can replace conventional plastics in the field of their applications also and can be used in different sectors such as food packaging, plastic plates, cups, cutlery, plastic storage bags, storage containers or other plastic or composite materials items you are buying and therefore can help in making environment sustainable. Bio-based polymeric materials are closer to the reality of replacing conventional polymers than ever before. Nowadays, biobased polymers are commonly found in many applications from commodity to hi-tech applications due to advancement in biotechnology and public awareness.

Track 9: Biogas and BioDiesel

Biogas commonly refers to a mixture of various gases formed by the disintegration of organic matter in the absence of oxygen. Biogas can be manufactured from raw matters such as agricultural waste, municipal waste, manure, plant material, green waste, and sewage or food waste. Biogas is a renewable energy source and in diverse cases exerts a limited carbon footprint. Biogas can be manufactured by fermentation of biodegradable materials or anaerobic digestion with anaerobic organisms, which disintegrates material inside an isolated system. Biogas is basically methane (CH4) and carbon dioxide (CO2) and may have small traces of hydrogen sulfide (H2S), siloxanes and moisture. 

Biodiesel indicates an animal fat-based or vegetable oil diesel fuel comprising of long-chain alkyl (methyl, ethyl, or propyl) esters. Biodiesel is customarily made by chemically reacting lipids (e.g., soybean oil, vegetable oil, animal fat (tallow)) with an alcohol generating fatty acid esters. Biodiesel is suggested to be utilized in standard diesel engines and is thus well-defined from the vegetable and waste oils used to operate fuel converted diesel engines. Biodiesel can be used singly, or blended with petrodiesel in any proportions. Biodiesel blends can also be utilized as heating oil.

Track 10: Biomass Technologies

Several technologies for converting bioenergy are commercial today while others are being piloted or in research and development. There are four types of conversion technologies currently available, each appropriate for specific biomass types and resulting in specific energy products such as Thermal Conversion, Thermochemical conversion, Biochemical conversion, Chemical conversion. The Biomass Technologies include Liquid Biofuels from Biomass and Cellulosic Ethanol from Biomass.

Track 11: Bioalcohols and Bioethanol

Biologically synthesized alcohols, most frequently ethanol, and rarely propanol and butanol, are formed by the reaction of microorganisms and enzymes through the fermentation of sugars or starches, or cellulose. Biobutanol (also called biogasoline) is often asserted to provide a direct stand-in for gasoline because it can be used precisely in a gasoline engine. Ethanol fuel is the most widely used biofuel worldwide. Alcohol fuels are formed by fermentation of sugars derived from wheat, sugar beets, corn, molasses, sugar cane and any sugar or starch from which alcoholic liquors such as whiskey, can be produced (such as potato and fruit waste, etc.). The ethanol manufacturing methods applied are enzyme digestion (to release sugars from stored starches), distillation, fermentation of the sugars and drying. Ethanol can be used in petrol engines as a substitute for gasoline; it can be blended with gasoline to any concentration. Current car petrol engines can operate on mixes of up to 15% bioethanol along with petroleum/gasoline. Ethanol has lesser energy density than that of gasoline; this implies that it takes more fuel to generate the same amount of work. An asset of ethanol is its higher octane rating than ethanol-free gasoline accessible at roadside gas stations, which permits the rise of an engine's compression ratio for increased thermal efficiency. In high-altitude locations, some states direct a mix of gasoline and ethanol as a winter oxidizer to lower atmospheric pollution emissions.

Track 12: Green Composites in Biopolymers

Whole green composites are the composite materials that are made from both renewable resource based polymer (biopolymer) and biofiller. Whole green composites are recyclable, renewable, triggered biodegradable and could reduce the dependency on the fossil fuel to a great extent when used in interior applications. Whole green composites could have major applications in automotive interiors, interior building applications and major packaging areas. Despite the large number of recent reviews on green composites defined as biopolymers or bio-derived polymers reinforced with natural fibers for bioprocessing of materials, limited investigation has taken place into the most appropriate applications for these materials.

Track 13: Biomaterials and Biocomposites

Biocomposites is an preparation material shaped by a network and a funding of characteristic filaments. Green composite are detached as a bio composite consolidated by steady filaments with biodegradable pitches. They are called green complexes, significantly in light of their degradable and cost-effective properties, which can be effortlessly arranged without hurting the earth. On account of its durability, green composites are significantly used to expand the life cycle of matters with short life. An substitute class of Biocomposites called crossover bio composite which be contingent on various kinds of filaments into a solitary grid. The strands can be concocted or characteristic, and can be arbitrarily joined to produce the hybridization.

