UK CAER Current News

The Center for Applied Energy Research (CAER) is one of the University of Kentucky's multidisciplinary research centers. Its energy research provides a focal point for environmental, renewable and fossil fuels research in Kentucky.

UK CAER Receives International Grant for CO2 Capture Research

clock September 5, 2017 10:53 by author Thomas

The University of Kentucky Center for Applied Energy Research has received a $300,000 grant from the Shanxi Science and Technology Department through the Shanxi Research Institute for Clean Energy of Tsinghua University in China to scale-up its hybrid technology for post-combustion CO2 capture in a coal-fired power plant.

 


The project is a continuation of the CO2 capture research that has been taking place between the two institutions since 2011. The collaboration between UK CAER and Tsinghua University launched thanks to the United States-China Clean Energy Research Center (CERC). CERC was created in 2009 by U.S. Department of Energy, the China Ministry of Science and Technology and the China National Energy Administration to facilitate joint research and development on clean energy by teams of scientists and engineers from the US and China.

 

UK CAER is a founding member of CERC’s Advanced Coal Technologies Consortium. The consortium’s purpose is to advance American and Chinese leadership and collaboration in advanced coal technologies, particularly as directed to carbon capture and utilization, advanced combustions systems and geological sequestration.

 

The project is entitled “Demonstration Project for Post-Combustion CO2 Capture Process for Coal-Fired Power Plant,” and the research will take place in China’s Shanxi Province.

 

Technology being utilized at the large-pilot project was first developed thanks to the Carbon Management Research Group (CMRG) consisting of Duke Energy, Electric Power Research Institute, LG&E and KU and former members - Kentucky Power, East Kentucky Power Cooperative, Big Rivers Electric Corporation, and the Kentucky Department for Energy Development and Independence. CMRG is an industrial-governmental-academic consortium that seeks to develop cost-effective technologies for reducing and managing carbon dioxide emissions in coal-fired power plants. UK CAER’s innovative post-combustion project was supported by a federal grant from the U.S. Department of Energy’s National Energy Technology Laboratory.



UK CAER Receives $2.4M Grant for US-China Clean Energy Research Center

clock May 5, 2016 09:39 by author Dave Melanson

The U.S. Department of Energy (DOE) has selected UK's Center for Applied Energy Research for a five-year renewal of its United States-China Clean Energy Research Center (CERC) grant. CERC was created in 2009 by DOE, the China Ministry of Science and Technology and the China National Energy Administration to facilitate joint research and development on clean energy by teams of scientists and engineers from the US and China. Read more here.



UK CAER Algal Research Hitting the Ground in China

clock February 15, 2016 12:05 by author David Melanson

Algae research at the University of Kentucky Center for Applied Energy Research (CAER) is going global.

The Algae and Biofuels Laboratory at UK CAER is partnering with Lianhenghui Investment Company to construct a 5-acre algae production facility in Zhengzhou, China. The facility will feature the Center’s novel photobioreactor technology for growing algae. The algae will be used for the production of nutraceuticals, bioplastics and fuels. The company is also constructing a second, smaller facility in Zhengzhou (2.5 acres), which will employ the same technology to grow algae for the production of nutraceuticals.

Microalgae have attracted considerable interest in recent years as a high-yield renewable feedstock for the production of fuels and chemicals. In addition, algae have been proposed as a means to capture and utilize power plant emissions, since photosynthetic algae can use the CO2 in flue gas as a carbon source.

UK CAER’s Algae and Biofuels group, led by Dr. Mark Crocker, is a worldwide leader in this research. The group has extensive expertise in this area, specializing in photobioreactor design, construction and operation; photobioreactor integration with power plants; and algae cultivation, harvesting and dewatering.

“This is an exciting development for our lab and the next phase of our research,” said Dr. Crocker. “Getting to see our innovations go from the lab to practice at Duke Energy’s East Bend Station in Boone County, Kentucky and now on to an international market is gratifying. We look forward to learning more from our partners at Lianhenghui Investment Company.”

The initial funding for the photobioreactor development was provided by the Kentucky Department of Energy Development and Independence, as part of a project to investigate the potential of algae for the capturing and recycling of power plant CO2 emissions.  After years of research, the lab partnered with Duke Energy’s East Bend Station to install a photobioreactor at that site in late 2012.

“This is an exciting achievement for Mark Crocker and the entire Biofuels group here at CAER,” said Rodney Andrews, Director of UK CAER. “They have been persistent in their efforts to improve the technology, constantly refining their process and improving our understanding of how the biology and engineering systems interact. We look forward to seeing the results of this partnership with Lianhenghui."

In June 2014, the UK CAER licensed its photobioreactor technology to Lianhenghui. Together, UK and Lianhenghui have patented the first and second generation photobioreactor technology in China, and they are in the process of patenting the second generation reactor technology in the United States.

Biofuels – fuels derived from biomass – are promising alternatives to fossil fuels since they are renewable and carbon neutral (the CO2 generated during biofuel use is consumed by plants through photosynthesis, closing the carbon cycle). CAER has considerable experience on the catalytic conversion of different forms of biomass to fuels and chemicals.

For the full story and photos...



UK CAER Scientists Publish in CCGP Journal

clock February 12, 2016 13:30 by author Alice
The newest article published in the Coal Combustion and Gasification Products journal is Coal Ash By-Product from Shanxi Province, China, for the Production of Portland-Calcium Sulfoaluminate, written by authors Tristana Y. Duvallet, Thomas L. Robl, and Kevin R. Henke (from UK CAER) as well as Yongmin Zhou, David Harris.

Web Link - Free article download

ABSTRACT: Twenty bulk samples were collected from ponded coal combustion ash in Shanxi Province, China, as part of an investigation of their beneficiation potential. The samples were shipped to the University of Kentucky, where they were chemically analyzed. The samples were highly consistent in chemistry, falling within the ASTM C-618 class F compositional range. The particle size of the ponded ash was relatively coarse, with only, 7% by weight on average, falling below 200 mesh (75mm) particle size. The bulk of the material (80%) was within 50 by 200 mesh (equivalent to 300 by 75mm). X-ray diffraction investigation combined with microscopy indicated that the agglomeration was probably due to the presence of small amounts (i.e.,,3.5%) of gypsum. The utilization potential of the ash was assessed in light of its characteristics and location. The presence of sulfate and relatively high alumina concentration, which averaged, 37%, suggested that it may serve as an important ingredient in the fabrication of a Portland–calcium sulfoaluminate (CSA) hybrid cement. Portland-CSA hybrid clinkers were successfully produced from this ponded ash when mixed with hydrated lime, gypsum, fluorite, and bauxite. The raw mixture was fired at 1250u C for 60 minutes twice (sample D) and consisted of approximately 40% alite (C3S), 21% belite (C2S), 3% ferrite (brownmillerite or C4AF), 32% CSA (ye’elimite, Klein’s compound, or C4A3SO3), and no free lime by weight.

2016 The University of Kentucky Center for Applied Energy Research and the American Coal Ash Association. All rights reserved.

Coal Combustion and Gasification Products is a unique peer-reviewed journal designed specifically to communicate coal ash research and emerging new technologies. CCGP is a joint venture between the University of Kentucky Center for Applied Energy Research (UK CAER) and the American Coal Ash Association (ACAA). The organizations' primary goal is to bring together research that currently is published in disparate sources.

CCGP is an international on-line journal encompassing the science and technology of the production, sustainable utilization, and environmentally-sound handling of the byproducts of coal combustion and gasification. This includes fly ash, bottom ash, boiler slag, gasification residue, and byproducts from coal-fuel blends, flue-gas desulfurization products, and related materials.