From bcf28f2684ae4a5d5c12fb63f7adef74ccf7824e Mon Sep 17 00:00:00 2001 From: stap-m Date: Fri, 20 Oct 2023 21:43:33 +0200 Subject: [PATCH] add final term tracker items to moved entities in oeo-sector #1399 --- src/ontology/edits/oeo-sector.omn | 307 +++++++++++++++++++++++++----- 1 file changed, 257 insertions(+), 50 deletions(-) diff --git a/src/ontology/edits/oeo-sector.omn b/src/ontology/edits/oeo-sector.omn index eb81d9c9e..72cd0ccae 100644 --- a/src/ontology/edits/oeo-sector.omn +++ b/src/ontology/edits/oeo-sector.omn @@ -3152,7 +3152,10 @@ Individual: OEO_00010207 Annotations: "Term used by the European Environment Agency (EEA): https://climate-energy.eea.europa.eu/topics/climate-change-mitigation/greenhouse-gas-emissions-inventory/data" "total net emissions with international transport (EEA)", - rdfs:label "total emissions including LULUCF and including international bunkers"@en + "move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", + rdfs:label "total emissions including LULUCF and including international bunkers"@en Types: OEO_00000367 @@ -3173,7 +3176,11 @@ Individual: OEO_00010208 Annotations: "Term used by the European Environment Agency (EEA): https://climate-energy.eea.europa.eu/topics/climate-change-mitigation/greenhouse-gas-emissions-inventory/data" "total emissions with international aviation (EU 2020)", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/928 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/944", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/944 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "total emissions excluding LULUCF and including international aviation"@en Types: @@ -3195,7 +3202,11 @@ Individual: OEO_00010209 Annotations: "Term used by the European Environment Agency (EEA): https://climate-energy.eea.europa.eu/topics/climate-change-mitigation/greenhouse-gas-emissions-inventory/data" "total net emissions with international aviation (NDC)", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/928 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/944", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/944 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "total emissions including LULUCF and including international aviation"@en Types: @@ -3214,7 +3225,11 @@ Individual: OEO_00010228 "The CRF sector (IPCC 2006): 'CO2 emissions from biomass' is a sector defined by the 2006 IPCC Guidelines for National Greenhouse Gas Inventories: CO2 emissions from biomass combustion are not included in national totals, but are recorded as an information item for cross-checking purposes as well as avoiding double counting.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 2, Chapter 1, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/858 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/965", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/965 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): CO2 emissions from biomass"@en Types: @@ -3232,7 +3247,11 @@ Individual: OEO_00010229 "The CRF sector (IPCC 2006): 'CO2 captured' is a sector defined by the 2006 IPCC Guidelines for National Greenhouse Gas Inventories: It encompasses the total amount of CO2 captured for storage.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 2, Chapter 5.9, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/858 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/965", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/965 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): CO2 captured"@en Types: @@ -3253,7 +3272,11 @@ Individual: OEO_00010230 "The CRF sector (IPCC 2006): 'indirect CO2' is a sector defined by the 2006 IPCC Guidelines for National Greenhouse Gas Inventories: It encompasses Methane, carbon monoxide (CO) or NMVOC emissions that will eventually be oxidised to CO2 in the atmosphere.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 7.2.1.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/858 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/965", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/965 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): indirect CO2"@en Types: @@ -3278,7 +3301,11 @@ pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1317 Improve definition and axioms: issue: https://github.com/OpenEnergyPlatform/ontology/issues/1449 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1462", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1462 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "NC/BR sector: energy"@en Types: @@ -3298,7 +3325,11 @@ Individual: OEO_00010306 Annotations: "The NC/BR sector \"transport\" is a transport sector defined by an NC/BR sector division. It aligns to the CRF sector (IPCC 2006): transport.", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1273 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1317", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1317 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "NC/BR sector: transport"@en Types: @@ -3320,7 +3351,11 @@ pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1317 Improve definition and axioms: issue: https://github.com/OpenEnergyPlatform/ontology/issues/1449 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1462", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1462 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "NC/BR sector: industry/industrial processes and product use"@en