2020 Fiscal Year Research-status Report
Development of Alkyl-Functionalized New Polyamine Based Non-Aqueous Solvent for Energy Efficient CO2 Capture
| Project/Area Number |
20K05596
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| Research Institution | Research Institute of Innovative Technology for the Earth |
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Principal Investigator |
フィローズアラム チョウドリ 公益財団法人地球環境産業技術研究機構, その他部局等, 主任研究員 (50727279)
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| Project Period (FY) |
2020-04-01 – 2023-03-31
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| Keywords | Noon-Aqueous Solvent / Polyamine / Absorption Rate / Absorption Capacity / Heats of Reaction |
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| Outline of Annual Research Achievements |
This project, we have developed new isopropyl-functionalized polyamine (IPFPA) based non-aqueous solvent (NAS) for the recovery of CO2 from post-combustion flue gases that will achieve a significant increase in CO2 capture performances with a reduction of solvent regeneration energy. The IPFPA was synthesized by the reduction of PA’s primary amine (-NH2) site (s) with acetone. A total of 10 new (Generation I) IPFPA(s) was synthesized with high purity (>98%) and excellent yield (>97%) during the first year of the project. The synthesized IPFPA’s structure was determined by spectroscopic method. The IPFPA based NAS was made by mixing IPFPA as absorbent and commercially available four alcohol/nonalcohol as solvent. Now we are optimizing IPFPA based NAS, thoroughly measuring all relevant properties, and identify high performance NAS that will give high absorption rate, high cyclic capacity and consume the minimal amount of energy. Two IPFPA based NAS was identified that will not formed any precipitate/solid upon exposure to CO2 and showed low viscos (cP = 3.93 ~ 47.27) homogeneous mixture (single phase) at the whole range of CO2 loading with excellent CO2 performances.
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| Current Status of Research Progress |
Current Status of Research Progress
2: Research has progressed on the whole more than it was originally planned.
Reason
The applicant performed gas scrubbing tests with new IPFPA’s based NAS by changing their concentrations, temperatures, and pressures. CO2 capture performances of such 14 sets of (IPFPAs + alcohol/non-alcohol solvent) was completed. From the results of screening tests, the applicant identified two sets of high performance IPFPA based NAS with low viscosity (cP = 4.66, and 3.93), high absorption rate, high cyclic CO2 capacity and consume the minimal amount of energy. These findings were presented in one national conference.
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| Strategy for Future Research Activity |
Finalize the optimal PFPA’s based NAS(s), perform VLE test under equilibrium condition at different temperature and pressure in order to obtain maximum working capacity. 13C NMR spectroscopy will be used to analyze the CO2-loaded solution species identification. Finally conduct bench-scale test, finalize systems and economic analyses, and develop a path forward for bench-scale and pilot-plant testing.
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| Causes of Carryover |
The outsourcing chemicals price is higher than the remaining fund. As a result, the chemical purchase was delayed. The specific chemicals will purchase this FY by adjusting the remaining fund.
Last year remaining fund will adjust with this year fund to purchase chemicals, CO2 and N2 gases, laboratory glassware, books, journals reprints, domestic and foreign conferences.
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