Chlorodifluoromethane (R22, HCFC-22); reaction of trichloromethane with hydrogen fluoride; production mix, at plant; 3.94 kg/m3, 86.47 g/mol

Materials production/Organic chemicals
GB - United Kingdom
Reference year: 2019 - 2022

This dataset is part of the GaBi 2020 database.

The data set covers all relevant process steps / technologies over the supply chain of the represented cradle to gate inventory with a good overall data quality. The inventory is mainly based on industry data and is completed, where necessary, by secondary data. This data set is based on primary data from internationally adopted production processes, connected with regional precursor chains.


Foreground system:

Chlorofluoroalkanes are produced by halogen exchange, they are therefore reacted with hydrogen fluoride. The reaction takes place in the liquid phase in the presence of a catalyst. A steam- heated autoclave is used as a reactor. In the current dataset, it is fed with trichloromethane, hydrogen fluoride, antimony chloride (catalyst) and a little amount of chlorine. Temperatures around 100°C and pressures around 3MPa are achieved. The fluorination product is removed together with the useful by- product hydrogen chloride. The product is first washed with water, then with caustic soda. It is purified by distillation.

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.

Process type
Fully aggregated
Supported nomenclature
ILCD, EF2.0, EF3.0
LCI modeling approach
Multifunctional modeling
Aggregation type
Data provider
Review status
For sale

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