| |||||||||||||||
ICSEEA 2018 : 6th 2018 International Conference on Sustainable Energy Engineering and Application | |||||||||||||||
Link: http://situs.opi.lipi.go.id/icseea2018/ | |||||||||||||||
| |||||||||||||||
Call For Papers | |||||||||||||||
Research Center for Electrical Power and Mechatronics, Indonesian Institute of Sciences (RCEPM-LIPI) is proud to present the 6th 2018 International Conference on Sustainable Energy Engineering and Application (ICSEEA), this conference to be organized in Serpong, Indonesia from November 1st and 2nd, 2018. The objective of the conference is to serve as the confluence point between experts in the academia, research center and industry to present their up-to-date research and works in areas sustainable energy to emerge tremendous benefits for meeting global sustainable needs. The event will be an ideal platform among the participants to interchange novel concepts and latest discoveries around the globe, providing groundwork for future linkages between research and business relations.
ICSEEA is attended by government representative, industrial company, international researchers, scientists, and practitioners in the fields of sustainable energy. PAPER SUBMISSION We invite submissions on renewable energy and sustainable transportation. Author should submit full technical papers in doc/docx format through EDAS system https://edas.info/N24587. Each paper will be double blind peer-reviewed by experts in the field for originality, contribution and soundness. Authors of accepted paper must guarantee that at least one of the authors will attend the conference and present their paper. In the event that the presenter is unable to attend the conference for any reasons, your accepted paper will not be considered for submission of the proceeding to the IEEE Xplore digital library. Use the IEEE format template to prepare your camera-ready manuscripts in doc/docx format (http://www.ieee.org/conferences_events/conferences/publishing/templates.html). Do not add any header or footer in your submission. SCOPE A. Renewable Energy Solar Power Photovoltaic technologies and system, photovoltaic material, solar radiation availability and variability, solar thermal technologies, thermal storage, solar heating and cooling, and solar building architecture. Biomass Energy Biomass potentials and characterization, landfill gas, biogas and syngas, oil-based-biofuel and biomass conversion technologies such as gasification, pyrolysis, anaerobic digestion, or solid fuel combustion. Hydro Energy Generators, turbines, electrical systems, system stability and reliability, assessment for power potential,simulation and optimization tools, hydropower infrastructure, and water management. Wind Energy Turbine/generator design, driving circuits, wind-speed explorations, geographic aspects, rotor and stator aerodynamics, permanent magnet generators, speed control, and cooling system. Hydrogen Energy Hydrogen production, material, electrolysis, storage system, fuel cell, and efficiency improvement. Tidal and Wave Energy Underwater transmission, generator design, tidal and wave explorations, and fluid dynamics. Geothermal Power Geothermal power plant, wells and pump modeling, piping engineering, steam field development, direct use ofgeothermal energy, and heat & mass transfer. Thermoelectric Waste heat contents, Resistive temperature detective materials and advanced semiconducting materials, Solid state thermoelectric devices, Utilization of electrical field, magnetic field and stress for thermoelectricity. Energy Conservation Smartgrid, energy mix, energy harvesting, cogeneration, combined cycle power plant, energy efficiency, green building, microgeneration, and climate change & forestry. B. Sustainable Transportation Electric and Hybrid Vehicle Plug-in hybrid electric vehicle, battery electric vehicle, hybrid electric vehicle, systems modeling, simulation and testing, energy management system, storagesystem, electronics control system, electric motor, propulsion & transmission, vehicle to grid, charging solution, aerodynamics, and fuel efficiency. Conventional Vehicle Internal combustion engine, emission analysis, safety analysis, fuel efficiency, combustion optimization, hybridization, homogeneous charge compression ignition, chassis platform, ergonomics and aerodynamics. Infrastructure and Support Charging point design and analysis, municipal fleet upgrades, maintenance and safety, grants and incentives,policy and regulation, intelligent infrastructure and guidance systems, infrastructure capacity management, parking management and electronic parking payments. Alternative Green Fuel Such as bioethanol, biogasoline, biokerosene, biohydrogen, LNG, LPG, CNG, and dimethyl ether fuel. Thetopic includes production processes, standard quality, technologies, handling and storage, and residues management. Traffic Management Traffic theory, modeling, and simulation, cloud computing for transportation, intelligent transport system, mass rapid transport, traffic management, traffic and communications networks, road charging, tolling and electronic toll collection, vehicle clearance and safety inspection. |
|