Track 14: Biodegradable Plastics Applications

Bio plastics or biodegradable plastics are by chemical nature polyhydroxy alkanoates or PHAs. They are currently being produced in large amount by microbial fermentation process in industries. Among all the polyhydroxy alkanoates, polyhydroxy butyrate or PHB is the most important one as bio plastics. 

The conventional plastics, made from coal or oil are not biodegradable. They survive 100s of years and are a major source of environmental pollution, often resulting in ecological imbalance. A heavy demand for biodegradable plastic materials has generated in the modern world. There are some attempts to chemically synthesise biodegradable polyesters such as polylactic acid and polyglycolic acid. The production of polyhydroxy alkanoates by fermentation is the preferred process for production of biodegradable plastics. 

Biodegradable plastics can be composed of bio-plastics, which are plastics made from renewable raw materials. There are normally two forms of biodegradable plastic, injection molded and solid. The solid forms normally are used for items such as food containers, leaf collection bags, and water bottles.

Bioplastics can also be processed in very similar ways to petrochemical plastics such as injection moulding, extrusion and thermoforming. To improve their tensile strength, bioplastic polymers can be blended with their co-polymers or with other polymers

Track 15: Bioenergy, Biomass and Bioinformatics

Bioenergy is renewable energy made accessible from materials acquired from biological origin. Biomass is any organic matter which has deposited sunlight in the form of chemical energy. As a fuel it may comprise wood, straw, wood waste, sugarcane, manure, and many other by-products from different agricultural processes. In its most exclusive sense it is a synonym to biofuel, which is fuel obtained from biological sources. In its wider sense it includes biomass, the biological matter utilized as a biofuel, as well as the social, scientific, economic and technical fields related with utilizing biological sources for energy. This is a common misbelief, as bioenergy is the energy cultivated from the biomass, as the biomass is the fuel and the bioenergy is the energy stored in the fuel.

Biomass is organic matter extracted from living, or recently living organisms. Biomass can be utilized as a source of energy and it most often directs to plants or plant-based matter which are not used for food or feed, and are precisely called lignocellulosic biomass. As an energy source, biomass can either be used directly via combustion to produce heat, or secondarily after transforming it to numerous forms of biofuel. Conversion of biomass to biofuel can be attained by various methods which are mainly categorized into: thermal, chemical, and biochemical methods. Biomass is a renewable source of fuel to yield energy since waste residues will always prevail – in forms of scrap wood, mill residuals and forest resources and properly directed forests will always have additional trees, and we will invariably have crops and the unconsumed biological matter from those crops.

The demand for secure, sustainable and clean energy supply is expected to propel the demand for biofuels across the globe. On account of higher mandates for biofuel blending in automotive fuels and increasing government support for eco-friendly alternatives, the global consumption of biofuel is expected to further grow at a significant level during the forecast period. Biofuels (ethanol and biodiesel) represent the majority share of renewables in global energy demand for road transport. Demand for bioenergy in the transportation sector is driven by blending mandates in significant economies and by sustained fuel use around the world. The global ethanol and biodiesel prices continued to decrease in nominal terms in 2015, owing to weak crude oil and biofuel feedstock prices. However, with recovery in both crude oil and biofuel feedstock prices, international prices of ethanol and biodiesel are expected to recover during the forecast period. The United States, China, and Brazil are expected to exhibit maximum growth during the forecast period due to their mandates of biofuel blending. China is the most promising market for biofuels due to increasing energy security concerns and commitment to reduce the carbon emission levels. The demand for biofuel has significantly increased over the past decade by policies, such as the Renewable Energy Directive (RED) and the Fuel Quality Directive of the European Union region, which has introduced a 7% renewable energy coming from food and feed crops in the transport sector by 2021. Moreover, the ambitious mandates set by various countries to blend biofuels with conventional fuels, to lessen the dependency on fossil fuels, has further boosted the demand for biofuels across the world. According to the blending mandates set by the US, China, and Brazil, 15-27% blend of biofuels with conventional fuel by 2020-2022. This reform is expected to drive global demand in the respective regions. Moreover, to achieve the ambitious target, countries, such as the US, Germany, France, and Italy have implemented fuel excise tax reduction to help biofuel to compete with fossil fuels. These reforms promote the use of biofuel blend with conventional fuels. In addition, low carbon energy targets and related policies are being set up to encourage the usage of biofuels. Abengoa Bioenergy S.A., Cargill, Incorporated, BTG International Ltd, DuPont, Wilmar International Ltd, Renewable Energy Group, Inc., POET, LLC, Archer Daniels Midland Company, VERBIO Vereinigte BioEnergie AG, My Eco Energy, China Clean Energy Inc., CropEnergies AG, amongst others.

