8bb256b2-0572-4abe-8679-b9b4a5dd1912TrypAMINO®biotechnological production routesingle route, at plant98.0% L-Tryptophan (feed grade)Materials productionOther materialsThe data set covers all relevant process steps / technologies over the supply chain of the represented cradle to gate inventory with a very good overall data quality. The inventory is mainly based on primary industry data and is completed, where necessary, by secondary data. This dataset is based on primary data from internationally adopted production processes, connected with regional precursor chains.750The data set represents the company's specific situation, focusing on the main technologies, the region specific characteristics and / or import statistics.TrypAMINO® is produced by a fermentation process. The biotechnological production of the amino acids Biolys®, ThreAMINO®, TrypAMINO® and ValAMINO® is predominantly based on sugar either derived from dextrose or saccharose and sucrose as well as corn steep liquor as an additional source for minerals and nutrients. The product TrypAMINO® contains 98.0% L-Tryptophan (feed grade) with a digestibility of 100%.
Background system:
Electricity: Electricity is modelled according to the individual country-specific situations. The country-specific modelling is achieved on multiple levels. Firstly, individual energy carrier specific power plants and plants for renewable energy sources are modelled according to the current national electricity grid mix. Modelling the electricity consumption mix includes transmission / distribution losses and the own use by energy producers (own consumption of power plants and "other" own consumption e.g. due to pumped storage hydro power etc.), as well as imported electricity. Secondly, the national emission and efficiency standards of the power plants are modelled as well as the share of electricity plants and combined heat and power plants (CHP). Thirdly, the country-specific energy carrier supply (share of imports and / or domestic supply) including the country-specific energy carrier properties (e.g. element and energy content) are accounted for. Fourthly, the exploration, mining/production, processing and transport processes of the energy carrier supply chains are modelled according to the specific situation of each electricity producing country. The different production and processing techniques (emissions and efficiencies) in the different energy producing countries are considered, e.g. different crude oil production technologies or different flaring rates at the oil platforms.
Thermal energy, process steam: The thermal energy and process steam supply is modelled according to the individual country-specific situation with regard to emission standards and considered energy carriers. The thermal energy and process steam are produced at heat plants. Efficiencies for thermal energy production are by definition 100% in relation to the corresponding energy carrier input. For process steam the efficiency ranges from 85%, 90% to 95%. The energy carriers used for the generation of thermal energy and process steam are modelled according to the specific import situation (see electricity above).
Transports: All relevant and known transport processes are included. Ocean-going and inland ship transport as well as rail, truck and pipeline transport of bulk commodities are considered.
Energy carriers: The energy carriers are modelled according to the specific supply situation (see electricity above).
Refinery products: Diesel fuel, gasoline, technical gases, fuel oils, lubricants and residues such as bitumen are modelled with a parameterised country-specific refinery model. The refinery model represents the current national standard in refining techniques (e.g. emission level, internal energy consumption, etc.) as well as the individual country-specific product output spectrum, which can be quite different from country to country. The supply of crude oil is modelled, again, according to the country-specific situation with the respective properties of the resources.Sugar beet, at field (75% H2O content)Electricity grid mixAmmonia (NH3) production mix, without CO2 recovery (carbon dioxide emissions to air)Sulphuric acid (96%)Natural gas mixThe most important application field of TrypAMINO® is as a feed ingredient in animal production, especially in swine production.Evonik_Biolys_ThreAMINO_TrypAMINO_ValAMINOLCI resultAttributionalNoneAllocation - market valueAllocation - net calorific valueAllocation - exergetic contentAllocation - massForeground system: For the foreground system, no allocation was applied.
