Call for Abstract
Scientific Program
4th International Conference on Renewable and Smart Energy Resources, will be organized around the theme ““Generation of Energy for Regeneration of Sustainable Future—
Renewable Energy 2022 is comprised of 13 tracks and 3 sessions designed to offer comprehensive sessions that address current issues in Renewable Energy 2022.
Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.
Register now for the conference by choosing an appropriate package suitable to you.
Renewable energy source is continuity that is produced from normal procedures that are endlessly recharged. This consolidates sunlight, geothermal heat, wind, tides, water, and different types of biomasses. This Energy can't be depreciated and is constantly recharged. Technologies range solar power, wind power, hydroelectricity/micro hydro, and biomass and biofuels for freightage. The utilization of Renewable fuels dates to Delictum’s times, when cave occupant made fire from wood and different biomass for cooking and heating. For a large number of years from that point, sustainable power commencement was all people promote. The little measures of endurance available to people through customary sprinkled sustainable power sources implied that for centuries, human lives stayed constant.
- Track 1-1Hybrid Power & Energy System
- Track 1-2Clean and Renewable Energy
- Track 1-3Renewable Energy Utilizations
- Track 1-4Energy-Saving Technology
- Track 1-5New Energy Applications
- Track 1-6Hybrid energy systems
- Track 1-7Market analysis and trends on Renewable Energy
The earth appropriate lots of solar power, 173 trillion terawatts to be explicit. That's precisely ten thousand more power than the entire world population exploit. This endorse the fact that the sun is the most unlimited source of energy on the entire globe and that it could one day be the most susceptible source of energy. Combination of solar, wind power is an alternative approach to producing clean, non-polluting energy from two of the most generous renewable energy sources. This system uses a hybrid solar panel and wind turbine alternator to create electricity which is then stored in batteries.
- Track 2-1Solar Fuel and Photovoltaic
- Track 2-2Solar Thermal Energy
- Track 2-3Solar & Wind Power Technology
- Track 2-4Solar & Wind Farm Development
- Track 2-5Wind Energy Storage
- Track 2-6Wind Turbine Applications and Designs
- Track 2-7Advances in Solar Cell Technology
Marine energy or marine power (also sometimes accredit to as ocean energy, ocean power, or marine and hydrokinetic energy) refers to the energy carried by ocean waves, tides, salacity, and ocean temperature differences. The evolution of water in the world's oceans creates a vast store of kinetic energy, or energy in motion. Some of this energy can be exploited to generate electricity to power homes, transport, and industries.
The term marine energy encircles both wave power i.e., power from surface waves, and tidal power i.e., access from the kinetic energy of large bodies of moving water. Offshore wind power is not a form of marine energy, as wind power is derivational from the wind, even if the wind turbines are placed over water.
The oceans have an astounding amount of energy and are close to many if not most evaporated populations. Ocean energy has the potential of providing a consequential amount of new renewable energy around the world.
- Track 3-1Fuel efficiency
- Track 3-2Energy Engineering
- Track 3-3Marine fuel management
- Track 3-4Wave Power
- Track 3-5Tidal Turbines
- Track 3-6Ocean Current Turbines
- Track 3-7Ocean Thermal Energy
Bioenergy is the single biggest renewable energy source today, giving 10% of world indispensable energy supply. It plays a essential role in many developing nations, where it gives basic energy to cooking and space warming, yet intermittently at the cost of extreme well-being and ecological effects. The agreement of cutting-edge biomass cook stoves, spruce fills and additional off-grid biomass power supply in creating nations are key amplification to enhance the present circumstance and attain all-inclusive access to clean energy dexterity by 2030. Biofuels and Biomass are the prerequisite elements of Bioenergy. Sufficient Storage for Bioenergy is necessary to entertain production and ensure supply to biomass utilization plant.
- Track 4-1Biomass Industries & Application
- Track 4-2Biogas & Landfill Gas
- Track 4-3Advanced Biofuels Technology
- Track 4-4Bioenergy In Integrated Energy System
- Track 4-5Greenhouse Gas Balances of Biomass & Bioenergy System
- Track 4-6Processes for Bioenergy
- Track 4-7Ocean Thermal Energy
- Track 4-8Bioenergy Efficiency & Storage
Endurable Development is the sorting out a guideline for meeting human enhancement objectives while in the meantime controlling the capacity of common frameworks to give the normal assets and organic system legislation whereupon the economy and society depend. Sustainable energy is clean and can be appropriate over a drawn out stretch of time. Not at all like petroleum outgrowth and biofuels that give the consignment of the universe’s continuity, sustainable power sources like hydroelectric, sun powered and the wind has continuity conveyed far less pollution. Solar energy is commonly utilized on open stopping meters, road lights and the top of structures. Wind control has elongated immediately, its offer of overall power use toward the finish of 2014 was 3.1%.
