稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2009年
z2期
443-446
,共4页
梁明德%于波%文明芬%翟玉春
樑明德%于波%文明芬%翟玉春
량명덕%우파%문명분%적옥춘
高温水蒸气电解制氢%固体氧化物电解池%Ni-YSZ%BSCF%SDC
高溫水蒸氣電解製氫%固體氧化物電解池%Ni-YSZ%BSCF%SDC
고온수증기전해제경%고체양화물전해지%Ni-YSZ%BSCF%SDC
high temperature steam electrolysis%SOEC%NiO-YSZ%BSCF%SDC
采用氨水沉淀原位合成法制备了NiO-YSZ(Y_2O_3稳定的ZrO_2)复合粉体,通过XRD、FESEM研究了溶液pH值对粉体性能的影响,并用干压法和丝网印刷法将氢电极分为支撑层(500 μm)、过渡层(20 μm)和功能层(10 μm)三层进行梯度化制备,采用YSZ/SDC双层电解质,通过共烧结技术将SDC(Sc掺杂CeO_2)(6 μm)作为YSZ(4 μm)电解质和Ba_0.5Sr_0.5Co_0.8Fe_0.2O_(3-δ)(BSCF,20 ìm)氧电极的隔离层.结果表明,合成NiO-YSZ复合粉体的最佳pH值为8.5,粉体呈泡沫状团聚,NiO的平均晶粒粒径为13 nm,产率为94.5%.850 ℃时制备的单体SOEC在70%、80%和90% 3种水蒸气含量的氢电极气氛下,电解池在1.5 V的产氢速率分别为266、381和558 N·mL/cm~2·h.在850 ℃、90%水蒸气含量的氢电极气氛下,以0.33 A/cm~2恒流电解1 h前、后的电解电压分别为1.09和1.16 V,电解池具备较好的稳定性.
採用氨水沉澱原位閤成法製備瞭NiO-YSZ(Y_2O_3穩定的ZrO_2)複閤粉體,通過XRD、FESEM研究瞭溶液pH值對粉體性能的影響,併用榦壓法和絲網印刷法將氫電極分為支撐層(500 μm)、過渡層(20 μm)和功能層(10 μm)三層進行梯度化製備,採用YSZ/SDC雙層電解質,通過共燒結技術將SDC(Sc摻雜CeO_2)(6 μm)作為YSZ(4 μm)電解質和Ba_0.5Sr_0.5Co_0.8Fe_0.2O_(3-δ)(BSCF,20 ìm)氧電極的隔離層.結果錶明,閤成NiO-YSZ複閤粉體的最佳pH值為8.5,粉體呈泡沫狀糰聚,NiO的平均晶粒粒徑為13 nm,產率為94.5%.850 ℃時製備的單體SOEC在70%、80%和90% 3種水蒸氣含量的氫電極氣氛下,電解池在1.5 V的產氫速率分彆為266、381和558 N·mL/cm~2·h.在850 ℃、90%水蒸氣含量的氫電極氣氛下,以0.33 A/cm~2恆流電解1 h前、後的電解電壓分彆為1.09和1.16 V,電解池具備較好的穩定性.
채용안수침정원위합성법제비료NiO-YSZ(Y_2O_3은정적ZrO_2)복합분체,통과XRD、FESEM연구료용액pH치대분체성능적영향,병용간압법화사망인쇄법장경전겁분위지탱층(500 μm)、과도층(20 μm)화공능층(10 μm)삼층진행제도화제비,채용YSZ/SDC쌍층전해질,통과공소결기술장SDC(Sc참잡CeO_2)(6 μm)작위YSZ(4 μm)전해질화Ba_0.5Sr_0.5Co_0.8Fe_0.2O_(3-δ)(BSCF,20 ìm)양전겁적격리층.결과표명,합성NiO-YSZ복합분체적최가pH치위8.5,분체정포말상단취,NiO적평균정립립경위13 nm,산솔위94.5%.850 ℃시제비적단체SOEC재70%、80%화90% 3충수증기함량적경전겁기분하,전해지재1.5 V적산경속솔분별위266、381화558 N·mL/cm~2·h.재850 ℃、90%수증기함량적경전겁기분하,이0.33 A/cm~2항류전해1 h전、후적전해전압분별위1.09화1.16 V,전해지구비교호적은정성.
Nickel oxide and yttria-stabilized zirconia (NiO-YSZ) composite powders were synthesized by situ-precipitation method to prepare high performance hydrogen electrode with long-term durability operating in the Solid Oxide Electrolysis Cells (SOEC) mode. The products were characterized by XRD and FESEM, and the effect of pH on the average crystallite size and yield of the NiO was studied. A single SOEC with 500 μm NiO-YSZ support, 20 μm NiO-YSZ interlayer, 10 μm NiO-YSZ hydrogen electrode, 4 μm YSZ electrolyte, 6 μm SDC electrolyte and 20 μm BSCF oxygen electrode was prepared for performance tests. The results showed that the NiO-YSZ composite powders agglomerate to form spongy structure and the optimized pH of NiO-YSZ synthesized was 8.5. The related NiO average crystallite size is 13 nm and the yield is 94.5%. When the steam content in the input stream is 70%, 80% and 90% at 850 ℃, the hydrogen production rate of the single SOEC is 266, 381 and 558 N·mL/cm~2·h, respectively. The electrolytic voltage changed from 1.09 to 1.16 V at 1 h before and after the electrolysis with the current density of 0.33 A/cm~2 at 850 ℃ and 90% H_2O + 10% H_2 as inlet gas, which showed the prepared SOEC had excellent durability.
