An adhesive for moss and a method for preparing the adhesive are provided, wherein the method includes steps of: adding melamine, urea, attapulgite and sepiolite powder into a ball milling tank, and adding milling balls into the ball milling tank for ball milling; then collecting ball-milled materials; adding konjac glucomannan, chitosan and collagen into water and stirring, wherein during stirring, half of the ball-milled materials are added into the water; then adding latex powder, stearic acid and ammonium zirconium carbonate, and stirring, wherein during stirring, the other half of the ball-milled materials are added into the water. The adhesive for moss can be used for bonding moss with sufficient bonding effect, which is environment-friendly and will not harm the moss; meanwhile, the konjac glucomannan, the chitosan, the collagen attapulgite and the sepiolite powder which are contained in the adhesive can provide nutrition for the moss.

An adhesive for moss and a method for preparing the adhesive are provided, wherein the method includes steps of: adding melamine, urea, attapulgite and sepiolite powder into a ball milling tank, and adding milling balls into the ball milling tank for ball milling; then collecting ball-milled materials; adding konjac glucomannan, chitosan and collagen into water and stirring, wherein during stirring, half of the ball-milled materials are added into the water; then adding latex powder, stearic acid and ammonium zirconium carbonate, and stirring, wherein during stirring, the other half of the ball-milled materials are added into the water. The adhesive for moss can be used for bonding moss with sufficient bonding effect, which is environment-friendly and will not harm the moss; meanwhile, the konjac glucomannan, the chitosan, the collagen attapulgite and the sepiolite powder which are contained in the adhesive can provide nutrition for the moss.

The present invention provides a composition comprising an acidified aqueous solution of (1) micro colloidal silicic acid, (2) boric acid, and (3) a water absorbing additive, having a pH value of equal to or less than 1, wherein the micro colloidal silicic acid has particle sizes in the range of 1-8 nm, especially in the range of 1.5-6 nm. The invention also provides a particulate product obtainable by the method according to claim 18, wherein the particles comprise (1) silicic acid, (2) boric acid, and (3) the water absorbing additive, and wherein at least 90% of the particles in the particulate product have particle sizes in the range of 0.3-5 μm.

The present invention provides an aqueous dispersion comprising (a) an active agent which is a humic substance and (b) fumed silica, wherein: the % by weight of the active agent with respect to the total weight of the dispersion is comprised from 1 to 50%; and the weight ratio between the active agent and the fumed silica is comprised from 1.5:1 to 75:1, particularly from 1.5:1 to 60:1.

The invention also provides a process for its preparation as well its use as in coating a substrate, and the resulting coated substrate.

The dispersion of the invention allows increasing the amount of humic substances without negatively affecting the stability of the granule (in terms of dust and caking).

The present invention provides an aqueous dispersion comprising (a) an active agent which is a humic substance and (b) fumed silica, wherein: the % by weight of the active agent with respect to the total weight of the dispersion is comprised from 1 to 50%; and the weight ratio between the active agent and the fumed silica is comprised from 1.5:1 to 75:1, particularly from 1.5:1 to 60:1.

The invention also provides a process for its preparation as well its use as in coating a substrate, and the resulting coated substrate.

The dispersion of the invention allows increasing the amount of humic substances without negatively affecting the stability of the granule (in terms of dust and caking).

The present invention provides an aqueous dispersion comprising (a) an active agent which is a humic substance and (b) fumed silica, wherein: the % by weight of the active agent with respect to the total weight of the dispersion is comprised from 1 to 50%; and the weight ratio between the active agent and the fumed silica is comprised from 1.5:1 to 75:1, particularly from 1.5:1 to 60:1.

The invention also provides a process for its preparation as well its use as in coating a substrate, and the resulting coated substrate.

The dispersion of the invention allows increasing the amount of humic substances without negatively affecting the stability of the granule (in terms of dust and caking).

Some embodiments include a microalgae culturing system including a bioreactor adapted to propagate microalgae in a culture solution using in combination at least one of natural and artificial light, and at least one nutrient including at least a carbon source, where the microalgae are freely suspended in and form part of the culture solution. A microalgae feed source is coupled to the bioreactor and a first controller between a water conditioning assembly and the bioreactor. The water conditioning assembly is coupled as an input of supply water to the bioreactor, and configured to condition the supply water to a specified purity that enables substantially unhindered growth of the microalgae in the culture solution to a specified concentration, and the first controller is configured to control supply of the microalgae feed source to the bioreactor.

Some embodiments include a microalgae culturing system including a bioreactor adapted to propagate microalgae in a culture solution using in combination at least one of natural and artificial light, and at least one nutrient including at least a carbon source, where the microalgae are freely suspended in and form part of the culture solution. A microalgae feed source is coupled to the bioreactor and a first controller between a water conditioning assembly and the bioreactor. The water conditioning assembly is coupled as an input of supply water to the bioreactor, and configured to condition the supply water to a specified purity that enables substantially unhindered growth of the microalgae in the culture solution to a specified concentration, and the first controller is configured to control supply of the microalgae feed source to the bioreactor.

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.