- Track 5-1Sustainable Energy & Environment
- Track 5-2Green Manufacturing & Infrastructures
- Track 5-3Agricultural Sustainability
- Track 5-4Zero Energy Building
- Track 5-5Waste Management
- Track 5-6Energy Security & Clean Use
Power Engineering is a stifled of Energy Engineering and Electrical Engineering that preparations with the generation, conveyance, distribution and usage of electric force and the electrical apparatus associated with such frameworks including alternator, engines and transformers. However, a great part of the field is concerned with the issues of three-phase AC power - the standard for acceptable scale power generation, transmission and promulgation over the cutting edge world - a conspicuous division of the field is worried with the change between AC and DC power and the improvement of particular power systems for example, those utilized in aircraft or for electric railway networks. The Power Systems were getting more productive with taking a break and have turned into a center region of the Electrical Engineering field.
- Track 6-1Energy Transmission and Distribution
- Track 6-2Electricity Networks of the Future
- Track 6-3Energy Storage Technologies & Devices
- Track 6-4Power & Energy Generation
- Track 6-5Power Systems & Automation
- Track 6-6Fault Monitoring & Predictive Maintenance
A Smart Grid may be a comprehensive decision that employs a broad vary of knowledge technology assets, authorizing existing and new gridlines to cut back electricity waste and energy prices. Smart grids are going to be a crucial foundation for the embodiment of renewable energy into the electrical grid. Since renewable sources like star and wind square amplification variable, it'll be fundamental to possess a demand- a compassionate electrical grid that uses energy expeditiously. Smart grid technologies have infinite applications and modification, together with sensible meters in individual homes to the power to access variable and distributed sources of energy based mostly upon demand and availableness. Astute meters empower electricity shoppers to use energy sustained value signals given as rates fluctuate
- Track 7-1Smart Grids Modeling
- Track 7-2Smart Grid Networks, Reliability & Recovery
- Track 7-3Smart Sensors & Advanced Metering Infrastructure
- Track 7-4Impact of Smart Grid on Energy Resources
- Track 7-5Smart Grids Technologies
- Track 7-6Smart Grids Applications & Challenges
- Track 7-7 Smart Grid Deployment & Demonstration Projects
Waste-to-energy or energy-from-waste is that the method of generating energy within the type of electricity and/or heat from the first treatment of waste. Waste-to-energy may be a type of energy recovery. Most Waste-to-Energy proceeding manufacture electricity and/or heat directly through combustion, or manufacture flammable fuel goods, like gas, methanol, alcohol, or artificial fuels. There are over 100 thermal treatment plants victimization comparatively novel processes like direct smelting, the Ebara fluidization method and also the Thermo- select -JFE and melting technology process. Waste to energy technology incorporates aging, which may take biomass and make liquor, exploitation squander plastic or natural material. Inside the aging technique, the sugar inside the waste is changed to nursery outflow and liquor, inside a similar general strategy that is wont to assemble wine. Esterification additionally should be possible exploitation waste to vitality innovations, and furthermore, the consequences of this technique are biodiesel. Along these lines, the esteem adequacy of esterification can depend on the feedstock being utilized and each one the inverse important variables like transportation remove, amount of oil blessing inside the feedstock, and others.
- Track 8-1Groundbreaking Waste Treatment & Recovery Technologies
- Track 8-2Pyrolysis Process
- Track 8-3Landfill Gas Process Flows & Methane Emissions
- Track 8-4Energy from Municipal Solid Waste
- Track 8-5Waste to Energy Technology Market
- Track 8-6Utilization of Waste Materials
Green energy mainly associates natural energetic processes which will be disciplined with very little pollution. Anaerobic assimilation, geothermic power, wind power, small-scale hydropower, solar power, biomass power, periodic event power, wave power, and a few styles of atomic power belongs to the green energy. Green economy can be determined as an economy that aims at condensing environmental risks and ecological scarcities, which aims for estate development while not derogatory the atmosphere in keeping with the United Nations setting programmer. It firmly associated with environmental pecuniary science, however, contains a great deal of politically connected core interest. A green economy is thought of together that is low carbon, asset reactionary and socially far reaching. It firmly correlates with biological pecuniary science, however, contains an appreciable measure of politically connected core interest.
