An electrolyzed water-generating apparatus (1) is provided with: an electrolysis tank (D) equipped therein with a first electrode chamber (Da) with a cathode (6a), a second electrode chamber (Db) with an anode (6b), and a septum (Sp) for partitioning the first electrode chamber (Da) from the second electrode chamber (Db); a first inlet water path (4a), which is connected to the first electrode chamber (Da) and is for supplying raw water to the first electrode chamber (Da) from the outside; a first extraction water path (7a), which is connected to the first electrode chamber (Da) and is for extracting electrolyzed hydrogen water generated in the first electrode chamber (Da) by electrolysis to the outside; and an electric charge-adjusting device (10), which is connected to the electrolysis tank (D) and is for adjusting the electric charge applied on the electrolyzed hydrogen water when performing the electrolysis. The electric charge-adjusting device (10) is characterized in adjusting the electric charge per unit volume of electrolyzed hydrogen water taken from the device by controlling the electrolytic current or electrolytic voltage.

An electrolyzed water-generating apparatus (1) is provided with: an electrolysis tank (D) equipped therein with a first electrode chamber (Da) with a cathode (6a), a second electrode chamber (Db) with an anode (6b), and a septum (Sp) for partitioning the first electrode chamber (Da) from the second electrode chamber (Db); a first inlet water path (4a), which is connected to the first electrode chamber (Da) and is for supplying raw water to the first electrode chamber (Da) from the outside; a first extraction water path (7a), which is connected to the first electrode chamber (Da) and is for extracting electrolyzed hydrogen water generated in the first electrode chamber (Da) by electrolysis to the outside; and an electric charge-adjusting device (10), which is connected to the electrolysis tank (D) and is for adjusting the electric charge applied on the electrolyzed hydrogen water when performing the electrolysis. The electric charge-adjusting device (10) is characterized in adjusting the electric charge per unit volume of electrolyzed hydrogen water taken from the device by controlling the electrolytic current or electrolytic voltage.

A plant growing system using water extracted from air, the system which has a Peltier element connected to a power supply and includes a heat dissipating member and a cooling member to collect condensate by condensing moisture in the air. The plant growing system includes: a mixing part having a storage tank and a nutrient supply tank, the storage tank into which condensate obtained from the air is introduced and stored, and the nutrient supply tank which is connected to the storage tank so that a predetermined amount of nutrients is supplied through a nutrient control valve; an atomizer having one side connected to a compressor whose opening and closing is controlled by an injection valve, the atomizer being connected to the mixing part via a pipe so that a solution flows and is then stored in the atomizer.

A grow media includes a layered grow media including a mechanical support structure layer and a wicking structure layer. The mechanical support structure layer and the wicking structure layer are coupled together in a vertical configuration.

A grow media includes a layered grow media including a mechanical support structure layer and a wicking structure layer. The mechanical support structure layer and the wicking structure layer are coupled together in a vertical configuration.

The present invention relates to a container in which one or more plants can be held. The invention relates in particular to a container in which plants and/or seeds are able to grow. The invention also relates to a method for growing plants. According to the invention, the container comprises a container base having a growth medium in which one or more plants can be grown, a container lid that is coupled to the container base, and a cutting member for cutting through the one or more plants. According to the invention, the cutting member can be actuated prior to or during an action of at least substantially breaking the coupling between the container lid and the container base.

The present invention relates to a container in which one or more plants can be held. The invention relates in particular to a container in which plants and/or seeds are able to grow. The invention also relates to a method for growing plants. According to the invention, the container comprises a container base having a growth medium in which one or more plants can be grown, a container lid that is coupled to the container base, and a cutting member for cutting through the one or more plants. According to the invention, the cutting member can be actuated prior to or during an action of at least substantially breaking the coupling between the container lid and the container base.

A growing unit for biological hydrosynthesis, energy generation and storage and/or topsoil restoration, the growing unit comprising: a container configured for growing plants and containing a growth media located therein; a reservoir located in a lower portion of the container and associated with an outlet portion of the container, and a substantially vertical liquid inlet pipe associated with the reservoir, wherein the growth media comprises a mixture including a first catalyst, wherein the first catalyst stimulates formation of a humified soil and wherein the growth media is amended with an irrigation liquid which stimulates biological activity in the growth media and in and adjacent to the reservoir.

A seeding apparatus for seeding agricultural seeds, seedlings and/or clones into a manufactured growth media of an indoor hydroponic growth system. The seeding apparatus including a media strip supply line configured to supply a quantity of consumable media strip for positioning within a linear aperture of a manufactured growth media, a depth gauge configured to fold the consumable media strip into a first part and a second part with a fold positioned therebetween, and to force the fold towards a bottom of the linear aperture of the manufactured growth media with the first part and the second part of the consumable media strip residing against walls defined by the linear aperture, and a seed supply line configured to introduce a metered quantity of agricultural seeds, seedlings and/or clones into the folded, consumable media strip.

The present disclosure relates generally to controlled hydroponic plant growing systems.