A foliar product for use in agriculture and horticulture comprising heterocyclic nitrogen source, chelating agent and metal salts. The heterocyclic nitrogen source is Hexamine. The chelating agent is disodium salt of Hydroxy Ethylidene Di Phosphonic Acid (Na2HEDP). The metal salts are chelated using the chelating agent Na2HEDP. The foliar product provides complete raw material requirement, which enables plants to synthesize various products. Further, the present invention relates to a method of manufacturing the foliar product. Advantageously, the present invention eliminates undesirable side effects in plants and helps plants survive environmental or biological stress conditions.

A foliar product for use in agriculture and horticulture comprising heterocyclic nitrogen source, chelating agent and metal salts. The heterocyclic nitrogen source is Hexamine. The chelating agent is disodium salt of Hydroxy Ethylidene Di Phosphonic Acid (Na2HEDP). The metal salts are chelated using the chelating agent Na2HEDP. The foliar product provides complete raw material requirement, which enables plants to synthesize various products. Further, the present invention relates to a method of manufacturing the foliar product. Advantageously, the present invention eliminates undesirable side effects in plants and helps plants survive environmental or biological stress conditions.

An indoor hydroponic device uses cyanobacteria as fertilizer, examining the media composition and nutrient delivery to this hydroponic unit. Due to the use of this fertilizer and the hydroponic setup, the device requires minimal space and maintenance. The device focuses on a) optimizing cyanobacteria and plant growth, b) increasing the efficacy of cyanobacteria as fertilizer, and c) evaluating and enhancing the user's experience with the hydroponic unit.

An indoor hydroponic device uses cyanobacteria as fertilizer, examining the media composition and nutrient delivery to this hydroponic unit. Due to the use of this fertilizer and the hydroponic setup, the device requires minimal space and maintenance. The device focuses on a) optimizing cyanobacteria and plant growth, b) increasing the efficacy of cyanobacteria as fertilizer, and c) evaluating and enhancing the user's experience with the hydroponic unit.

There is provided herein a process for the compaction of Polyhalite, comprising: mixing a feed of polyhalite with an inorganic binder in a mixer to yield a mixture; compacting said mixture in a compactor to yield masses; crushing said masses in a crusher to yield particles; and screening said particles in a screener to yield particles in three different sizes: oversized fine particles which undergo a second crushing process and are retuned to said screener for screening, undersized fine particles which are transferred to said mixer for further mixing and compacting, and desired size fine particles which are transferred to a polish screener for glazing and oiling.

There is provided herein a process for the compaction of Polyhalite, comprising: mixing a feed of polyhalite with an inorganic binder in a mixer to yield a mixture; compacting said mixture in a compactor to yield masses; crushing said masses in a crusher to yield particles; and screening said particles in a screener to yield particles in three different sizes: oversized fine particles which undergo a second crushing process and are retuned to said screener for screening, undersized fine particles which are transferred to said mixer for further mixing and compacting, and desired size fine particles which are transferred to a polish screener for glazing and oiling.

The disclosure relates generally to a synthetic agricultural product and methods and systems for producing a synthetic agricultural product or composition. The method of producing a synthetic agricultural product may comprise providing an effective amount of fertilizer and/or other agricultural product sufficient to effectuate a response in a plant, an effective amount of a mineral substance having a high cation exchange capacity, and an effective amount of water sufficient to effectuate a desired result in a plant. The fertilizer and/or other agricultural product and mineral substance may be added into the effective amount of water, thereby creating the synthetic agricultural product. Known ions, such as fertilizer ions, and native ions in the native mineral substance may be exchanged to produce a synthetic agricultural product.

The disclosure relates generally to a synthetic agricultural product and methods and systems for producing a synthetic agricultural product or composition. The method of producing a synthetic agricultural product may comprise providing an effective amount of fertilizer and/or other agricultural product sufficient to effectuate a response in a plant, an effective amount of a mineral substance having a high cation exchange capacity, and an effective amount of water sufficient to effectuate a desired result in a plant. The fertilizer and/or other agricultural product and mineral substance may be added into the effective amount of water, thereby creating the synthetic agricultural product. Known ions, such as fertilizer ions, and native ions in the native mineral substance may be exchanged to produce a synthetic agricultural product.

The disclosure relates generally to a synthetic agricultural product and methods and systems for producing a synthetic agricultural product or composition. The method of producing a synthetic agricultural product may comprise providing an effective amount of fertilizer and/or other agricultural product sufficient to effectuate a response in a plant, an effective amount of a mineral substance having a high cation exchange capacity, and an effective amount of water sufficient to effectuate a desired result in a plant. The fertilizer and/or other agricultural product and mineral substance may be added into the effective amount of water, thereby creating the synthetic agricultural product. Known ions, such as fertilizer ions, and native ions in the native mineral substance may be exchanged to produce a synthetic agricultural product.

The disclosure relates generally to a synthetic agricultural product and methods and systems for producing a synthetic agricultural product or composition. The method of producing a synthetic agricultural product may comprise providing an effective amount of fertilizer and/or other agricultural product sufficient to effectuate a response in a plant, an effective amount of a mineral substance having a high cation exchange capacity, and an effective amount of water sufficient to effectuate a desired result in a plant. The fertilizer and/or other agricultural product and mineral substance may be added into the effective amount of water, thereby creating the synthetic agricultural product. Known ions, such as fertilizer ions, and native ions in the native mineral substance may be exchanged to produce a synthetic agricultural product.