Background system: For the combined heat and power production, allocation by exergetic content is applied. For the electricity generation and by-products, allocation by market value is applied due to no common physical properties. Within the refinery allocation by net calorific value and mass is used. For the combined crude oil, natural gas and natural gas liquids production allocation by net calorific value is applied.Background system: All data used in the calculation of the LCI results refer to net calorific value.NoneGaBi Modelling PrinciplesGaBi Refinery Modelling PrinciplesGaBi Energy Modelling PrinciplesGaBi Water Modelling PrinciplesGaBi Agriculture Model DocumentationGaBi Land Use Change Model DocumentationComparative life cycle assessment of MetAMINO®, Biolys®, ThreAMINO®, TrypAMINO® and ValAMINO®It is the intention to include all input materials in the system if they contribute more than 1 % of weight of the output of the main product in the respective process segment. It should be ensured that the total amount of product streams not considered in the evaluation does not exceed 5 % of the mass balance of the entire system.NoneAll relevant background data such as energy and auxiliary material are taken from the GaBi Databases.NoneFor details please see the document "Comparative life cycle assessment of MetAMINO®, Biolys®, ThreAMINO®, TrypAMINO® and ValAMINO® in broiler and pig production".NoneComparative life cycle assessment of MetAMINO®, Biolys®, ThreAMINO®, TrypAMINO® and ValAMINO®100.0Request on primary, site-specific production data2014-2015NoneThe LCI data set should be used for LCI/ LCA studies where TrypAMINO® is used along the production chain.
The product has a high active content of free L-Tryptophan of min. 98.0 %.
It is of utmost importance that the respective daily amino acid requirement for each species is fully covered in order to guarantee a healthy and well balanced nutrition. Otherwise a distinct drop in performance and a detrimental effect on the animal’s health will occur.No statementCML2001 - Apr. 2015, Abiotic Depletion (ADP elements)CML2001 - Apr. 2015, Global Warming Potential (GWP 100 years), excl biogenic carbonCML2001 - Apr. 2015, Global Warming Potential (GWP 100 years)CML2001 - Apr. 2015, Human Toxicity Potential (HTP inf.)CML2001 - Apr. 2015, Terrestric Ecotoxicity Potential (TETP inf.)CML2001 - Apr. 2015, Ozone Layer Depletion Potential (ODP, steady state)CML2001 - Apr. 2015, Marine Aquatic Ecotoxicity Pot. (MAETP inf.)CML2001 - Apr. 2015, Acidification Potential (AP)CML2001 - Apr. 2015, Freshwater Aquatic Ecotoxicity Pot. (FAETP inf.)CML2001 - Apr. 2015, Eutrophication Potential (EP)CML2001 - Apr. 2015, Photochem. Ozone Creation Potential (POCP)Acidification midpoint (v1.06)Anthropogenic Abiotic Depletion Potential (AADP), TU BerlinBlue water consumptionBlue water useCML2001 - Apr. 2013, Abiotic Depletion (ADP elements)CML2001 - Apr. 2013, Abiotic Depletion (ADP fossil)CML2001 - Apr. 2013, Acidification Potential (AP)CML2001 - Apr. 2013, Eutrophication Potential (EP)CML2001 - Apr. 2013, Freshwater Aquatic Ecotoxicity Pot. (FAETP inf.)CML2001 - Apr. 2013, Global Warming Potential (GWP 100 years)CML2001 - Apr. 2013, Global Warming Potential (GWP 100 years), excl biogenic carbonCML2001 - Apr. 2013, Global Warming Potential (GWP 100), excl bio. C, incl LUC, no norm/weightCML2001 - Apr. 2013, Global Warming Potential (GWP 100), incl bio. C, incl LUC, no