Attendance will not be mandatory and will not positively or negatively impact the overall review of any applicant submissions.

University of Delaware (Newark, DE) plans to develop an electrochemically driven CO2 separator (EDCS) using poly (aryl piperidinium) (PAP) ionomers. ET . DOE Funding: $1,499,954; Non-DOE Funding: $375,000; Total: $1,874,954, AOI 2 (Subtopic 2.1): Carbon Capture Testing on Natural Gas Flue Gas. The National Energy …

DOE Funding: $2,500,000; Non-DOE Funding: $712,880; Total: $3,212,880, (2) Advanced Integrated Reticular Sorbent-Coated System to Capture CO2 from the Atmosphere.

(8) Engineering-Scale Test of a Water-Lean Solvent for Post-Combustion Capture — Electric Power Research Institute Inc. (Palo Alto, CA) aims to demonstrate the performance of a novel water-lean solvent for post-combustion removal of CO2 from coal- and natural gas-derived flue gas. All prototypes must generate electricity or hydrogen, for power or other products, and incorporate carbon capture and utilization or carbon capture and storage technologies in one of the following areas of interest: Applications for FOA 2180 must be received by 11:59 p.m.

The project will feature Svante’s VeloxoThermTM adsorbent-based post-combustion carbon capture technology and will be designed to remove CO2 from the flue gas of the cement kiln and a natural gas-fired steam generator. These benefits include more reliable and affordable energy supply, cleaner environmental performance, and stronger energy infrastructure. Researchers will achieve process optimization by understanding the effects of membrane performance (e.g., thickness, permeability, selectivity, etc.) (9) Engineering Scale Design and Testing of Transformational Membrane Technology for CO2 Capture — Gas Technology Institute (GTI) (Des Plaines, IL) will design and build an engineering-scale CO2 capture system using the Ohio State University transformational membrane process. DOE Funding: $13,000,000; Non-DOE Funding: $3,250,000; Total: $16,250,000. IWVC, LLC (Venice, CA) plans to design, manufacture, and field test a combined water and CO2 DAC system at a field site located on the San Diego State University Brawley campus.

The Department of Energy National Energy Technology Laboratory intends to issue a Funding Opportunity Announcement DE-FOA-0002187 on behalf of the Office of Fossil Energy. (6) Chevron Natural Gas Carbon Capture Technology Testing Project — Chevron USA. Field testing will be conducted at a renewable power generation site in California to capture operational data on the novel process and material combination under real conditions.

The National Energy Technology Laboratory will manage the selected projects, which fall under two areas of interest (AOI). ET DOE will not be accepting any questions after February 14, 2021 Message Regarding U.S. Industry …
DOE Funding: $800,000; Non-DOE Funding: $200,502; Total: $1,000,502, (12) Direct Air Capture Recovery of Energy for CCUS Partnership (DAC RECO2UP). Susteon Inc. (Cary, NY) plans to develop amine-doped solid sorbents catalyzed by ionic liquids that have the potential to increase the CO2 desorption rate by several orders of magnitude at desorption temperatures of 80-90°C. The Funding Opportunity Announcement is anticipated to be issued in March 2020. The overall objectives of the work are to demonstrate that the materials can lead to a substantial reduction in the energy requirement for direct capture of CO2 from air compared to current state-of-the-art DAC processes. The U.S. Department of Energy’s (DOE) Office of Fossil Energy has selected 9 projects for cost-shared research and development under the funding opportunity announcement (FOA) DE-FOA-0002187, Carbon Capture Research and Development (R&D): Engineering Scale Testing from Coal- and Natural Gas-Based Flue Gas and Initial Engineering Design for Industrial Sources. The proposed sorbent structure is designed to address challenges associated with DAC of CO2, including the dilute concentration of CO2 in air, large land use, and high overall energy use and process cost. DOE Funding: $2,500,000; Non-DOE Funding: $651,790; Total: $3,151,790, (13) Membrane Adsorbents Comprising Self-Assembled Inorganic Nanocages (SINCs) for Super-fast Direct Air Capture Enabled by Passive Cooling.

University of Kentucky Research Foundation (Lexington, KY) plans to develop an enhanced depolarized electro-membrane system. “The Trump Administration is committed to advancing plastic recycling technologies and the manufacturing of new plastics that are recyclable by design,” said Under Secretary of Energy Mark W. … The Trustees of Columbia University in the City of New York (New York, NY) plan to develop a tailored material in combination with state-of-the-art anhydrous nanofluid solvent and electrospinning technologies to form a hybrid coaxial-fiber system for DAC with selective rejection of water.

(14) Low Regeneration Temperature Sorbents for Direct Air Capture of CO2. This Funding Opportunity Announcement supports the Department of Energy’s Carbon Capture program through the investigation of carbon capture on three types of CO2 sources: industrial sources, natural gas, and coal power flue gases. The team’s ultimate goal is to advance the most promising process improvements, where a DAC plant is operated in a continuous fashion rather than a discrete batchwise fashion. 3370 0 obj <>/Filter/FlateDecode/ID[]/Index[3355 26]/Info 3354 0 R/Length 78/Prev 569255/Root 3356 0 R/Size 3381/Type/XRef/W[1 2 1]>>stream More details are available here.

This FOA (DE-FOA-0002181) is our annual, broad, open solicitation that covers all of the research areas in the SC and is open throughout the Fiscal Year. The U.S. Department of Energy’s (DOE) Office of Fossil Energy (FE) and NETL have announced its intention to commit approximately $81 million in federal funding for cost-shared research and development projects through the release of the draft funding opportunity announcement (FOA) DE-FOA-0002180, Design Development and System Integration Design Studies for Coal FIRST … (16) Gradient Amine Sorbents for Low Vacuum Swing CO2 Capture at Ambient Temperature. DE-FOA-0002254, Amendment 000001 will be manufactured substantially in the United States, unless the applicant can show to the satisfaction of DOE that it is not commercially feasible to do so (referred to hereinafter as “the U.S. Competitiveness Provision”).

(11) Development of Advanced Solid Sorbents for Direct Air Capture. DOE Funding: $799,687; Non-DOE Funding: $200,000; Total: $999,687, (15) Next Generation Fiber-Encapsulated Nanoscale Hybrid Materials for Direct Air Capture with Selective Water Rejection.
Southern States Energy Board (Peachtree Corners, GA) plans to scale up and integrate solid-amine CO2 adsorption-desorption contactor technology which has been proven in the laboratory.