科技报告详细信息
Hopewell Beneficial CO2 Capture for Production of Fuels, Fertilizer and Energy
UOP ; Honeywell Resins & Chemicals ; Honeywell Process Solutions ; Aquaflow Bionomics Ltd
关键词: ACCURACY;    ALGAE;    AMINES;    AUTOMATION;    BIOMASS;    CARBON;    CHLOROPHYLL;    COMPRESSION;    CONTROL SYSTEMS;    CULTIVATION;    FERTILIZERS;    HARVESTING;    LIMITING VALUES;    NITROGEN;    NUTRIENTS;    PONDS;    PROCESS CONTROL;    SENSORS;    TANKS;    TURBIDITY Clean Coal Tec;   
DOI  :  10.2172/1013255
RP-ID  :  None
PID  :  OSTI ID: 1013255
Others  :  TRN: US201110%%632
学科分类:燃料技术
美国|英语
来源: SciTech Connect
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【 摘 要 】

For Phase 1 of this project, the Hopewell team developed a detailed design for the Small Scale Pilot-Scale Algal CO2 Sequestration System. This pilot consisted of six (6) x 135 gallon cultivation tanks including systems for CO2 delivery and control, algal cultivation, and algal harvesting. A feed tank supplied Hopewell wastewater to the tanks and a receiver tank collected the effluent from the algal cultivation system. The effect of environmental parameters and nutrient loading on CO2 uptake and sequestration into biomass were determined. Additionally the cost of capturing CO2 from an industrial stack emission at both pilot and full-scale was determined. The engineering estimate evaluated Amine Guard technology for capture of pure CO2 and direct stack gas capture and compression. The study concluded that Amine Guard technology has lower lifecycle cost at commercial scale, although the cost of direct stack gas capture is lower at the pilot scale. Experiments conducted under high concentrations of dissolved CO2 did not demonstrate enhanced algae growth rate. This result suggests that the dissolved CO2 concentration at neutral pH was already above the limiting value. Even though dissolved CO2 did not show a positive effect on biomass growth, controlling its value at a constant set-point during daylight hours can be beneficial in an algae cultivation stage with high algae biomass concentration to maximize the rate of CO2 uptake. The limited enhancement of algal growth by CO2 addition to Hopewell wastewater was due at least in part to the high endogenous CO2 evolution from bacterial degradation of dissolved organic carbon present at high levels in the wastewater. It was found that the high level of bacterial activity was somewhat inhibitory to algal growth in the Hopewell wastewater. The project demonstrated that the Honeywell automation and control system, in combination with the accuracy of the online pH, dissolved O2, dissolved CO2, turbidity, Chlorophyll A and conductivity sensors is suitable for process control of algae cultivation in an open pond systems. This project concluded that the Hopewell wastewater is very suitable for algal cultivation but the potential for significant CO2 sequestration from the plant stack gas emissions was minimal due to the high endogenous CO2 generation in the wastewater from the organic wastewater content. Algae cultivation was found to be promising, however, for nitrogen remediation in the Hopewell wastewater.

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