norm/weightCML2001 - Apr. 2013, Global Warming Potential (GWP 100), Land Use Change only, no norm/weightCML2001 - Apr. 2013, Human Toxicity Potential (HTP inf.)CML2001 - Apr. 2013, Marine Aquatic Ecotoxicity Pot. (MAETP inf.)CML2001 - Apr. 2013, Ozone Layer Depletion Potential (ODP, steady state)CML2001 - Apr. 2013, Photochem. Ozone Creation Potential (POCP)CML2001 - Apr. 2013, Terrestric Ecotoxicity Potential (TETP inf.)Ecotoxicity freshwater midpoint (v1.06)EDIP 2003, Acidification potentialEDIP 2003, Aquatic eutrophicationEDIP 2003, Global warmingEDIP 2003, Photochemical ozone formation - impact on human health and materialsEDIP 2003, Photochemical ozone formation - impact on vegetationEDIP 2003, Stratospheric ozone depletionEDIP 2003, Terrestrial eutrophicationEutrophication freshwater midpoint (v1.06)Human toxicity midpoint, cancer effects (v1.06)Human toxicity midpoint, non-cancer effects (v1.06)I02+ v2.1 - Aquatic acidification - MidpointI02+ v2.1 - Aquatic ecotoxicity - MidpointI02+ v2.1 - Aquatic eutrophication - MidpointI02+ v2.1 - Carcinogens - MidpointI02+ v2.1 - Global warming 500yr - MidpointI02+ v2.1 - Ionizing radiation - MidpointI02+ v2.1 - Land occupation - MidpointI02+ v2.1 - Mineral extraction - MidpointI02+ v2.1 - Non-carcinogens - MidpointI02+ v2.1 - Non-renewable energy - MidpointI02+ v2.1 - Ozone layer depletion - MidpointI02+ v2.1 - Photochemical oxidation - MidpointI02+ v2.1 - Respiratory effects - MidpointI02+ v2.1 - Terrestrial acidification/nutrification - MidpointI02+ v2.1 - Terrestrial ecotoxicity - MidpointIonizing radiation midpoint, human health (v1.06)IPCC AR5 GTP100, excl biogenic carbonIPCC AR5 GTP100, excl biogenic carbon, incl Land Use Change, no norm/weightIPCC AR5 GTP100, incl biogenic carbonIPCC AR5 GTP100, incl biogenic carbon, incl Land Use Change, no norm/weightIPCC AR5 GTP100, Land Use Change only, no norm/weightIPCC AR5 GTP100, Land Use Change only, no norm/weightIPCC AR5 GTP20, excl biogenic carbonIPCC AR5 GTP20, excl biogenic carbon, incl Land Use Change, no norm/weightIPCC AR5 GTP20, incl biogenic carbonIPCC AR5 GTP20, incl biogenic carbon, incl Land Use Change, no norm/weightIPCC AR5 GTP20, Land Use Change only, no norm/weightIPCC AR5 GTP20, Land Use Change only, no norm/weightIPCC AR5 GTP50, excl biogenic carbonIPCC AR5 GTP50, excl biogenic carbon, incl Land Use Change, no norm/weightIPCC AR5 GTP50, incl biogenic carbonIPCC AR5 GTP50, incl biogenic carbon, incl Land Use Change, no norm/weightIPCC AR5 GTP50, Land Use Change only, no norm/weightIPCC AR5 GTP50, Land Use Change only, no norm/weightIPCC AR5 GWP100, excl biogenic carbonIPCC AR5 GWP100, excl biogenic carbon, incl Land Use Change, no norm/weightIPCC AR5 GWP100, incl biogenic carbonIPCC AR5 GWP100, incl biogenic carbon, incl Land Use Change, no norm/weightIPCC AR5 GWP100, Land Use Change only, no norm/weightIPCC AR5 GWP100, Land Use Change only, no norm/weightIPCC AR5 GWP20, excl biogenic carbonIPCC AR5 GWP20, excl biogenic carbon, incl Land Use Change, no norm/weightIPCC AR5 GWP20, incl biogenic carbonIPCC AR5 GWP20, incl biogenic carbon, incl Land Use Change, no norm/weightIPCC AR5 GWP20, Land Use Change only, no norm/weightIPCC AR5 GWP20, Land Use Change only, no norm/weightClimate change midpoint, excl biogenic carbon (v1.06)Climate change midpoint, incl biogenic carbon (v1.06)Eutrophication marine midpoint (v1.06)Primary energy demand from ren. and non ren. resources (gross cal. value)Primary