Types: @@ -3341,7 +3376,11 @@ pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1317 Improve definition and axioms: issue: https://github.com/OpenEnergyPlatform/ontology/issues/1449 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1462", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1462 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "NC/BR sector: agriculture"@en Types: @@ -3361,7 +3400,11 @@ pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1317 Improve definition and axioms: issue: https://github.com/OpenEnergyPlatform/ontology/issues/1449 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1462", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1462 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "NC/BR sector: forestry/LULUCF"@en Types: @@ -3381,7 +3424,11 @@ pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1317 Improve definition and axioms: issue: https://github.com/OpenEnergyPlatform/ontology/issues/1449 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1462", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1462 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "NC/BR sector: waste management/waste"@en Types: @@ -3401,7 +3448,11 @@ pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1317 Improve definition and axioms: issue: https://github.com/OpenEnergyPlatform/ontology/issues/1449 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1462", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1462 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "NC/BR sector: other"@en Types: @@ -3420,6 +3471,9 @@ Individual: OEO_00010338 This comprises fugitive emissions from the systems used to transport captured CO2 from the source to the injection site. These emissions may comprise losses due to fugitive equipment leaks, venting and releases due to pipeline ruptures or other accidental releases (e.g., temporary storage).", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", + "move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): transport of CO2"@en Types: @@ -3437,7 +3491,10 @@ Individual: OEO_00010339 "The CRF sector (IPCC 2006) 'pipelines' is a sector defined by the 2006 IPCC Guidelines for National Greenhouse Gas Inventories: Fugitive emissions from activities and equipment at the injection site and those from the end containment once the CO2 is placed in storage.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", - rdfs:label "CRF sector (IPCC 2006): injection and storage"@en + "move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", + rdfs:label "CRF sector (IPCC 2006): injection and storage"@en Types: OEO_00000367 @@ -3454,6 +3511,9 @@ Individual: OEO_00010340 "The CRF sector (IPCC 2006) 'CO2 transport and storage' is a sector defined by the 2006 IPCC Guidelines for National Greenhouse Gas Inventories: Any other emissions from CCS not reported elsewhere.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", + "move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): CO2 transport and storage - other"@en Types: @@ -3472,7 +3532,11 @@ Individual: OEO_00010341 Process-related emissions from the production of various types of lime (ISIC: D2694).", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): lime production"@en Types: @@ -3491,7 +3555,11 @@ Individual: OEO_00010342 Process-related emissions from the production of various types of glass (ISIC: D2610).", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): glass production"@en Types: @@ -3511,7 +3579,11 @@ Includes limestone, dolomite and other carbonates etc. Emissions from the use of subcategory.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): other process uses of carbonates"@en Types: @@ -3530,7 +3602,11 @@ Individual: OEO_00010344 Ammonia (NH3) is a major industrial chemical and the most important nitrogenous material produced. Ammonia gas is used directly as a fertilizer, in heat treating, paper pulping, nitric acid and nitrates manufacture, nitric acid ester and nitro compound manufacture, explosives of various types, and as a refrigerant. Amines, amides, and miscellaneous other organic compounds, such as urea, are made from ammonia. The main greenhouse gas emitted from NH3 production is CO2. CO2 used in the production of urea, a downstream process, should be subtracted from the CO2 generated and accounted for in the AFOLU Sector.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): ammonia production"@en Types: @@ -3549,7 +3625,11 @@ Individual: OEO_00010345 Nitric acid is used as a raw material mainly in the manufacture of nitrogenous-based fertiliser. Nitric acid may also be used in the production of adipic acid and explosives (e.g., dynamite), for metal etching and in the processing of ferrous metals. The main greenhouse gas emitted from HNO3 production is nitrous oxide", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): nitric acid production"@en Types: @@ -3569,7 +3649,11 @@ Adipic acid is used in the manufacture of a large number of products including s use. The main greenhouse gas emitted from adipic acid production is nitrous oxide.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): adipic acid production"@en Types: @@ -3588,7 +3672,11 @@ Individual: OEO_00010347 Most of the annual production of caprolactam (NH(CH2)5CO) is consumed as the monomer for nylon-6 fibres and plastics, with a substantial proportion of the fibre used in carpet manufacturing. All commercial processes for the manufacture of caprolactam are based on either toluene or benzene. This subcategory also covers production of glyoxal (ethanedial) and glyoxylic acid production. The main greenhouse gas emitted from this subcategory is nitrous oxide.