动力工程学报
動力工程學報
동력공정학보
JOURNAL OF POWER ENGINEERING
2011年
11期
869-874
,共6页
田冲%赵永椿%张军营%晏恒%吕涛涛%郑楚光
田遲%趙永椿%張軍營%晏恆%呂濤濤%鄭楚光
전충%조영춘%장군영%안항%려도도%정초광
Ni/ZrO2-CeO2-Al2O3%制氢固碳%水气转换%CO-超临界水%硅灰石
Ni/ZrO2-CeO2-Al2O3%製氫固碳%水氣轉換%CO-超臨界水%硅灰石
Ni/ZrO2-CeO2-Al2O3%제경고탄%수기전환%CO-초림계수%규회석
Ni/ZrO2-CeO2-Al2O3%hydrogen production and carbon sequestration%water-gas shift%CO-supercritical water%wollastonite
利用水热法制备镍基催化剂Ni/ZrO2-CeO2-Al2O3,并采用X-射线衍射仪和X-射线荧光能谱仪对其组分进行表征.在高温高压反应釜中,同时添加镍基催化剂和固碳剂(硅灰石)的条件下进行CO-超临界水气转化(WGS)试验,分别考察温度、压力等因素对CO-超临界水气化反应的影响及探究制氢固碳的可行性.结果表明:添加催化剂Ni/ZrO2-CeO2-Al2O3能同时提高制氢效率和矿化效率,相同工况下添加催化剂时制氢效率最大可提高8%,矿化效率最大可提高8.2%;CO初压为4 MPa、温度为420℃时,添加1 g催化剂和10 g硅灰石,制氢效率可达到16.8%;CO初压为6 MPa、温度为400℃时,添加相同样品的工况下,CO2矿化效率达到38.1%;在存在催化剂Ni/ZrO2-CeO2-Al2O3的WGS反应中,CO初压对CO2矿化影响较大,而温度对制氢效率的影响较大.
利用水熱法製備鎳基催化劑Ni/ZrO2-CeO2-Al2O3,併採用X-射線衍射儀和X-射線熒光能譜儀對其組分進行錶徵.在高溫高壓反應釜中,同時添加鎳基催化劑和固碳劑(硅灰石)的條件下進行CO-超臨界水氣轉化(WGS)試驗,分彆攷察溫度、壓力等因素對CO-超臨界水氣化反應的影響及探究製氫固碳的可行性.結果錶明:添加催化劑Ni/ZrO2-CeO2-Al2O3能同時提高製氫效率和礦化效率,相同工況下添加催化劑時製氫效率最大可提高8%,礦化效率最大可提高8.2%;CO初壓為4 MPa、溫度為420℃時,添加1 g催化劑和10 g硅灰石,製氫效率可達到16.8%;CO初壓為6 MPa、溫度為400℃時,添加相同樣品的工況下,CO2礦化效率達到38.1%;在存在催化劑Ni/ZrO2-CeO2-Al2O3的WGS反應中,CO初壓對CO2礦化影響較大,而溫度對製氫效率的影響較大.
이용수열법제비얼기최화제Ni/ZrO2-CeO2-Al2O3,병채용X-사선연사의화X-사선형광능보의대기조분진행표정.재고온고압반응부중,동시첨가얼기최화제화고탄제(규회석)적조건하진행CO-초림계수기전화(WGS)시험,분별고찰온도、압력등인소대CO-초림계수기화반응적영향급탐구제경고탄적가행성.결과표명:첨가최화제Ni/ZrO2-CeO2-Al2O3능동시제고제경효솔화광화효솔,상동공황하첨가최화제시제경효솔최대가제고8%,광화효솔최대가제고8.2%;CO초압위4 MPa、온도위420℃시,첨가1 g최화제화10 g규회석,제경효솔가체도16.8%;CO초압위6 MPa、온도위400℃시,첨가상동양품적공황하,CO2광화효솔체도38.1%;재존재최화제Ni/ZrO2-CeO2-Al2O3적WGS반응중,CO초압대CO2광화영향교대,이온도대제경효솔적영향교대.
Catalyst Ni/ZrO2-CeO2-Al2O3 was synthesized by hydrothermal method,of which the composition was subsequently characterized using X-ray diffraction spectroscopy(XRD) and X-ray fluorescence spectroscopy(XRF).Taking Ni/ZrO2-CeO2-Al2O3 as the catalyst and wollastonite as the carbon sequestration agent,CO-supercritical water-gas shift(WGS) experiments were carried out in a high-temperature high-pressure autoclave,so as to analyze the influence of temperature and pressure on the WGS reaction,and study the feasibility of hydrogen production and carbon sequestration by WGS reaction.Results indicate that the addition of catalyst Ni/ZrO2-CeO2-Al2O3 can simultaneously raise the efficiency of both hydrogen production and mineral sequestration,respectively by an increase of 8% and 8.2% at most.For an addition of 1 g catalyst and 10 g wollastonite,the hydrogen production rate can reach 16.8%,and the CO2 mineral sequestration rate can achieve 38.1%,at an initial CO pressure of 6 MPa and a reaction temperature of 400 ℃.With existence of Ni/ZrO2-CeO2-Al2O3 catalyst in the reaction system,initial CO pressure influences more on the CO2 sequestration,while temperature impacts more on the hydrogen production.