energy demand from ren. and non ren. resources (net cal. value)Primary energy from non renewable resources (gross cal. value)Primary energy from non renewable resources (net cal. value)Primary energy from renewable resources (gross cal. value)Primary energy from renewable resources (net cal. value)ReCiPe 1.08 Endpoint (E) - Agricultural land occupationReCiPe 1.08 Endpoint (E) - Climate change Ecosystems, default, excl biogenic carbonReCiPe 1.08 Endpoint (E) - Climate change Ecosystems, excl biog. C, incl LUC, no norm/weightReCiPe 1.08 Endpoint (H) - Climate change Ecosystems, incl biog. C, incl LUC, no norm/weightReCiPe 1.08 Endpoint (H) - Climate change Ecosystems, incl biogenic carbonReCiPe 1.08 Endpoint (H) - Climate change Ecosystems, LUC only, no norm/weightReCiPe 1.08 Endpoint (H) - Climate change Human Health, default, excl biogenic carbonReCiPe 1.08 Endpoint (H) - Climate change Human Health, excl biog. C, incl LUC, no norm/weightReCiPe 1.08 Endpoint (H) - Climate change Human Health, incl biog. C, incl LUC, no norm/weightReCiPe 1.08 Endpoint (H) - Climate change Human Health, incl biogenic carbonReCiPe 1.08 Endpoint (H) - Climate change Human Health, LUC only, no norm/weightReCiPe 1.08 Endpoint (H) - Fossil depletionReCiPe 1.08 Endpoint (H) - Freshwater ecotoxicityReCiPe 1.08 Endpoint (H) - Freshwater eutrophicationReCiPe 1.08 Endpoint (H) - Human toxicityReCiPe 1.08 Endpoint (H) - Ionising radiationReCiPe 1.08 Endpoint (H) - Marine ecotoxicityReCiPe 1.08 Endpoint (H) - Metal depletionReCiPe 1.08 Endpoint (H) - Natural land transformationReCiPe 1.08 Endpoint (H) - Ozone depletionReCiPe 1.08 Endpoint (H) - Particulate matter formationReCiPe 1.08 Endpoint (H) - Photochemical oxidant formationReCiPe 1.08 Endpoint (H) - Terrestrial acidificationReCiPe 1.08 Endpoint (H) - Terrestrial ecotoxicityReCiPe 1.08 Endpoint (H) - Urban land occupationReCiPe 1.08 Endpoint (I) - Agricultural land occupationReCiPe 1.08 Endpoint (I) - Climate change Ecosystems, default, excl biogenic carbonReCiPe 1.08 Endpoint (I) - Climate change Ecosystems, excl biog. C, incl LUC, no norm/weightReCiPe 1.08 Endpoint (I) - Climate change Ecosystems, incl biog. C, incl LUC, no norm/weightReCiPe 1.08 Endpoint (I) - Climate change Ecosystems, incl biogenic carbonReCiPe 1.08 Endpoint (I) - Climate change Ecosystems, LUC only, no norm/weightReCiPe 1.08 Endpoint (I) - Climate change Human Health, default, excl biogenic carbonReCiPe 1.08 Endpoint (I) - Climate change Human Health, excl biog. C, incl LUC, no norm/weightReCiPe 1.08 Endpoint (I) - Climate change Human Health, incl biog. C, incl LUC, no norm/weightReCiPe 1.08 Endpoint (I) - Climate change Human Health, incl biogenic carbonReCiPe 1.08 Endpoint (I) - Climate change Human Health, LUC only, no norm/weightReCiPe 1.08 Endpoint (I) - Fossil depletionReCiPe 1.08 Endpoint (I) - Freshwater ecotoxicityReCiPe 1.08 Endpoint (I) - Freshwater eutrophicationReCiPe 1.08 Endpoint (I) - Human toxicityReCiPe 1.08 Endpoint (I) - Ionising radiationReCiPe 1.08 Endpoint (I) - Marine ecotoxicityReCiPe 1.08 Endpoint (I) - Metal depletionReCiPe 1.08 Endpoint (I) - Natural land transformationReCiPe 1.08 Endpoint (I) - Ozone depletionReCiPe 1.08 Endpoint (I) - Particulate matter formationReCiPe 1.08 Endpoint (I) - Photochemical oxidant formationReCiPe 1.08 Endpoint (I) - Terrestrial acidificationReCiPe 1.08 Endpoint (I) - Terrestrial ecotoxicityReCiPe 1.08 Endpoint (I) - Urban land