Crab body pyrolysis: Characterization and applications of crab biochar: "A crabby solution"
Nova Scotia crab harvesters sell over 5 million lbs of Snow Crab (Chionoecetes opilio) annually. The commercially desired product are the legs and shoulders generating resultant waste streams from bodies of the snow crabs (approximately 1/3 of the crab). Currently this waste is landfilled which is c...
| Main Authors: | , , , |
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| Format: | Text |
| Language: | unknown |
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ECI Digital Archives
2019
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| Subjects: | |
| Online Access: | https://dc.engconfintl.org/biochar_ii/62 |
| _version_ | 1821491069458579456 |
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| author | MacQuarrie, Stephanie Richards, Doug Armstrong, Haley Hawboldt, Kelly |
| author_facet | MacQuarrie, Stephanie Richards, Doug Armstrong, Haley Hawboldt, Kelly |
| author_sort | MacQuarrie, Stephanie |
| collection | Engineering Conferences International: ECI Digital Archives |
| description | Nova Scotia crab harvesters sell over 5 million lbs of Snow Crab (Chionoecetes opilio) annually. The commercially desired product are the legs and shoulders generating resultant waste streams from bodies of the snow crabs (approximately 1/3 of the crab). Currently this waste is landfilled which is costly and fossil fuel intensive. There is a desire to find a more environmentally sustainable practice to divert this organic animal waste from NS landfills. In a landfill, snow crab residues will decompose and generate some small amount of fixed carbon, however much of the carbon is released into the environment as CO2 during decomposition and aside from some microbial benefits none of the remaining interesting chemicals are utilized during landfill decomposition. The chemical composition of the snow crab includes a high content of protein (34.2% dw) and essential amino acids; they also have fat (17.1% dw), with a high proportion of ω3 polyunsaturated fatty acids and approximately 28.5% dw minerals (calcium, phosphorous, and magnesium) making this waste stream very intriguing as a starting biomass for the generation of biochar. In this paper we have determined the optimal pyrolysis conditions and highest yield for the char generated from the crab body waste stream. The chars have been fully characterized and we have investigated several applications ranging from neutralization material for acidic waters to concrete additives and catalysis. Please click Additional Files below to see the full abstract. |
| format | Text |
| genre | Chionoecetes opilio Snow crab |
| genre_facet | Chionoecetes opilio Snow crab |
| id | fteci:oai:dc.engconfintl.org:biochar_ii-1012 |
| institution | Open Polar |
| language | unknown |
| op_collection_id | fteci |
| op_relation | https://dc.engconfintl.org/biochar_ii/62 |
| op_source | Bio-Char II: Production, Characterization and Applications |
| publishDate | 2019 |
| publisher | ECI Digital Archives |
| record_format | openpolar |
| spelling | fteci:oai:dc.engconfintl.org:biochar_ii-1012 2025-01-16T21:29:47+00:00 Crab body pyrolysis: Characterization and applications of crab biochar: "A crabby solution" MacQuarrie, Stephanie Richards, Doug Armstrong, Haley Hawboldt, Kelly 2019-09-16T07:00:00Z https://dc.engconfintl.org/biochar_ii/62 unknown ECI Digital Archives https://dc.engconfintl.org/biochar_ii/62 Bio-Char II: Production, Characterization and Applications Crab waste Calcium carbonate acid mine neutralization biochar Engineering text 2019 fteci 2022-12-27T14:51:44Z Nova Scotia crab harvesters sell over 5 million lbs of Snow Crab (Chionoecetes opilio) annually. The commercially desired product are the legs and shoulders generating resultant waste streams from bodies of the snow crabs (approximately 1/3 of the crab). Currently this waste is landfilled which is costly and fossil fuel intensive. There is a desire to find a more environmentally sustainable practice to divert this organic animal waste from NS landfills. In a landfill, snow crab residues will decompose and generate some small amount of fixed carbon, however much of the carbon is released into the environment as CO2 during decomposition and aside from some microbial benefits none of the remaining interesting chemicals are utilized during landfill decomposition. The chemical composition of the snow crab includes a high content of protein (34.2% dw) and essential amino acids; they also have fat (17.1% dw), with a high proportion of ω3 polyunsaturated fatty acids and approximately 28.5% dw minerals (calcium, phosphorous, and magnesium) making this waste stream very intriguing as a starting biomass for the generation of biochar. In this paper we have determined the optimal pyrolysis conditions and highest yield for the char generated from the crab body waste stream. The chars have been fully characterized and we have investigated several applications ranging from neutralization material for acidic waters to concrete additives and catalysis. Please click Additional Files below to see the full abstract. Text Chionoecetes opilio Snow crab Engineering Conferences International: ECI Digital Archives |
| spellingShingle | Crab waste Calcium carbonate acid mine neutralization biochar Engineering MacQuarrie, Stephanie Richards, Doug Armstrong, Haley Hawboldt, Kelly Crab body pyrolysis: Characterization and applications of crab biochar: "A crabby solution" |
| title | Crab body pyrolysis: Characterization and applications of crab biochar: "A crabby solution" |
| title_full | Crab body pyrolysis: Characterization and applications of crab biochar: "A crabby solution" |
| title_fullStr | Crab body pyrolysis: Characterization and applications of crab biochar: "A crabby solution" |
| title_full_unstemmed | Crab body pyrolysis: Characterization and applications of crab biochar: "A crabby solution" |
| title_short | Crab body pyrolysis: Characterization and applications of crab biochar: "A crabby solution" |
| title_sort | crab body pyrolysis: characterization and applications of crab biochar: "a crabby solution" |
| topic | Crab waste Calcium carbonate acid mine neutralization biochar Engineering |
| topic_facet | Crab waste Calcium carbonate acid mine neutralization biochar Engineering |
| url | https://dc.engconfintl.org/biochar_ii/62 |