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): caprolactam, gloxal and glyoxylic acid production"@en Types: @@ -3607,7 +3695,11 @@ Individual: OEO_00010348 The production of carbide can result in emissions of CO2, CH4, CO and SO2. Silicon carbide is a significant artificial abrasive. It is produced from silica sand or quartz and petroleum coke. Calcium carbide is used in the production of acetylene, in the manufacture of cyanamide (a minor historical use), and as a reductant in electric arc steel furnaces. It is made from calcium carbonate (limestone) and carbon-containing reductant (petroleum coke).", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): carbide production"@en Types: @@ -3626,7 +3718,11 @@ Individual: OEO_00010349 Titanium dioxide (TiO2) is the most important white pigment. The main use is in paint manufacture followed by paper, plastics, rubber, ceramics, fabrics, floor covering, printing ink, and other miscellaneous uses. The main production process is the chloride route, giving rise to CO2 emissions that are likely to be significant. This category also includes synthetic rutile production using the Becher process, and titanium slag production, both of which are reduction processes using fossil fuels and resulting in CO2 emissions. Synthetic rutile is the major input to TiO2 production using the chloride route.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): titanium dioxide production"@en Types: @@ -3645,7 +3741,11 @@ Individual: OEO_00010350 Soda ash (sodium carbonate, Na2CO3) is a white crystalline solid that is used as a raw material in a large number of industries including glass manufacture, soap and detergents, pulp and paper production and water treatment. Emissions of CO2 from the production of soda ash vary dependent on the manufacturing process. Four different processes may be used to produce soda ash. Three of these processes, monohydrate, sodium sesquicarbonate (trona) and direct carbonation, are referred to as natural processes. The fourth, the Solvay process, is classified as a synthetic process.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): soda ash production"@en Types: @@ -3663,7 +3763,11 @@ Individual: OEO_00010351 "The CRF sector (IPCC 2006) 'petrochemical and carbon black production' is an industry sector defined by the 2006 IPCC Guidelines for National Greenhouse Gas Inventories:", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): petrochemical and carbon black production"@en Types: @@ -3681,7 +3785,11 @@ Individual: OEO_00010352 "The CRF sector (IPCC 2006) 'fluorochemical production' is an industry sector defined by the 2006 IPCC Guidelines for National Greenhouse Gas Inventories:", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): fluorochemical production"@en Types: @@ -3700,7 +3808,11 @@ Individual: OEO_00010353 For example, gases with global warming potential listed in IPCC assessment reports that do not fall within any categories above could be reported here, if they are estimated.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): chemical industry - other"@en Types: @@ -3720,7 +3832,11 @@ Ferroalloys production covers emissions from primary metallurgical reduction pro emissions relating to fuel use. From the production of these alloys, carbon dioxide (CO2), nitrous oxide (N2O), and methane (CH4) originating from ore- and reductant raw materials, is emitted.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): ferroalloys production"@en Types: @@ -3742,7 +3858,11 @@ emissions are not associated with primary aluminium production; however, casting Production.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): aluminium production"@en Types: @@ -3762,7 +3882,11 @@ Magnesium production covers GHG emissions related to both primary magnesium prod thermal decomposition and/or reaction between these compounds and liquid magnesium generates secondary compounds such as perfluorocarbons (PFCs), which are emitted in addition to unreacted cover gas constituents.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): magnesium production"@en Types: @@ -3782,7 +3906,11 @@ Lead production covers production by the sintering/smelting process as well as d processes.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): lead production"@en Types: @@ -3801,7 +3929,11 @@ Individual: OEO_00010358 Zinc production covers emissions from both primary production of zinc from ore as well as recovery of zinc from scrap metals, excluding emissions related to fuel use. Following calcination, zinc metal is produced through one of three methods; 1-electro-thermic distillation, 2-pyrometallurgical smelting or 3-electrolysis. If method 1 or 2 is used, carbon dioxide (CO2) is emitted. Method 3 does not result in carbon dioxide emissions. Recovery of zinc from metal scrap often uses the same methods as primary production and may thus produce carbon dioxide emissions, which is included in this section.