A process for sterilization or disinfection treatment includes: a) obtaining a hydrogen peroxide vapour from an aqueous hydrogen peroxide solution having a dry residue determined at 105? C. of at most 5 ppm and a total content of Fe, Cr, Mn and Ni in the solution of at most 6 ppb as determined by ICP-MS analysis; and b) treating an object to be sterilized or disinfected with the hydrogen peroxide vapour obtained in a).

A control system for a controlled atmosphere room (CA room) for storing perishable commodities, such as fruits and vegetables. The control system includes an enclosure that can be placed within the CA room to store a representative sample of the commodities in the CA room. The control system includes an atmosphere valve selectively operable to provide atmospheric communication between the enclosure and the CA room or to isolate the enclosure from the CA room. The control system includes a sampling control system for determining a dynamic control value based on the isolated representative sample. The dynamic control value may be determined by monitoring the respiratory quotient in the enclosure while it is isolated. Once determined, the control system can use the dynamic control value to adjust the atmosphere of the CA room, thereby using tests on a representative sample to control the atmosphere for the full volume of commodities in the CA room. When not testing, the enclosure generally remains in atmospheric communication with the CA room, which improves the correlation of the representative sample with the commodities in the CA room.

A control system for a controlled atmosphere room (CA room) for storing perishable commodities, such as fruits and vegetables. The control system includes an enclosure that can be placed within the CA room to store a representative sample of the commodities in the CA room. The control system includes an atmosphere valve selectively operable to provide atmospheric communication between the enclosure and the CA room or to isolate the enclosure from the CA room. The control system includes a sampling control system for determining a dynamic control value based on the isolated representative sample. The dynamic control value may be determined by monitoring the respiratory quotient in the enclosure while it is isolated. Once determined, the control system can use the dynamic control value to adjust the atmosphere of the CA room, thereby using tests on a representative sample to control the atmosphere for the full volume of commodities in the CA room. When not testing, the enclosure generally remains in atmospheric communication with the CA room, which improves the correlation of the representative sample with the commodities in the CA room.

The present disclosure relates to a method for protecting stored agricultural dry products during storage, consisting of a controlled release system of essential oils and a shell for allowing oil diffusion in vapour phase towards the outer atmosphere without direct contact of the support material with stored products. This system is characterized by being suitable for use within containers for protecting stored dried agricultural plant products for a long period of time, in particular more than 4 weeks, more preferably more than 8 or 12 weeks.

The present disclosure relates to a method for protecting stored agricultural dry products during storage, consisting of a controlled release system of essential oils and a shell for allowing oil diffusion in vapour phase towards the outer atmosphere without direct contact of the support material with stored products. This system is characterized by being suitable for use within containers for protecting stored dried agricultural plant products for a long period of time, in particular more than 4 weeks, more preferably more than 8 or 12 weeks.

Disclosed is system for inactivating bacteria and/or reducing microbial count on product, in particular a food product, susceptible to microbial presence, said system comprising a processing chamber which is operably connected to i) a means for generating UV-C light, ii) a means for generating hydrogen peroxide vapor and/or means for generating ozone, and iii) a heat source. Also disclosed is a method for inactivating bacteria and/or reducing microbial count on a product, in particular food product, which is susceptible to microbial presence, said method comprising subjecting said product in a processing chamber to exposure with ultraviolet C (UV-C) light and hydrogen peroxide vapor and/or ozone, and heat, for a processing time of between 5-120 seconds, wherein the hydrogen peroxide vapor is present at up to 12% v/v solution, and the temperature inside the processing chamber is maintained between about 22? C. and 60? C.

Disclosed is system for inactivating bacteria and/or reducing microbial count on product, in particular a food product, susceptible to microbial presence, said system comprising a processing chamber which is operably connected to i) a means for generating UV-C light, ii) a means for generating hydrogen peroxide vapor and/or means for generating ozone, and iii) a heat source. Also disclosed is a method for inactivating bacteria and/or reducing microbial count on a product, in particular food product, which is susceptible to microbial presence, said method comprising subjecting said product in a processing chamber to exposure with ultraviolet C (UV-C) light and hydrogen peroxide vapor and/or ozone, and heat, for a processing time of between 5-120 seconds, wherein the hydrogen peroxide vapor is present at up to 12% v/v solution, and the temperature inside the processing chamber is maintained between about 22? C. and 60? C.

Provided are a freshness retaining agent that can be obtained by a simple method and exhibits excellent adsorption performance and antibacterial activity, a gas purification device including the freshness retaining agent, and a gas purification system. The freshness retaining agent is formed by adhering tea catechins to a surface and/or an inside of charcoal powders and adhering the charcoal powders to each other with clay interposed between the charcoal powders, thereby exhibiting excellent adsorption performance and antibacterial activity.

Provided are a freshness retaining agent that can be obtained by a simple method and exhibits excellent adsorption performance and antibacterial activity, a gas purification device including the freshness retaining agent, and a gas purification system. The freshness retaining agent is formed by adhering tea catechins to a surface and/or an inside of charcoal powders and adhering the charcoal powders to each other with clay interposed between the charcoal powders, thereby exhibiting excellent adsorption performance and antibacterial activity.

The present disclosure provides for, and includes, environments for the production, transport and storage of agricultural products including, but not limited to, fruits, vegetables, grains, tubers, decorative plants, flowers and mushrooms. The present disclosure also relates to methods of preparing environments for the preservation and production of agricultural products Also provided are organic agricultural products having reduced levels of microorganisms and residual organic compounds.