Importance& Scope:

Biofuels have been increasingly explored as a possible alternative source of fuel and represent a key target for the future energy market that can play an important role in maintaining energy security. It is primarily considered as potentially cheap, low-carbon energy source. Increasing energy demand, climate change and carbon dioxide (CO2) emission from fossil fuels make it a high priority to search for low carbon energy resources. Biofuels have been increasingly explored as a possible alternative source of fuel and represent a key target for the future energy market that can play an important role in maintaining energy security. It is primarily considered as potentially cheap, low-carbon energy source. Bioenergy- 2016 is the event designed for the International professionals to facilitate the dissemination and application of research findings related to Bioenergy as replacement fuels. It is a scientific platform to meet fellow key decision makers all-around the Biotech organizations, Academic Institutions, Industries, & Environment Related Institutes etc., and making the congress a perfect platform to share and gain the knowledge in the field of bioenergy and biofuels. Biofuels -2015 is a platform to gather visionaries through the research talks and presentations and put forward many thought provoking strategies of production and scale up of renewable Energy and making the congress a perfect platform to share proficiency.

Why it is in Vancouver?

Vancouver is a coastal harbour town in western Canada, placed within the Lower terra firma region of British Columbia. As the most inhabited town within the province, the 2016 census recorded 631,486 folks within the town, up from 603,502 in 2011.The bigger Vancouver space had a population of two 463,431 in 2016, creating it the third-largest metropolitan space in Canada. Vancouver has the very best population density in Canada, with over five,400 folks per sq.kms, that makes it the fifth-most densely inhabited town with over 250,000 residents in North America, behind the big apple town, city, San Francisco, and Mexico City consistent with the 2011 census. Vancouver is one among the foremost ethnically and lingual numerous cities in Canada consistent with that census; fifty two of its residents have a primary language apart from English.48.9% haven either English or French as their first language. Approximately half-hour of the city's inhabitant’s arc of Chinese heritage.

Why to attend?

Annual Congress on Biofuels and Biopolymers which is going to be biggest platform for everyone who attends this conference. In this forum all the information about Biofuels is going to be delivering in a smooth and well manner. How to save, how to use these resources can discuss here. The motto of 100% Biofuels can discuss on how to improve so that all the country across the globe can use it. Biofuels 2021 is an exciting opportunity to showcase the new products of your company, the new technology, and the service your industry may offer to a broad international audience. Its conduct workshops, distribute new information, meet with current and potential customers, give a touch to a new product line, and receive name recognition at this 2-days event. World-renowned speakers, the most recent techniques and the advanced updates in environment are hallmarks of this conference.

Visa Application Documents You should only apply for business visas to attend and attend conferences. Contact your nearest Madrid, Spain Travel Agency/Visa Information Center/Embassy for the correct application form.

All visas for the visit to Madrid, Spain are processed by the respective embassy authorities in the correct way only after the presentation of the corresponding documents.

If no documents are provided or if the guidelines are not followed, the competent authorities hold the right to reject/cancel the visas.

The minimum documents that may be required when applying for the visa from / Madrid, Spain include:

  • Official Letter of Invitation
  • Letter of Acceptance/Approval for abstracts (if you are a speaker)
  • Proof of payment receipt for registration
  • Hotel Booking Confirmation Letter for accommodation issued on conference letterhead

Note: For the Letter of Invitation and Accommodation Confirmation, payment of registration and accommodation fees is a prerequisite. Please contact us for more information

Advantages of Participating at our conference:

