ABU DHABI, A UAE Research Programme for Rain Enhancement Science (UAEREP) delegation today visited Dr. Bradley Baker, an awardee of the programme’s 4th Cycle, in Boulder, Colorado in the United States to mark the inception of his innovative new project titled "Improving the chemical and physical properties of seeding materials through electric charges".
Led by Dr Abdulla Al Mandous, Director-General of the National Centre for Meteorology (NCM) and President of the Regional Association II of the World Meteorological Organisation’s Asian Region, the UAEREP delegation and Dr. Baker discussed an ambitious investigation that will involve a partnership with two 2nd Cycle Award winners from the Finnish Meteorological Institute (FMI) and the University of Reading, United Kingdom, to build on results from previous studies in the UAE.
Dr. Baker is a Principal Investigator at SPEC Incorporated and an expert in cloud physics with decades of experience in cloud physics and airborne and radar measurements of clouds. His project will incorporate sophisticated numerical simulations of cumulus clouds built on measurements using a SPEC Incorporated Learjet research aircraft in unison with the NCM’s own King Air cloud seeding aircraft. To complement this work, the FMI will simulate the effects of cloud seeding using hygroscopic nanomaterials previously developed at Khalifa University in the UAE.
Dr. Al Mandous said, "Our visit gives us the opportunity to assess the progress of Dr. Baker's highly innovative research project, which will enable us to build on the breakthrough work undertaken by previous programme awardees. We are confident that this project will further enhance our understanding of the materials that can most effectively induce precipitation from suitable clouds. The NCM, through the UAE Research Programme for Rain Enhancement Science, will continue to drive global research networks and leverage the latest international scientific and technological innovation in rain enhancement."
The University of Reading has developed miniature electric charge generators that can be attached to the King Air seeding aircraft. The charge generators can coagulate aerosol particles below cloud bases into a size range that may enhance the effects of the hygroscopic nanomaterial seeding agents. The FMI will run numerical simulations of clouds with data gathered when the nanomaterial seeding agent and the electric charge generators have been used and when they have not. The SPEC Learjet will also take measurements in clouds with and without the agent and generators present to generate additional data to compare with the FMI simulations.
Commenting on the visit, Alya Al Mazroui, Director of UAEREP, said, "Regular meetings with our awardees enable us to provide support and pool our joint expertise to ensure that these innovative projects will have the maximum impact in terms of new knowledge and its applications. Our visit to Dr. Baker ensures that his exciting project will have the maximum impact as the UAE leads the way in building global networks and pooling knowledge gained from diverse research projects to ensure the scientific and technological advancement of rain enhancement as an increasingly important field."
According to Dr. Baker, "the overall goal of this project is to determine if the effects of the nanomaterial seeding agent and electric charge generators will stimulate a secondary ice process (SIP) that may potentially lead to rain enhancement. Previous observations indicate that the SIP occurs naturally in tropical cumulus clouds where cloud base temperatures are generally warmer than 20 Celsius. Previous measurements suggest that the millimetre-diameter drops rise in an updraft and then freeze and fracture to produce small ice particles that "seed" the cloud. Our research will investigate whether nanomaterial seeding agents and electric charge generators can stimulate the coalescence process and natural SIP that may lead to rain enhancement."
Launched by the Ministry of Presidential Affairs of the UAE and managed by NCM, the UAE Research Programme for Rain Enhancement Science’s active international engagement has already assured its leading position in the global quest to address water security challenges through innovative scientific and technical research.
By driving international efforts to strengthen water security through promoting scientific best practices and collaboration in rain enhancement research, the programme is helping to fulfil the UAE’s ambitious vision to become a leading global knowledge economy.
Source: Emirates News Agency