High temperature gas processing system and method for making the same
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-053/22
B23B-005/14
B01D-069/02
H01M-008/12
B01D-071/02
B01D-069/12
출원번호
US-0234880
(2011-09-16)
등록번호
US-8834604
(2014-09-16)
발명자
/ 주소
Sane, Ajit Y.
Cable, Thomas L.
출원인 / 주소
Volt Research, LLC
대리인 / 주소
Hahn Loeser & Parks LLP
인용정보
피인용 횟수 :
0인용 특허 :
23
초록▼
A membrane for use in a high temperature gas processing system and method for making the same. The membrane includes a dense, gas impermeable layer and a first and second porous layer, wherein each of the first and second porous layers is a ceramic oxide material having a non-symmetrical load bearin
A membrane for use in a high temperature gas processing system and method for making the same. The membrane includes a dense, gas impermeable layer and a first and second porous layer, wherein each of the first and second porous layers is a ceramic oxide material having a non-symmetrical load bearing skeleton of a plurality of pores having a graded porosity. Each porous layer provides a reduction of an oxygen partial pressure gradient across the dense layer and reduces resultant stresses in the dense layer that are small compared to its strength thereby improving long term mechanical durability of the dense layer.
대표청구항▼
1. A method of processing at least two gasses in a gas processing system, the method comprising the steps of: providing a membrane including: a dense, gas impermeable layer, wherein the dense layer is a ceramic oxide material that conducts ions, electrons, and combinations thereof; a first and secon
1. A method of processing at least two gasses in a gas processing system, the method comprising the steps of: providing a membrane including: a dense, gas impermeable layer, wherein the dense layer is a ceramic oxide material that conducts ions, electrons, and combinations thereof; a first and second porous layer, wherein each of the first and second porous layers is a ceramic oxide material having a non-symmetrical load bearing skeleton of graded porosity, said first porous layer on an air side of said membrane and said second porous layer on a process gas side of said membrane, and wherein the dense layer is positioned between the first and second porous layers;contacting the first porous layer with a first gas and the second porous layer with a second gas, wherein each porous layer provides a reduction of an oxygen partial pressure gradient across the dense layer and reduces resultant stresses in the dense layer that are small compared to its strength thereby improving long term mechanical durability of the dense layer, and wherein an oxygen partial pressure on the air side of the first porous layer of the membrane being about 0.2 atmospheres and an oxygen partial pressure on the process gas side of the second porous layer of the membrane ranges from about −10.1 to about −12.2 as measured by log pO2 @ 1000° C. resulting in a stress at said second porous layer from about 1,226 psi to about 9,400 psi, said stress being less than a membrane tensile strength; andproducing a product selected from the group consisting of synthesis gas, hydrogen gas, and carbon monoxide. 2. The method of claim 1, wherein the ceramic oxide material of the dense layer includes at least one material selected from the group consisting of a perovskite, a fluorite, a precious metal, and a lanthanum chromite and its derivatives. 3. The method of claim 2, wherein the perovskite is a metal oxide having a formula of ABO3-x, whereinthe A site is occupied by a combination of alkaline and rare earth metals selected from the group consisting of strontium, barium, lanthanum, and cerium andthe B site is occupied by transition metals selected from the group consisting of iron, chromium, manganese, cobalt, nickel, titanium and magnesium. 4. The method of claim 2, wherein the fluorite is a metal oxide having a of ABO2-x, whereinthe A site is occupied by an element selected from the group consisting of zirconium, and cerium, andthe B site is an element selected from the group consisting of yttrium, samarium, scandium, magnesium, calcium, lanthanum and rare earth metals including gadolinium. 5. The method of claim 2, wherein the precious metal is selected from the group consisting of platinum, palladium, gold, silver, and ruthenium. 6. The method of claim 1, wherein the first gas is air having a high partial pressure of oxygen. 7. The method of claim 1, wherein the second gas is a gaseous material selected from the group consisting of natural gas, alcohols, and alkenes. 8. The method of claim 1, wherein the second gas is a mixture of gaseous material and gasification products of solid materials selected from the group consisting of cellulosic materials.
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