- Track 9-1Green Economy Sector
- Track 9-2Modeling Cyber-physical Smart Grids & Demand Response Management
- Track 9-3Utilization of Waste Materials
- Track 9-4Utilization of Waste Materials Energy Storage, Fuel Cell Technologies & Trends
- Track 9-5Electrical Vehicles, Grid to Vehicle (G2V) & Vehicle to Grid (V2G)
- Track 9-6Secure & Advanced Metering Infrastructure
- Track 9-7Solar Power Systems, Energy Management & Sustainability
Use of nanotechnology which combines the control of materials at the size of the nanometer to intriguing green standards is "Green nanotechnology". It correspondingly intimates to the utilization of the results of nanotechnology to upgrade conformity. Keeping up and augment soil, water, and air aspect speak to the absolute most commanding difficulties encountering worldwide society in the 21st century. Contagion from such assorted sources as oil and synthetic spills, pesticide and fertilizer overflow, abandonment modern and mining locales and airborne smoggy and particulate issue from cars worsen the coincidence once a day. Identifying and treating existing contaminants and counteracting new contagion are among the difficulties. Utilization of Nanomaterials in assorted fields, for example, enhance the creation and clarifying of energies and decrease of exoneration from cars, endurance stockpiling (batteries and Nano-empowered fuel cells), to give safe drinking water through enhanced water treatment, desalination, Nano-empowered protection and outline of Nano-materials for corruption distinguish and location.
- Track 10-1Nanotechnology in Energy Systems
- Track 10-2Green Nanotechnology
- Track 10-3Nanomaterials for Hydrogen, Fuel Cells & Thermal Energy
- Track 10-4Nanomaterials for Energy Conversion & Storage
- Track 10-5Treatment & Remediation
- Track 10-6Nanotechnology for Sustainable Energy Production
Energy Storage is the catch of endurance created at one time for use at a later time. A gadget that stores intensity is here and there called a gatherer. Energy comes in assorted structures including radiation, compound, gravitational potential, electrical potential, power, raised temperature, comatose warmth and dynamic. Energy Storage combines changing over vitality from frames that are hard to store to all the more usefully or financially storable structures. Mass Energy stockpiling is right now ruled by hydroelectric dams, both customary and also pumped. The vitality isn't put away accurately; however, the work-result of consume Energy (pumping ceaselessly warm) is put away, having the equitable impact on daytime utilization.
- Track 11-1Geothermal Electricity Production
- Track 11-2EIA Directive
- Track 11-3The Role of EIA in Decision Making Process
- Track 11-4Environmental Justice Challenges of Climate Change
- Track 11-5Social Impact Assessment
- Track 11-6Procedures & Evaluation Methods
- Track 11-7National Procedures Efficiency
Electric power systems consist of formation plants of different energy sources, conveyance networks, and distribution lines. Each of these segments can have environmental impacts at multiple stages of their advancement and use including in their construction, during the generation of electricity, and in their demilitarize and demolition. We can split these impacts into operational impacts (fuel sourcing, global atmospheric and localized pollution) and construction impacts (manufacturing, installation, demilitarize and demolition). This page looks entirely at the operational environmental impact of electricity formation. The page is organized by energy source and includes impacts such as water usage, ejaculation, local pollution, and wildlife displacement.
- Track 12-1Life-cycle assessment
- Track 12-2Electricity production
- Track 12-3Environmental impacts
Geothermal energy is the heat from the Earth. It's clean and viable. Resources of geothermal energy range from the trivial ground to hot water and hot rock found a few miles beneath the Earth's surface, and down even deeper to the exceedingly high temperatures of glowing rock called magma. Almost everywhere, the shallow ground or upper 10 feet of the Earth's surface maintains a nearly consistent temperature between 50° and 60°F (10° and 16°C).
Geothermal heat pumps can tap into this capability to heat and cool buildings. A geothermal heat pump system consists of a heat pump, an air delivery system (ductwork), and a heat exchanger-a system of pipes covered in the shallow ground near the building. In the winter, the heat pump removes heat from the heat exchanger and pumps it into the private air delivery system. In the summer, the process is converse, and the heat pump moves heat from the indoor air into the heat exchanger. The heat removed from the indoor air during the summer can also be used to arrange a free source of hot water. Many technologies have been advanced to take convenience of geothermal energy - the heat from the earth.
- Track 13-1Geothermal Heat Pumps
- Track 13-2Geothermal Electricity Production
- Track 13-3Geothermal Direct Use