Residence time in a chemical reactor refers to the average time a substance stays inside the reactor. For example, if a chemical reaction takes 10 minutes to complete in a reactor with a volume of 100 liters, the residence time would be 10 minutes.
An example of residence time calculation in a chemical reactor is determining the time it takes for a reactant to completely react inside the reactor. This calculation helps in optimizing the reactor design and process efficiency.
The residence time in a chemical reactor system is calculated by dividing the volume of the reactor by the volumetric flow rate of the reactants. This calculation helps determine how long the reactants stay in the reactor before exiting.
In residence time calculation for a chemical reactor, factors such as reactor volume, flow rate of reactants, and reaction kinetics are considered. These factors help determine the time it takes for reactants to stay inside the reactor and undergo the desired chemical reactions.
A pressurized water reactor typically has between two to four steam generators. These large heat exchangers are vital components in the reactor's secondary cooling system, where heat from the primary reactor coolant is transferred to produce steam for generating electricity in a turbine generator.
Yes, polonium is used as a power source in Tony Stark's arc reactor in the Iron Man movies. It is shown to provide the energy needed to power the Iron Man suit.
An example of residence time calculation in a chemical reactor is determining the time it takes for a reactant to completely react inside the reactor. This calculation helps in optimizing the reactor design and process efficiency.
The residence time in a chemical reactor system is calculated by dividing the volume of the reactor by the volumetric flow rate of the reactants. This calculation helps determine how long the reactants stay in the reactor before exiting.
In residence time calculation for a chemical reactor, factors such as reactor volume, flow rate of reactants, and reaction kinetics are considered. These factors help determine the time it takes for reactants to stay inside the reactor and undergo the desired chemical reactions.
dividing output wolume with reactor volume
Space Time is the time necessary to process one reactor volume of fluid based on entrance conditions (holding time or mean residence time)This is the time it takes for the amount of fluid that takes up the entire volume of the reactor to either completely enter or exit the reactor. It is also called holding time or mean residence time. e.g. a space time of 2mins.means every 2mins one reactor volume of feed at specified conditions is being treated by the reactor.
Actor, redactor.Actor, akhtar, lacter, pachter, schachter, schlachter, tractor, compactor, detractor, ham actor, reactor, refractor,chain reactor, fast reactor, breeder reactor, character actor, fusion reactor, atomic reactor, chemical reactor, nuclear reactor, boiling water reactor, thermonuclear reactoractor, tractor, reactor
Chemical reactor engineering is the overall discipline that uses CFD, computational fluid dynamics, as part of the necessary problem-solving data.
Peter Harriott has written: 'Chemical Reactor Design (Chemical Industries)' 'Chemical reactor design' -- subject(s): Chemical reactors, Design and construction 'The effects of porous and solid fillers on the permeability of cellulose acetate membranes'
An isothermal reactor is a type of chemical reactor where the temperature inside the reactor remains constant throughout the reaction. This is typically achieved by controlling the heat exchange inside the reactor. Maintaining isothermal conditions can help improve reaction selectivity and efficiency.
If you mean a nuclear reactor, and not a chemical one, there is only one way, and that is by nuclear fission in the fuel
A solar reactor is a system that uses concentrated solar power to drive chemical reactions. It harnesses sunlight using mirrors or lenses to produce high temperatures, enabling reactions such as solar fuel production or thermal decomposition. Solar reactors can be used for sustainable energy generation and fuel synthesis.
A bulk (slurry) polymerisation reactor which is made of a closed long tube through which the slurry is circulated. Loop reactors are characterised by a very narrow residence time distribution, leading to uniform product characteristics.