Steady state (chemistry)
http://dbpedia.org/resource/Steady_state_(chemistry) an entity of type: ProgrammingLanguage
L'approximation des états quasi stationnaires (AEQS) est une hypothèse parfois prise en physique, en chimie et tout particulièrement en cinétique chimique, elle est alors également appelée le principe de Bodenstein.
rdf:langString
In cinetica chimica l'approssimazione dello stato stazionario (nota anche come approssimazione dello stato quasi-stazionario, non trattandosi di uno stato stazionario vero e proprio) è un'assunzione esemplificativa che spesso si utilizza nella formulazione della legge cinetica di reazioni complesse che implicano la presenza di più intermedi. Tale assunzione consiste nel considerare la variazione della concentrazione di tali intermedi costante nel tempo, presupposto che risulta teoricamente valido quando l'intermedio, una volta formatosi, dà velocemente origine ai prodotti.
rdf:langString
Uma operação unitária é considerada em estado estacionário, ou um processo é chamado de um processo em estado estacionário, no que diz respeito a uma variável de operação, se essa variável não varia com o tempo.
rdf:langString
In chemistry, a steady state is a situation in which all state variables are constant in spite of ongoing processes that strive to change them. For an entire system to be at steady state, i.e. for all state variables of a system to be constant, there must be a flow through the system (compare mass balance). A simple example of such a system is the case of a bathtub with the tap running but with the drain unplugged: after a certain time, the water flows in and out at the same rate, so the water level (the state variable Volume) stabilizes and the system is in a steady state.
rdf:langString
Teoria stanu stacjonarnego, teoria stanu ustalonego, przybliżenie stanu stacjonarnego, przybliżenie Bodensteina – założenie upraszczające rozwiązywanie niektórych równań kinetycznych reakcji chemicznych. Teoria ta zakłada, że stężenie produktów pośrednich w reakcjach następczych jest stałe i jednocześnie pomijalnie małe w porównaniu do stężeń substratów i produktów. Ma ona zastosowanie na przykład w przypadku reakcji, której mechanizm jest następujący: przy czym szybkości poszczególnych reakcji elementarnych opisują stałe szybkości reakcji i gdzie: stąd: otrzymuje się wzór:
rdf:langString
rdf:langString
Approximation des états quasi stationnaires
rdf:langString
Approssimazione dello stato stazionario
rdf:langString
정상 상태 (화학)
rdf:langString
Teoria stanu stacjonarnego (chemia)
rdf:langString
Steady state (chemistry)
rdf:langString
Estado estacionário (engenharia química)
xsd:integer
2113121
xsd:integer
1119112734
rdf:langString
L'approximation des états quasi stationnaires (AEQS) est une hypothèse parfois prise en physique, en chimie et tout particulièrement en cinétique chimique, elle est alors également appelée le principe de Bodenstein.
rdf:langString
In chemistry, a steady state is a situation in which all state variables are constant in spite of ongoing processes that strive to change them. For an entire system to be at steady state, i.e. for all state variables of a system to be constant, there must be a flow through the system (compare mass balance). A simple example of such a system is the case of a bathtub with the tap running but with the drain unplugged: after a certain time, the water flows in and out at the same rate, so the water level (the state variable Volume) stabilizes and the system is in a steady state. The steady state concept is different from chemical equilibrium. Although both may create a situation where a concentration does not change, in a system at chemical equilibrium, the net reaction rate is zero (products transform into reactants at the same rate as reactants transform into products), while no such limitation exists in the steady state concept. Indeed, there does not have to be a reaction at all for a steady state to develop. The term steady state is also used to describe a situation where some, but not all, of the state variables of a system are constant. For such a steady state to develop, the system does not have to be a flow system. Therefore, such a steady state can develop in a closed system where a series of chemical reactions take place. Literature in chemical kinetics usually refers to this case, calling it steady state approximation. In simple systems the steady state is approached by state variables gradually decreasing or increasing until they reach their steady state value. In more complex systems state variables might fluctuate around the theoretical steady state either forever (a limit cycle) or gradually coming closer and closer. It theoretically takes an infinite time to reach steady state, just as it takes an infinite time to reach chemical equilibrium. Both concepts are, however, frequently used approximations because of the substantial mathematical simplifications these concepts offer. Whether or not these concepts can be used depends on the error the underlying assumptions introduce. So, even though a steady state, from a theoretical point of view, requires constant drivers (e.g. constant inflow rate and constant concentrations in the inflow), the error introduced by assuming steady state for a system with non-constant drivers may be negligible if the steady state is approached fast enough (relatively speaking).
rdf:langString
정상 상태(定常狀態, 영어: steady state)는 화학에서 를 변경하기 위해 노력하는 진행 중인 프로세스에도 불구하고 모든 상태 변수가 일정한 상황을 지칭한다. 전체 시스템이 정상 상태에 있으려면, 즉 시스템의 모든 상태 변수가 일정하려면 시스템을 통한 흐름이 있어야 한다(와 비교). 이러한 시스템의 간단한 예는 수도꼭지가 틀어져 있지만 배수구 마개가 막혀 있는 욕조의 경우이다. 일정한 시간이 지나면 물이 같은 속도로 들어오고 나가므로 수위(상태 변수)가 안정화되고 시스템은 정상 상태에 놓이게 된다.
rdf:langString
In cinetica chimica l'approssimazione dello stato stazionario (nota anche come approssimazione dello stato quasi-stazionario, non trattandosi di uno stato stazionario vero e proprio) è un'assunzione esemplificativa che spesso si utilizza nella formulazione della legge cinetica di reazioni complesse che implicano la presenza di più intermedi. Tale assunzione consiste nel considerare la variazione della concentrazione di tali intermedi costante nel tempo, presupposto che risulta teoricamente valido quando l'intermedio, una volta formatosi, dà velocemente origine ai prodotti.
rdf:langString
Teoria stanu stacjonarnego, teoria stanu ustalonego, przybliżenie stanu stacjonarnego, przybliżenie Bodensteina – założenie upraszczające rozwiązywanie niektórych równań kinetycznych reakcji chemicznych. Teoria ta zakłada, że stężenie produktów pośrednich w reakcjach następczych jest stałe i jednocześnie pomijalnie małe w porównaniu do stężeń substratów i produktów. Ma ona zastosowanie na przykład w przypadku reakcji, której mechanizm jest następujący: przy czym szybkości poszczególnych reakcji elementarnych opisują stałe szybkości reakcji i gdzie: – substrat, – produkt pośredni, – produkt końcowy. Zakładając, że stężenie produktu pośredniego ustala się szybko na bardzo niskim poziomie, można zapisać kinetyczny warunek takiej sytuacji (zmiana stężenie produktu pośredniego w czasie jest równa 0): stąd: Podstawiając powyższe wyrażenie do równania opisującego szybkość reakcji: otrzymuje się wzór: w którym występuje tylko stężenie substratu, a nie występuje trudne (lub niemożliwe) do praktycznego zmierzenia stężenie produktu przejściowego.
rdf:langString
Uma operação unitária é considerada em estado estacionário, ou um processo é chamado de um processo em estado estacionário, no que diz respeito a uma variável de operação, se essa variável não varia com o tempo.
xsd:nonNegativeInteger
14247