occupationReCiPe 1.08 Midpoint (E) - Agricultural land occupationReCiPe 1.08 Midpoint (E) - Climate change, default, excl biogenic carbonReCiPe 1.08 Midpoint (E) - Climate change, excl biog. C, incl LUC, no norm/weightReCiPe 1.08 Midpoint (E) - Climate change, incl biog. C, incl LUC, no norm/weightReCiPe 1.08 Midpoint (E) - Climate change, incl biogenic carbonReCiPe 1.08 Midpoint (E) - Climate change, LUC only, no norm/weightReCiPe 1.08 Midpoint (E) - Fossil depletionReCiPe 1.08 Midpoint (E) - Freshwater ecotoxicityReCiPe 1.08 Midpoint (E) - Freshwater eutrophicationReCiPe 1.08 Midpoint (E) - Human toxicityReCiPe 1.08 Midpoint (E) - Ionising radiationReCiPe 1.08 Midpoint (E) - Marine ecotoxicityReCiPe 1.08 Midpoint (E) - Marine eutrophicationReCiPe 1.08 Midpoint (E) - Natural land transformationReCiPe 1.08 Midpoint (E) - Ozone depletionReCiPe 1.08 Midpoint (E) - Particulate matter formationReCiPe 1.08 Midpoint (E) - Photochemical oxidant formationReCiPe 1.08 Midpoint (E) - Terrestrial acidificationReCiPe 1.08 Midpoint (E) - Terrestrial ecotoxicityReCiPe 1.08 Midpoint (E) - Urban land occupationReCiPe 1.08 Midpoint (E) - Water depletionReCiPe 1.08 Midpoint (H) - Agricultural land occupationReCiPe 1.08 Midpoint (H) - Climate change, default, excl biogenic carbonReCiPe 1.08 Midpoint (H) - Climate change, excl biog. C, incl LUC, no norm/weightReCiPe 1.08 Midpoint (H) - Climate change, incl biog. C, incl LUC, no norm/weightReCiPe 1.08 Midpoint (H) - Climate change, incl biogenic carbonReCiPe 1.08 Midpoint (H) - Climate change, LUC only, no norm/weightReCiPe 1.08 Midpoint (H) - Fossil depletionReCiPe 1.08 Midpoint (H) - Freshwater ecotoxicityReCiPe 1.08 Midpoint (H) - Freshwater eutrophicationReCiPe 1.08 Midpoint (H) - Human toxicityReCiPe 1.08 Midpoint (H) - Ionising radiationReCiPe 1.08 Midpoint (H) - Marine ecotoxicityReCiPe 1.08 Midpoint (H) - Marine eutrophicationReCiPe 1.08 Midpoint (H) - Metal depletionReCiPe 1.08 Midpoint (H) - Natural land transformationReCiPe 1.08 Midpoint (H) - Ozone depletionReCiPe 1.08 Midpoint (H) - Particulate matter formationReCiPe 1.08 Midpoint (H) - Photochemical oxidant formationReCiPe 1.08 Midpoint (H) - Terrestrial acidificationReCiPe 1.08 Midpoint (H) - Terrestrial ecotoxicityReCiPe 1.08 Midpoint (H) - Urban land occupationReCiPe 1.08 Midpoint (H) - Water depletionReCiPe 1.08 Midpoint (I) - Agricultural land occupationReCiPe 1.08 Midpoint (I) - Climate change, default, excl biogenic carbonReCiPe 1.08 Midpoint (I) - Climate change, excl biog. C, incl LUC, no norm/weightReCiPe 1.08 Midpoint (I) - Climate change, incl biog. C, incl LUC, no norm/weightReCiPe 1.08 Midpoint (I) - Climate change, incl biogenic carbonReCiPe 1.08 Midpoint (I) - Climate change, LUC only, no norm/weightReCiPe 1.08 Midpoint (I) - Fossil depletionReCiPe 1.08 Midpoint (I) - Freshwater ecotoxicityReCiPe 1.08 Midpoint (I) - Freshwater eutrophicationReCiPe 1.08 Midpoint (I) - Human toxicityReCiPe 1.08 Midpoint (I) - Ionising radiationReCiPe 1.08 Midpoint (I) - Marine ecotoxicityReCiPe 1.08 Midpoint (I) - Marine eutrophicationReCiPe 1.08 Midpoint (I) - Metal depletionReCiPe 1.08 Midpoint (I) - Natural land transformationReCiPe 1.08 Midpoint (I) - Ozone depletionReCiPe 1.08 Midpoint (I) - Particulate matter formationReCiPe 1.08 Midpoint (I) - Photochemical oxidant formationReCiPe 1.08 Midpoint (I) - Terrestrial acidificationReCiPe 1.08 Midpoint (I) - Terrestrial ecotoxicityReCiPe 1.08 Midpoint (I) - Urban