The present invention discloses a hydroponic field irrigation system comprising a field module for growing turfgrass. The field module comprises an energy absorbing mechanism comprising a horizontal spring layer and a growth medium comprising a steel grid layer, wherein the horizontal spring layer absorbs vertical forces exerted by external loads, and the steel grid layer is positioned on top of the horizontal spring layer for holding a plurality of turf sods. The hydroponic field irrigation system further comprises a used water tank for receiving water from the field module, an ultra-violet (UV) unit for disinfecting the water received from the used water tank, a water quality management unit for adjusting quality of the water received from the ultra-violet (UV) unit, a geothermal unit for conditioning temperature of water received from the water quality management unit and plurality of solenoid valves for pumping water into and out of the field module.

One embodiment provides a modular green roof tray, house plant growth media and horticulture growth media, and a tree protection mat for weed and moisture control made from recycled disposable diapers. The growth medium and tree protection mat contain superabsorbent materials from diaper that can absorb waters and greatly reduce irrigation so to provide a drought resistant feature. One embodiment also provides a manufacturing process to perform 100% recycling of disposed diapers.

One embodiment provides a modular green roof tray, house plant growth media and horticulture growth media, and a tree protection mat for weed and moisture control made from recycled disposable diapers. The growth medium and tree protection mat contain superabsorbent materials from diaper that can absorb waters and greatly reduce irrigation so to provide a drought resistant feature. One embodiment also provides a manufacturing process to perform 100% recycling of disposed diapers.

A plant surface structure includes an array of plastic base elements, each base element having a deck carried by a series of pillar elements. The deck is provided with at least a number of the pillar elements having an open top end in the deck. A membrane is placed over the deck and is provided with slits or cut-outs or water permeable elements, such that they open into at least some of the open top ends of the pillar elements. A growing medium is provided on the membrane and a growing medium is provided in the pillar elements, the growing medium in the pillar elements preferably being in fluid contact with the growing medium on the membrane.

A plant surface structure includes an array of plastic base elements, each base element having a deck carried by a series of pillar elements. The deck is provided with at least a number of the pillar elements having an open top end in the deck. A membrane is placed over the deck and is provided with slits or cut-outs or water permeable elements, such that they open into at least some of the open top ends of the pillar elements. A growing medium is provided on the membrane and a growing medium is provided in the pillar elements, the growing medium in the pillar elements preferably being in fluid contact with the growing medium on the membrane.

A roof greening, wind breaking and vibration suppressing apparatus, and a building. The roof greening, wind breaking and vibration suppressing apparatus comprises a plant container (11) and a buffering device (20). The buffering device (20) comprises elastic vibration isolation components (21) and damping buffer components (22). Soil (12), water (14), fertilizers (13), a plant and the plant container (11) constitute an inertial body (10). The inertial body (10), the elastic vibration isolation components (21), and the damping buffer components (22) constitute a system mounted on a building. When an earthquake and strong wind strike, the inertial body (10) moves with respect to the building under the action of inertia, each elastic vibration isolation component (21) and each damping buffer component (22) absorb energy and achieve the effect of vibration isolation, passive energy dissipation or tuned vibration absorption, thereby enhancing the earthquake resistance and wind-breaking capability of the building, and expanding the conventional roof greening function.

A vegetation hanger includes a linear plate and an aperture. The linear plate includes a first edge, a second edge, a first end portion, and a second end portion. The first edge includes at least one ridge disposed along the first edge. The aperture is disposed centrally along the linear plate and configured to slidably engage with a bar.

The invention relates to a planar textile drainage element for preventing moisture to accumulate around plants, as well as to the use thereof.

The invention relates to a planar textile drainage element for preventing moisture to accumulate around plants, as well as to the use thereof.

A hybrid grass support structure (100, 200, 300, 400, 500, 600, 710) comprising a growth medium layer (102), a stone wool layer (104) positioned below the growth medium layer, and a plurality of synthetic grass fibers (106). The growth medium layer comprises a growth medium. The synthetic grass fibers are incorporated at least into the growth medium layer.