Solid State Ammonia Synthesis NHThree LLC
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1 Solid State Ammonia Synthesis NHThree LLC Jason C. Ganley John H. Holbrook Doug E. McKinley Ammonia - A Sustainable, Emission-Free Fuel October 15,
2 Inside the Black Box: Steam Reforming + Haber-Bosch 3 CH H 2 O + 4 N 2 3 CO O 2 CO 2 Nat Gas H 2 O SMR H 2 Electricity H-B AIR ASU N 2 Energy consumption ~33 MBtu (9500 kwh) per ton 2
3 Inside the Black Box: Steam Reforming + Haber-Bosch 3 CH H 2 O + 4 N 2 3 CO O 2 CO 2 Nat Gas H 2 O SMR H 2 Electricity H-B N 2 AIR ASU Energy consumption ~33 MBtu (9500 kwh) per ton 3
4 Inside the Black Box: HB Plus Electrolysis O 2 3 H 2 O 3 H 2 + 3/2 O 2 3 H 2 + N 2 2 Electricity H 2 O Electrolyzer H 2 H-B AIR ASU N 2 Energy consumption ~12,000 kwh per ton 4
5 Inside the Black Box: Solid State Ammonia Synthesis 6 H 2 O + 2 N 2 3 O O 2 O 2 Electricity H 2 O AIR ASU SSAS N 2 Energy consumption kwh per ton 5
6 SSAS in a Nutshell Solid-state electrochemical process Water (steam) decomposed at anode Hydrogen atoms adsorb, stripped of electrons Hydrogen conducts (as proton) through proton-conducting ceramic electrolyte Protons emerge at cathode, regain electrons, and react with adsorbed, dissociated nitrogen atoms to form Patent application February
7 SSAS Features and Advantages Does not require expensive, energyintensive electrolyzers High pressures (e.g. for Haber-Bosch synthesis) are not required Co-production of oxygen gas Synthesis reactors in the form of multiple tube bundles in geometric arrangement Straightforward capacity expansion by adding synthesis tube bundle modules 7
8 SSAS Primary Components H 2 O, liquid 1 bar Pump H 2 O, liquid 15 bar Heat Recovery Boiler Superheated Steam Recycled H 2 O O 2 /H 2 O Mix O 2 to Storage/Sales Flash Tank Furnace SSAS Tube Module 550 C Heat Recovery Compressor N 2, 15 bar /N 2 Mix Flash Tank Liquid to Storage/Sales N 2 from ASU Recycled N 2 1 bar 8
9 Current Work: Protonic Ceramic Preferred compositions identified Good thermal stability, capable of thermal cycling High ionic conductivity Stability in humid or dry atmospheres Stable in reducing, neutral, or oxidizing conditions Refinement of processing techniques Ceramic synthesis routes -Solid state chemical reaction vs. autoingintion -Sintering and densification, catalyst support Ceramic forming -Bulk powder pressing -Tape casting, spin coating 9
10 Current Work: Catalysis Maximize: ionic and electronic conductivity, surface area, catalytic action Oxidizing atmosphere present Co-generation of oxygen gas Intermediate temperatures: less severe conditions Reducing atmosphere present Ammonia product is a strong reducing agent -Protects stability of many catalyst types -Converts metal oxides to high surface area metallic catalysts Intermediate temperatures: helps prevent sintering of catalyst particles 10
11 Mass Production: Tubular Geometry Tubular SOFC SSAS reactor module will have similar tube and manifold arrangement 11
12 PCC Tubes in R&D Labs LANL PCC tube fabricated for LANL by TYK Corporation (Japan) by extrusion, used for tritium recovery. 12
13 Economic Comparison Measure Production Method Natural Gas Electrolyzer + H-B SSAS Energy required per ton of 33 MBtu = 9700 kwh ~12,000 kwh (H2 production only) kwh Capital cost per ton/day capacity ~$500,000 ~$750,000 (Cost dominated by electrolyzer) <$200,000 Fuel cost to produce 1 ton of at large scale [1] Depends on location and NG cost $420 (3.5 /kwh) $240 (2 /kwh) $245 (3.5 /kwh) $140 (2 /kwh) Cost of 1 ton at moderate to large scale [2] Depends on location and NG cost >$600 (3.5 /kwh) >$400 (2 /kwh) ~$315 (3.5 /kwh) ~$210 (2 /kwh) Tons of CO 2 emitted per ton of produced [1] For NHThree s planned demonstration project, Douglas Co. WA will supply standard 2 /kwh power from hydroelectric [2] Using a capital recovery factor of 12% and purchased nitrogen at $30 per ton of N 2 13
14 Green Ammonia a Renewable Cycle Renewable Energy Input (Electricity or Heat & Electricity) Synthesis 3 H 2 + N 2 2 N 2 & H 2 O Return to Environment (Combustion or Fuel Cell) O 2 2 N H 2 O Power Generation Storage Energy Recovery 14
15 The Sweet Spot for SSAS Inexpensive electric power Stranded wind or geothermal Hydroelectric Nuclear Off-peak fossil energy in Midwest OTEC Reliable water supply, need not be pure 420 gallons H 2 O/ton Inexpensive heat source to improve efficiency Concentrated solar thermal Nuclear 15
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