
La hidroponía sustenta el desarrollo de las plantas mediante la inmersión continua o intermitente de las estructuras radiculares en soluciones acuosas enriquecidas con minerales. Esta disciplina emplea sustratos inertes o cuerpos de agua estáticos para estabilizar la rizosfera, evitando los requisitos tradicionales del suelo. propiedad intelectual y la literatura científica priorizan los nutrientes Película Hidráulica de la técnica NFT (NFT), oxigenación de cultivo en aguas profundas (DWC) e integración de electrodos selectivos de iones.
Este índice cataloga las divulgaciones técnicas relativas a la arquitectura de los sistemas de recirculación, la porosidad del sustrato y el espesor de la película de nutrientes. Estos avances optimizan la absorción de minerales y la eficiencia en el uso del agua en entornos controlados. Los siguientes registros documentan los progresos en la regulación automatizada del pH, el monitoreo de la conductividad eléctrica y la ingeniería hidráulica para el cultivo acuático a escala comercial.
Esta es nuestra última selección de publicaciones y patentes mundiales en inglés sobre hidroponía, entre muchas revistas científicas en línea, clasificadas y enfocadas en cultivo en aguas profundas, técnica de película nutritiva, flujo y reflujo, inundación y drenaje, método Kratky, sistema de mecha, lana mineral, arcilla expandida, fibra de coco, perlita, vermiculita, acción capilar, lecho de cultivo, plataforma flotante, sistema de recirculación, sistema de desecho, cultivo en agua, cultivo en sustrato, cultivo en agregados, hidroponía, mesa de inundación, cultivo en grava, inmersión en solución e inmersión de raíces.
Removable dental appliance and related systems, devices, computer program products, and methods
Patent published on the 2026-06-18 in US under Ref US20260165825 by ORABEAUTICS GROUP GMBH [DE] (Winkel Sven [de])
Abstract: [0000] Various implementations of removable dental appliances, including multi-unit veneers to improve the aesthetics and function of a smile of a dental customer, related systems, and computer programs and methods for the design and manufacturing of removable dental appliances are disclosed. For example, surface tension and capillary action between the patient s or customer s teeth, saliva and surfaces of the removable dental appliance are utilized to substantially hold the appliance in place, [...]
Our summary: Various implementations of removable dental appliances are disclosed, including multi-unit veneers for aesthetic improvement. The appliances utilize surface tension and capillary action for stability once inserted. Manufacturing methods include additive or subtractive technologies with potential resin-based coatings for enhanced durability.
removable dental appliances, multi-unit veneers, design and manufacturing, additive manufacturing
Patent
Mobile shelter for protection of people during emergencies
Patent published on the 2026-05-13 in UA under Ref UA162956U by LVIV STATE UNIV OF LIFE SAFETY [UA] (Popovych Vasyl Vasylovych [ua], Beseda Andrii Volodymyrovych [ua], Kopylov Viktor Pavlovych [ua])
Abstract: Mobile shelter for protection of people during emergencies is made in the form of a cone-shaped structure with a rounded top and flat sides. It contains a double-layered steel shell filled with mineral wool and a ventilation system with two-stage air filtration.[...]
Our summary: The mobile shelter is designed as a cone-shaped structure for emergency protection. It features a double-layered steel shell filled with mineral wool for insulation. Additionally, it includes a two-stage air filtration system for improved air quality.
mobile shelter, emergency protection, steel shell, air filtration
Patent
Waste heat recovery device, waste nutrient solution recycling device, crop growth device, and indoor farming microclimate management system comprising
Patent published on the 2026-04-16 in WO under Ref WO2026079911 by MIDBAR CO LTD [KR] (Park Daniel [kr])
Abstract: A waste heat recovery device according to the present invention comprises: a light-emitting unit for providing photosynthetic photon flux density (PPFD) required for the growth of crops; a collection unit for collecting waste heat which is generated by light emission from the light-emitting unit and interferes with the growth of the crops; a suction unit for sucking in first air inside the collection unit so that the waste heat is used for recycling a waste nutrient solution generated during hyd[...]
Our summary: The invention includes a waste heat recovery device that captures heat from a light-emitting unit used for crop growth. It features a collection unit to gather waste heat and a suction unit to recycle waste nutrient solutions. The system aims to optimize indoor farming microclimates for enhanced crop production.
waste heat recovery, nutrient recycling, crop growth, indoor farming
Patent
Mineral wool cutting tool
Patent published on the 2026-04-15 in EP under Ref EP4725663 by AMES TOOLS CORP [US] (Jungklaus Matthew W [us], Ventura Michael T [us])
Abstract: [0001] A mineral wool cutting tool, configured to create a channel within a surface of a sheet of mineral wool, includes a sled configured to rest on and move along the surface of the mineral wool, a blade extending below the sled and having a closed profile and a sharpened edge configured to cut a plug from the mineral wool, and a handle extending above the sled and graspable by a user for moving the sled along the mineral wool.[...]