  • As an add on advantage the Speaker & Abstract pages created in Google on your profile under your name would get worldwide visibility
  • Our robust online publicity attracts 20000+ users and 60000+ views to our Library of Abstracts which brings worldwide exposure to the researchers and speakers participate in our conferences
  • All the conference participants can earn up to 16-18 CME Credits by participating at our Clinical Cardiology  Conference scheduled as a Webinar.
  • To attain professional development we offer our participants a chance to earn up to 21 CPD Credits authorized by CPD Standards Office, UK by participating at our Cardiology  Conferences.
  •  All the conference participants will be awarded with IOCM Certification.
  •  All the conference participants will have an unique opportunity to participate at One on One Meeting with Eminent Speakers
  •  A Unique opportunity to hear what the global researchers are talking about at our Keynote sessions by world’s most eminent researchers in the field of  Cardiology.
  • Top Industries Representation of Industrial Leaders, where you get a great opportunity to meet and discuss with the Industrial Leaders in person
  • Thought provoking Symposia’s
  •  Workshops on Carrier Development
  •  Preconference workshops in all major countries
  •  Nominations for Best Poster Award
  •  Outstanding Young Researcher Award
  •  Group Registration benefits

Benefits of Participation | Speaker

  • Explore the best in Cutting edge Research
  • Worldwide acknowledgment of Researcher’s profile
  • Obtain professional development credits
  • Your presence and talk will be recorded and hosted on YouTube and Vimeo which in turn will gain potential value to your research profile.
  • Make Lasting connections at Networking and Social Events
  • We provide unique convergence of Networking, Learning and Fun into a single package
  • An opportunity to give One page advertisement in abstract book and flyers distribution which eventually gets 1 Million views and add great value to your research profile
  • Learn beyond your field of interest, a change to know more about the new topics and research apart from your core subject

Benefit of Participation | Sponsor

  • Worlds No1 Platform to show case  Cardiology  Products
  • Exposure to the international atmosphere will increase the odds of getting new business
  • Opportunity to showcase the new technology, new products of your company, and/or the service your industry to a broad international audience
  • Attain with an exceptional format in showcasing the products and services and to gain the potential clients for the future business prospects
  • Our Cardiology Conference in the One and only location to reach the top customers
  • Make new connections and fostering potential partnerships
  • Increase your business by lead generation through our conference participants.
  • Build a successful business takes a lot of time, effort and drive, so it’s always good to have a network of colleagues and associates to draw energy from people who share a similar drive and objective.
  • Flip side of learning new things is relearning classic techniques. Cardiology conferences create opportunities for greater focus and reflection that could help you take your business to the next level.
  • Benchmarking key strategies for business and moving it forward
  • Get answers to your business questions and challenges from credible individuals at our conference
  • Exposure and Networking Opportunity with the various top decision makers of the respective organizations, will eventually grow your business in Global market
  • Get to know more about your competitors are first-hand, learn more about their businesses, and discover their strengths and weaknesses, all of which can add to your business’s competitive edge.
  • Encounter new vendors and suppliers for your business
  • Real Benefits in New business - Many Organizations make deals and sign contracts at our Neurology Conference
  • We offer you the Website visibility to more than 35K visitors in less than 6 months
  • Promotional logo of your organisation at our conference banner, website and other proceedings, branding and marketing material
  • Hosting session slots, poster awards, recognition in opening ceremony and complimentary registrations, exhibition/workshop booth, low-budget options.

Benefit of Association for Collaborators

  • No one in the world have this huge visitors towards Cardiology, these is the best platform to show case your society.

    Create long-lasting relationships with the peers

  • Promotional content and Logo of your Association at our conference banner, website and other proceedings, branding and marketing material will increase your subscribers/Members number by 20 %.
  • Our Website visibility to your Organization page can give a great impact for your association in the Global Market.
  • Your representatives can network with key conference delegates to update their knowledge and understanding of your organization and services.
  •  Details will be added to the conference press release where the details will be shared to < 100000 outlets
  •  Details will be incorporated in all conference promotional materials which will be distributed to Hospitals, Universities, Society and Researchers

Benefits of Participation | Delegate

  • Helps to meet Experts & Influencers Face to Face.
  • Opportunities to meet researchers and experts of same field and share new ideas
  • Can help to know New Tips & Tactics
  • Professional Development – Elevate your knowledge and Skills
  • Conference attendance inspires, rejuvenates, and energizes delegates
  • Your participation at our conference will be helpful for a new approach and ideology that can be utilized for the extending the outcome of Companies or Industries.
  • Enjoy the alluring city environment where the conference is being held.
  • Raise your profile by being well-known

 

To share your views and research, please click here to register for the Conference.

To Collaborate Scientific Professionals around the World

Conference Date May 28-29, 2022
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