search form

search form
Bioenergy and Biomass Laboratory (BIOENERGY)
Date of Last update : 2019.02.28 Rivision Request
Photos
Hosting Legal Entity
Research Institute for Analytical Instrumentation
Type Of RI
Single-sited
Location
67, Donath Str., Research Institute for Analytical Instrumentation, Cluj-Napoca, PO: 400293, Cluj (Romania), Romania
Coordinating Country
Romania
Life Cycle Status
Construction since 2012
Mission and objective
The increased awareness regarding the depletion of energy sources in the context of a significant climate change due to greenhouse gas emissions has led to the escalation of the number of those calling for the implementation of sound policies in order to achieve sustainable development at both national and European level. Promoting energy from renewable sources is a timely must.The role of BIOENERGY Research Infrastructure is to build and support sustainable development through research and innovation in the field of Bioenergy – Biomass – Biofuels in the context of knowledge-based economy. The specific aim of BIOENERGY is to enable researchers to have access to high-level experimental facilities and services, encouraging and facilitating cooperative research.BIOENERGY promotes a favorable climate for research & innovation, entrepreneurship and stimulating cooperation between business and research in order to exploit the research results. Through BIOENRGY, the specialists from research institutes, academic or SMEs have access to a remarkable endowment corresponding to the multidisciplinary character of research - design, specific to working teams, allowing the approach of the project from the research phase up to the technology transfer.BIOENERGY represents a real support for Romanian and European researchers aimed to increase the scientific performance by obtaining scientific top results, national and international competitive, because research and development of biofuels, installation and technologies that meet environmental standards are a must of our days. One important attribute of the BIOENERGY Research Infrastructure is represented by the strong interactions existing between the chemists, engineers, physicists which ensure an integrated approach to studying the complex problems related to bioenergy – biomass - biofuels.The BIOENERGY research infrastructure, namely the existing specialists and equipment, represents real opportunities in answering both the current scientific challenges of the alternative fuel technologies and the science of environmental impacts and mitigation that are related with energy conversion processes. Work ranges from experimental models (technologies and installation) to pilot models (technologies and installations) and technology transfer.Issues that can be addressed in the BIOENERGY framework: oBiofuels of 3rd and 4th generation.oThe impact of biofuels use & obtaining on biodiversity. oDevelopment of green pre-treatment technologies to ensure the improvement of lignocellulosic biomass potential.oDeveloping ICIA technology for obtaining biogas for efficiency increase.oValorification of byproducts resulted in the biofuels obtaining process.oDevelopment of innovative photovoltaic cells. oInventory and determination of greenhouse gases on biofuel chain: raw materials – biofuel obtaining– deployment – biofuel use.oUnderstanding the long-term fate of geologically stored CO2.oOptimising the integration of CO2 capture into power plants.oNew CO2 storing methods.oNew methods for obtaining and capturing bio-hydrogen.oGrowth assessment of microalgae for biofuels productionoDevelopment of technologies for microalgal biofuel production
RI Keywords
Bioenergy,Biomass,Biofuels
RI Category
Energy Engineering Facilities (non nuclear)
Scientific Domain
Engineering and Energy;Chemistry and Material Sciences
Access WebPage
http://www.icia.ro/bioenergy

Service

- Biofuels Analysis

Biodiesel analyses according to EN 14214: Ester Content, Density At 15°C, Viscosity at 40°C, Flash Point, Sulphur Content, Carbon Residue Conradson (CCR), Setane Number, Octanic Number, Water Content, Total Contamination, Copper Strip Corrosion, Sxidation Stability at 110oc, Acid Value, Iodine Value, Linoleic Acid Methylester (C18:3), Methanol Content, Monoglyceride Content, Di- and Triglyceride Content, Free Glycerol, Alkaline Metals, Phosphorus Content, Calorific Value, Cloud Point, Cold Filter Plugging Point (CFPP), Total Biodiesel Content in Dieselfuel. Bioethanol analyses according to SR EN 15376: Alcoholic strength, Saturated higher alcohols content (C3-C5), Methanol content, Water content, Inorganic chloride content, Copper content, Total acidity, Appearance, Phosphorus content, Total dry extract, Sulfur content