land occupationReCiPe 1.08 Midpoint (I) - Water depletionTotal freshwater consumption (including rainwater)Total freshwater useTRACI 2.1, AcidificationTRACI 2.1, Ecotoxicity (recommended)TRACI 2.1, EutrophicationTRACI 2.1, Global Warming Air, excl biogenic carbon, incl LUC, no norm/weightTRACI 2.1, Global Warming Air, excl. biogenic carbonTRACI 2.1, Global Warming Air, incl biogenic carbon, incl LUC, no norm/weightTRACI 2.1, Global Warming Air, incl. biogenic carbonTRACI 2.1, Global Warming Air, LUC only, no norm/weightTRACI 2.1, Human Health Particulate AirTRACI 2.1, Human toxicity, cancer (recommended)TRACI 2.1, Human toxicity, non-canc. (recommended)TRACI 2.1, Ozone Depletion AirTRACI 2.1, Resources, Fossil fuelsTRACI 2.1, Smog AirUBP 2013, Carcinogenic substances into airUBP 2013, Energy resourcesUBP 2013, Global warmingUBP 2013, Global warming, incl Land Use ChangeUBP 2013, Global warming, Land Use Change onlyUBP 2013, Heavy metals into airUBP 2013, Heavy metals into soilUBP 2013, Heavy metals into waterUBP 2013, Land useUBP 2013, Main air pollutantsUBP 2013, Mineral resourcesUBP 2013, Non radioactive waste to depositUBP 2013, Ozone layer depletionUBP 2013, Pesticides into soilUBP 2013, POP into waterUBP 2013, Radioactive substances into airUBP 2013, Radioactive substances into waterUBP 2013, Radioactive waste to depositUBP 2013, Water pollutantsUBP 2013, Water resources"All steps of the study were carried out according to the standards ISO 14040:2006 and ISO 14044:2006. They are scientifically based and reflecting the state of the art. Results and data are consistent. Used data are appropriate for the goal and scope of the study. Necessary recommendations for the report were discussed during the review. The presentation of results is transparent and consistent.
A Certification, which displays the execution of a comparative life cycle assessment study according to the standards ISO 14040:2006 and ISO 14044:2006, is approved by the reviewer."TÜV RheinlandCertification can be found here:
https://www.certipedia.com/quality_marks/0000027153?locale=de&qm_locale=enISO 14040 Environmental Management – Life Cycle Assessment – Principles and Framework, 2005Fully compliantFully compliantFully compliantFully compliantFully compliantNot definedISO 14044 Environmental Management – Life Cycle Assessment – Requirements and Guidelines, 2005Fully compliantFully compliantFully compliantFully compliantFully compliantNot definedILCD Data Network - Entry-levelNot definedFully compliantFully compliantNot definedFully compliantNot definedEvonik Nutrition & Care GmbHThe data set represents a cradle to gate inventory.It can be used to characterise the supply chain situation of the respective commodity in a representative manner. Combination with individual unit processes using this commodity enables the generation of user-specific (product) LCAs. The data set does not necessarily fit for any possible specific supply situation - especially if significantly different technology routes exist - but is representative for the company specific supply chain situation.Evonik Technology & Infrastructure GmbH2019-02-01T00:00:00.000ILCD format 1.1Evonik Technology & Infrastructure GmbHEvonik Nutrition & Care GmbH2019-02-01T00:00:00.00000.00.001Data set finalised; entirely publishedGaBi databasesEvonik Nutrition & Care GmbHtrueOtherTrypAMINO (Trp content 98%)Output1.01.00Mixed primary / secondaryUnknown derivationvaluable