Our summary: The mineral wool cutting tool is designed to create channels in mineral wool sheets. It features a sled for stability and a blade with a closed profile for efficient cutting. The handle allows user control while moving the sled along the surface.
mineral wool, cutting tool, sled, blade
Patent
Method for hydroponic cultivation of leguminous plant in high-concentration carbon dioxide environment
Patent published on the 2026-03-26 in WO under Ref WO2026063186 by FUJI OIL CO LTD [JP] (Shibata Masayuki [jp])
Abstract: The present invention provides a cultivation method for obtaining, in hydroponic cultivation in an environment with a high carbon dioxide concentration of 600-5,000 ppm, leguminous plant seeds having a high protein content, without lowering the protein content in the leguminous plant seeds. In the hydroponic cultivation of a leguminous plant in an environment with a high carbon dioxide concentration, the concentration of nitrogen dissolved in a nutrient solution is adjusted to 250-400 ppm to inc[...]
Our summary: This invention describes a method for hydroponic cultivation of leguminous plants in high carbon dioxide environments. It aims to produce seeds with high protein content while maintaining yield levels. The method involves adjusting nitrogen concentration and optimizing cultivation periods for enhanced seed quality.
hydroponics, leguminous plants, carbon dioxide, protein content
Patent
A Review of Its Potential for Low-Carbon and Circular Construction
Published on 2026-02-02 by Olga Szlachetka, Justyna Dzi?cio? @MDPI
Abstract: The growing demand for low-carbon, resource-efficient, and multifunctional construction materials has intensified interest in solutions that can support both circular economy strategies and sustainable urban development. Expanded perlite—a lightweight volcanic material with low embodied energy and multiple functional properties—is increasingly considered a potential component of circular and nature-based material systems. This paper critically examines whether expande[...]
Our summary: This review evaluates expanded perlite as a sustainable material for low-carbon and circular construction. It discusses its applications in various civil engineering contexts and identifies research gaps in durability and implementation. The paper emphasizes the importance of addressing health concerns and highlights the material s potential in promoting climate-resilient urban systems.
expanded perlite, low-carbon construction, circular economy, sustainable materials
Publication
Effects of Polypropylene Microplastics and Copper Contamination on Rice Seedling Growth
Published on 2026-02-02 by Ziwen Hao, Steven Xu, Siquan Huang, Lin Wang @MDPI
Abstract: This study investigates the effects of polypropylene microplastics (PP-MPs) and copper (Cu), applied individually and in combination, on the growth (root and shoot length, fresh and dry biomass), peroxidase (POD) activity, and Cu accumulation of rice seedlings. A hydroponic experiment was conducted with four treatments: control (CK), PP, Cu, and PP+Cu. Exposure to PP-MPs slightly promoted seedling growth, whereas Cu markedly inhibited growth and induced chlorosis. Compared with Cu alone, co-expo[...]
Our summary: This study examines the effects of polypropylene microplastics and copper on rice seedling growth. Exposure to microplastics promoted growth slightly, while copper inhibited it and caused chlorosis. Co-exposure to both substances improved shoot growth and altered antioxidant responses, highlighting the complexity of their interactions.
Microplastics, Copper, Rice Seedlings, Antioxidant Responses
Publication
Effects of Brackish Water Irrigation on Salt Transport in Saline-Alkali Peat–Perlite Substrates and Lettuce (Lactuca sativa L.) Growth
Published on 2026-02-01 by Wendong Zhang, Caiyu Wang, Yiman Li, Qinghai He @MDPI
Abstract: Amid global freshwater scarcity and soil salinization, brackish irrigation is a potential alternative, yet its effects under low-leaching soilless systems remain unclear. We tested brackish irrigation (30 mmol L−1 NaCl; EC ≈ 4.8 dS m−1, including fertilizer) on lettuce (Lactuca sativa L.) grown in peat–perlite substrates with non-saline (CK), mildly saline (M), and moderately–severely saline (S) initial salinity. Substrate moi[...]
Our summary: Brackish irrigation affects salt transport in saline-alkali peat-perlite substrates. Lettuce growth is minimally impacted under non-saline and mildly saline conditions but significantly reduced in moderately-severely saline environments. The study highlights the need for tailored irrigation strategies based on initial salinity levels.
brackish irrigation, salt transport, saline-alkali substrates, lettuce growth
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