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A list of all pages that have property "Description" with value "'''Advancement per volume''' or volume-specific advancement, dtr''Y'', is related to [[advancement]] of a transformation, dtr''Y'' = dtr''ξ''∙''V''-1 [MU∙L-1]. Compare dtr''Y'' with the amount of substance ''j'' per volume, ''c''''j'' ([[concentration]]), related to [[amount]], ''c''''j'' = ''n''''j''∙''V''-1 [mol∙''V''-1]. Advancement per volume is particularly introduced for chemical reactions, dr''Y'', and has the dimension of concentration (amount per volume [mol∙L-1]). In an [[open system]] at steady-state, however, the concentration does not change as the reaction advances. Only in [[closed system]]s and [[isolated system]]s, specific advancement equals the change in concentration spanided by the stoichiometric number, dr''Y'' = d''c''''j''/''ν''''j'' (closed system) dr''Y'' = dr''c''''j''/''ν''''j'' (general) With a focus on ''internal'' transformations (i; specifically: chemical reactions, r), d''c''''j'' is replaced by the partial change of concentration, dr''c''''j'' (a transformation variable or process variable). dr''c''''j'' contributes to the total change of concentration, d''c''''j'' (a system variable or variable of state). In open systems at steady-state, dr''c''''j'' is compensated by ''external processes'', de''c''''j'' = -dr''c''''j'', exerting an effect on the total concentration change of substance ''j'', d''c''''j'' = dr''c''''j'' + de''c''''j'' = 0 (steady state) d''c''''j'' = dr''c''''j'' + de''c''''j'' (general)". Since there have been only a few results, also nearby values are displayed.

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Advancement per volume + ('''Advancement per volume''' or volume-spe … '''Advancement per volume''' or volume-specific advancement, dtr''Y'', is related to [[advancement]] of a transformation, dtr''Y'' = dtr''ξ''∙''V''-1 [MU∙L-1]. Compare dtr''Y'' with the amount of substance ''j'' per volume, ''c''''j'' ([[concentration]]), related to [[amount]], ''c''''j'' = ''n''''j''∙''V''-1 [mol∙''V''-1]. Advancement per volume is particularly introduced for chemical reactions, dr''Y'', and has the dimension of concentration (amount per volume [mol∙L-1]). In an [[open system]] at steady-state, however, the concentration does not change as the reaction advances. Only in [[closed system]]s and [[isolated system]]s, specific advancement equals the change in concentration divided by the stoichiometric number, dr''Y'' = d''c''''j''/''ν''''j'' (closed system) dr''Y'' = dr''c''''j''/''ν''''j'' (general) With a focus on ''internal'' transformations (i; specifically: chemical reactions, r), d''c''''j'' is replaced by the partial change of concentration, dr''c''''j'' (a transformation variable or process variable). dr''c''''j'' contributes to the total change of concentration, d''c''''j'' (a system variable or variable of state). In open systems at steady-state, dr''c''''j'' is compensated by ''external processes'', de''c''''j'' = -dr''c''''j'', exerting an effect on the total concentration change of substance ''j'', d''c''''j'' = dr''c''''j'' + de''c''''j'' = 0 (steady state) d''c''''j'' = dr''c''''j'' + de''c''''j'' (general)sses'', de''c''''j'' = -dr''c''''j'', exerting an effect on the total concentration change of substance ''j'', d''c''''j'' = dr''c''''j'' + de''c''''j'' = 0 (steady state) d''c''''j'' = dr''c''''j'' + de''c''''j'' (general))

Advancement per volume +