Provided is a simulation model sample for evaluation of heat treatment including a porous water absorbing material that is flexible and deformable; and a container that is configured to be able to contain the porous water absorbing material having water absorbed therein. Also provided is a method for evaluating heat treatment using a simulation model sample including a step of allowing a flexible and deformable porous water absorbing material to absorb water, and the porous water absorbing material to be contained in a container, to produce a simulation model sample; and a step of subjecting the simulation model sample to heat treatment, while measuring a temperature inside the simulation model sample.

A sterilizer according to the present invention comprises: a temperature-raising module for heating a carriage introduced thereinto; a sterilization module for sterilizing the carriage transferred from the temperature-raising module; a cooling module for cooling the carriage transferred from the sterilization module; and an opening-closing module connected to the temperature-raising module, the sterilization module, or the cooling module, to selectively open or close at least one module, and the sterilizer independently heat-treats a space separated by the opening-closing module.

A sterilizer according to the present invention comprises: a temperature-raising module for heating a carriage introduced thereinto; a sterilization module for sterilizing the carriage transferred from the temperature-raising module; a cooling module for cooling the carriage transferred from the sterilization module; and an opening-closing module connected to the temperature-raising module, the sterilization module, or the cooling module, to selectively open or close at least one module, and the sterilizer independently heat-treats a space separated by the opening-closing module.

An opening/closing module according to the present invention comprises a middle door part having a curved shape that is located at an entrance of a sterilization module to separate, from the outside, the sterilization module that provides a sterilization space for accommodating a hand truck, and selectively opens/closes the entrance of the sterilization module by including a sliding part.

An opening/closing module according to the present invention comprises a middle door part having a curved shape that is located at an entrance of a sterilization module to separate, from the outside, the sterilization module that provides a sterilization space for accommodating a hand truck, and selectively opens/closes the entrance of the sterilization module by including a sliding part.

Provided is a simulation model sample for evaluation of heat treatment including a porous water absorbing material that is flexible and deformable; and a container that is configured to be able to contain the porous water absorbing material having water absorbed therein. Also provided is a method for evaluating heat treatment using a simulation model sample including a step of allowing a flexible and deformable porous water absorbing material to absorb water, and the porous water absorbing material to be contained in a container, to produce a simulation model sample; and a step of subjecting the simulation model sample to heat treatment, while measuring a temperature inside the simulation model sample.

Provided is a simulation model sample for evaluation of heat treatment including a porous water absorbing material that is flexible and deformable; and a container that is configured to be able to contain the porous water absorbing material having water absorbed therein. Also provided is a method for evaluating heat treatment using a simulation model sample including a step of allowing a flexible and deformable porous water absorbing material to absorb water, and the porous water absorbing material to be contained in a container, to produce a simulation model sample; and a step of subjecting the simulation model sample to heat treatment, while measuring a temperature inside the simulation model sample.

Provided is a simulation model sample for evaluation of heat treatment including a porous water absorbing material that is flexible and deformable; and a container that is configured to be able to contain the porous water absorbing material having water absorbed therein. Also provided is a method for evaluating heat treatment using a simulation model sample including a step of allowing a flexible and deformable porous water absorbing material to absorb water, and the porous water absorbing material to be contained in a container, to produce a simulation model sample; and a step of subjecting the simulation model sample to heat treatment, while measuring a temperature inside the simulation model sample.

A system includes a vacuum chamber, a vacuum source, and a mixture flow path adapted to be connected to receive the output of a direct steam injector. The vacuum source is operatively connected to a vacuum port of the vacuum chamber, while a product outlet port from the vacuum chamber is adapted to be connected to an arrangement for removing treated product from the vacuum chamber. The mixture flow path includes a flow path segment outside of the vacuum chamber volume and a flow path segment within the vacuum chamber volume. At least some of a surface defining the flow path segment within the vacuum chamber is in substantial thermal communication with one or more cooling structures.

A system includes a vacuum chamber, a vacuum source, and a mixture flow path adapted to be connected to receive the output of a direct steam injector. The vacuum source is operatively connected to a vacuum port of the vacuum chamber, while a product outlet port from the vacuum chamber is adapted to be connected to an arrangement for removing treated product from the vacuum chamber. The mixture flow path includes a flow path segment outside of the vacuum chamber volume and a flow path segment within the vacuum chamber volume. At least some of a surface defining the flow path segment within the vacuum chamber is in substantial thermal communication with one or more cooling structures.