To develop a novel hybrid led/solar algal photobioreactor. This bioreactor will utilize advances in dye solar cells, light delivery and dispersion, and artificial illumination to greatly increase the effectiveness of pond biofuels' algal carbon conversion process.
A consortium of industry and academic institutions will develop a situational awareness application that monitors and manages the delivery of energy throughout a municipality, province or state, reducing carbon emissions, waste and improving the efficiency of energy.
Greenfield ethanol inc. Will demonstrate its proprietary modified twin screw extruder equipment technology to produce high yield oil for the production of biodiesel,and bio-based chemicals from advanced oilseed developed by its israeli partner danziger 'dan' flower farm and and later on from algae
Joint r&d program integrating ide's unique horizontal evaporator design and materials of construction with clean harbors' chemical development and cleaning expertise. The innovative evaporation process will provide increased reliability and availability, improving the sagd water treatment process
Development of an innovative system for the treatment and desalination for reuse of high salinity produced water from unconventional oil & gas production. Integration of efficient pre-treatment with low-temperature membrane distillation to provide a novel cost-effective water reuse system.
Both israel and canada have vast oil shale deposits. Israel alone has over 250 billion barrels. However, a significant energy-related knowledge gap exists in regards to resource assessments of numerous oil shale deposits potentially suitable for in-situ thermal recovery, which requires r&d proposed
R&d program integrating ide's unique horizontal evaporator technology with saltworks expertise in volume reduction and solidification of highly impaired water. The combined evaporation-solidification process will increase water re-use and decrease disposal volumes in sagd production process.
Development of novel coating technology of metal-oxide compounds on powder materials comprising advanced cathodes and implementation of the coated cathodes into the next generation li-ion batteries, , enabling endurance increase of the libs by >50%, compared to the pristine cathode material.