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): zinc production"@en Types: @@ -3819,7 +3951,11 @@ Individual: OEO_00010359 "The CRF sector (IPCC 2006) 'metal industry - other' is an industry sector defined by the 2006 IPCC Guidelines for National Greenhouse Gas Inventories:", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): metal industry - other"@en Types: @@ -3839,7 +3975,11 @@ Emissions of CF4, C2F6, C3F8, c-C4F8, C4F6, C4F8O, C5F8, CHF3, CH2F2, NF3 and SF (e.g., memory or logic devices) and equipment manufacturer.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): integrated circuit or semiconductor" Types: @@ -3858,7 +3998,11 @@ Individual: OEO_00010364 Uses and emissions of predominantly CF4, CHF3, NF3 and SF6 during the fabrication of thin-film transistors (TFTs) on glass substrates for flat panel display manufacture. In addition to these gases, C2F6, C3F8 and c-C4F8 may also be used and emitted during the manufacture of thin and smart displays.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): TFT flat panel display"@en Types: @@ -3876,6 +4020,9 @@ Individual: OEO_00010365 "The CRF sector (IPCC 2006) 'photovoltaics' is an industry sector defined by the 2006 IPCC Guidelines for National Greenhouse Gas Inventories: Photovoltaic cell manufacture may use and emit CF4 and C2F6 among others.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", + "move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): photovoltaics"@en Types: @@ -3894,7 +4041,11 @@ Individual: OEO_00010366 Heat transfer fluids, which include several fully fluorinated carbon compounds (either in pure form or in mixtures) with six or more carbon atoms, used and emitted during IC manufacture, testing and assembly. They are used in chillers, temperature shock testers and vapour phase reflow soldering.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): heat transfer fluid"@en Types: @@ -3912,7 +4063,11 @@ Individual: OEO_00010367 "The CRF sector (IPCC 2006) 'electronics industry - other' is an industry sector defined by the 2006 IPCC Guidelines for National Greenhouse Gas Inventories", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): electronics industry - other"@en Types: @@ -3931,7 +4086,11 @@ Individual: OEO_00010368 Refrigeration and air-conditioning systems are usually classified in six application domains or categories. These categories utilise different technologies such as heat exchangers, expansion devices, pipings and compressors. The six application domains are domestic refrigeration, commercial refrigeration, industrial processes, transport refrigeration, stationary air conditioning, mobile airconditioning systems. For all these applications, various HFCs are selectively replacing CFCs and HCFCs. For example, in developed countries, HFC-134a has replaced CFC-12 in domestic refrigeration and mobile air conditioning systems, and blends of HFCs such as R-407C (HFC-32/HFC-125/HFC-134a) and R-410A (HFC-32/HFC-125) are replacing HCFC-22 mainly in stationary air conditioning. Other, non HFC substances are used to replace CFCs and HCFCs such as iso-butane in domestic refrigeration or ammonia in industrial refrigeration. HFC- 152a is also being considered for mobile air conditioning in several regions.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): refrigeration and air conditioning"@en Types: @@ -3950,7 +4109,11 @@ Individual: OEO_00010369 HFCs are being used as replacements for CFCs and HCFCs in foams, particularly in closed-cell insulation applications. Compounds that are being used include HFC-245fa, HFC-365mfc, HFC-227ea, HFC-134a, and HFC-152a. The processes and applications for which these various HFCs are being used include insulation boards and panels, pipe sections, sprayed systems and onecomponent gap filling foams. For open-cell foams, such as integral skin products for automotive steering wheels and facias, emissions of HFCs used as blowing agents are likely to occur during the manufacturing process. In closedcell foam, emissions not only occur during the manufacturing phase, but usually extend into the in-use phase and often the majority of emission occurs at the endof-life (de-commissioning losses). Accordingly, emissions can occur over a period of up to 50 years or even longer.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): foam blowing agents"@en Types: @@ -3969,7 +4132,11 @@ Individual: OEO_00010370 There are two general types of fire protection (fire suppression) equipment that use greenhouse gases as partial replacements for halons: portable (streaming) equipment, and fixed (flooding) equipment. The non-ozone depleting, industrial gases HFCs, PFCs and more recently a fluoroketone are mainly used as substitutes for halons, typically halon 1301, in flooding equipment. PFCs played an early role in halon 1301 replacement but current use is limited to replenishment of previously installed systems. HFCs in portable equipment, typically replacing halon 1211, are available but have achieved very limited market acceptance due primarily to their high cost. PFC use in new portable extinguishers is currently limited to a small amount (few percent) in an HCFC blend.