From 11585429b0d8e468b65a7887a748d1ad387c383d Mon Sep 17 00:00:00 2001 From: martavp Date: Tue, 25 Oct 2022 09:28:18 +0200 Subject: [PATCH] small spelling corrections --- doc/supply_demand.rst | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/doc/supply_demand.rst b/doc/supply_demand.rst index 8e30346f..51bb1ea9 100644 --- a/doc/supply_demand.rst +++ b/doc/supply_demand.rst @@ -458,7 +458,7 @@ The production of ammonia, methanol, and chlorine production is deducted from th The process emissions from feedstock in the chemical industry are as high as 0.369 t $_{CO_2}$/t of ethylene equivalent. We consider process emissions for all the material output, which is a conservative approach since it assumes that all plastic-embedded $CO_2$ will eventually be released into the atmosphere. However, plastic disposal in landfilling will avoid, or at least delay, associated $CO_2$ emissions. Circular economy practices drastically reduce the amount of primary feedstock needed for the production of plastics in the model (see `Kullmann et al. `_, `Meys et al. (2021) `_, `Meys et al. (2020) `_, `Gu et al. `_) and consequently, also the energy demands and level of process emission. The percentage of plastics that are asumed to be mechanically recycled can be selected in the `config file `_, as well as -the percentage that is chemically recycled `config file `_ The energy consumption for those recycling process are respectively `0.547 MWh $_{el}$/t of HVC `_ (`Meys et al. (2020) `_), and `6.9 MWh $_{el}$/t of HVC of HVC `_ based on pyrolysis and electric steam cracking (see `Materials Economics `_ report, ). +the percentage that is chemically recycled, see `config file `_ The energy consumption for those recycling process are respectively 0.547 MWh $_{el}$/t of HVC (as indicated in the `config file `_) (`Meys et al. (2020) `_), and 6.9 MWh $_{el}$/t of HVC (as indicated in the config file ``_) based on pyrolysis and electric steam cracking (see `Materials Economics `_ report). **Non-metallic Mineral Products**