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): fire protection"@en Types: @@ -3988,7 +4155,11 @@ Individual: OEO_00010371 Most aerosol packages now contain hydrocarbon (HC) as propellants but, in a small fraction of the total, HFCs and PFCs may be used as propellants or solvents. Emissions from aerosols usually occur shortly after production, on average six months after sale. During the use of aerosols, 100% of the chemical is emitted. The 5 main sources are metered dose inhalers (MDIs), personal care products (e.g. hair care, deodorant, shaving cream), household products (e.g. air-fresheners, oven and fabric cleaners), industrial products (e.g. special cleaning sprays such as those for operating electrical contact, lubricants, pipe-freezers) and other general products (e.g. silly string, tire inflators, claxons), although in some regions the use of such general products is restricted. The HFCs currently used as propellants are HFC 134a, HFC 227ea, and HFC 152a. The substance HFC 43 10mee and a PFC, perfluorohexane, are used as solvents in industrial aerosol products.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): aerosols"@en Types: @@ -4007,7 +4178,11 @@ Individual: OEO_00010372 HFCs and, to a much lesser extent PFCs, are being used as substitutes for ozone depleting substances (most notably CFC-113). Typical HFCs used are HFC-365mfc and HFC-43-10mee. Use of these fluorinated replacements is much less widespread than the ozone depleting substances they replace. Re-capture and re-use is also much more widely practiced The primary areas of use are precision cleaning, electronics cleaning, metal cleaning and deposition applications. Emissions from aerosols containing solvents should be reported undercategory 2F4 \"Aerosols\" rather than under this category.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): solvents"@en Types: @@ -4026,7 +4201,11 @@ Individual: OEO_00010373 The properties of ozone depleting substances have made them attractive for a variety of niche applications not covered in other sub-source categories. These include electronics testing, heat transfer, dielectric fluid and medical applications. The properties of HFCs and PFCs are equally attractive in some of these sectors and they have been adopted as substitutes. There are also some historical uses of PFCs, as well as emerging use of HFCs, in these applications. These applications have leakage rates ranging from 100% emissive in year of application to around 1% per annum.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): other applications"@en Types: @@ -4045,7 +4224,11 @@ Individual: OEO_00010374 Electrical equipment is used in the transmission and distribution of electricity above 1 kV. SF6 is used in gasinsulated switchgear (GIS), gas circuit breakers (GCB), gas-insulated transformers (GIT), gas-insulated lines (GIL), outdoor gas-insulated instrument transformers, reclosers, switches, ring main units and other equipment.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): electrical equipment"@en Types: @@ -4072,7 +4255,11 @@ Identified remaining applications in this source category include: - Other uses e.g. gas-air tracer in research and leak detectors.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 3, Chapter 8.3, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): SF6 and PFCs from other product use"@en Types: @@ -4098,7 +4285,11 @@ Evaporative emissions of nitrous oxide (N2O) can arise from various types of pro - Oxidising agent in blowtorches used by jewelers and others.", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 3, Chapter 8.4.1, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): N2O from product use"@en Types: @@ -4116,7 +4307,11 @@ Individual: OEO_00010377 "The CRF sector (IPCC 2006) 'other product manufacture and use - other' is an industry sector defined by the 2006 IPCC Guidelines for National Greenhouse Gas Inventories", "2006 IPCC Guidelines for National Greenhouse Gas Inventories, Volume 1, Chapter 8.5, https://www.ipcc-nggip.iges.or.jp/public/2006gl/", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1401 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1440 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "CRF sector (IPCC 2006): other product manufacture and use - other"@en Types: @@ -4132,7 +4327,11 @@ Individual: OEO_00010389 Annotations: "The RED sector electricity is an electricity sector defined by the Renewable Energy Directive sector division.", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1443 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1446", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1446 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "RED sector: electricity"@en Types: @@ -4147,7 +4346,11 @@ Individual: OEO_00010390 Annotations: "The RED sector heating and cooling is a heating and cooling sector defined by the Renewable Energy Directive sector division.", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1443 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1446", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1446 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "RED sector: heating and cooling"@en Types: @@ -4162,7 +4365,11 @@ Individual: OEO_00010391 Annotations: "The RED sector heating and cooling is a heating and cooling sector defined by the Renewable Energy Directive sector division.", "issue: https://github.com/OpenEnergyPlatform/ontology/issues/1443 -pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1446", +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1446 + +move to oeo-sector +issue: https://github.com/OpenEnergyPlatform/ontology/issues/1399 +pull request: https://github.com/OpenEnergyPlatform/ontology/pull/1724", rdfs:label "RED sector: transport"@en Types: