61 |
經塗覆之粒狀肥料、其製造方法及用途 |
TW104114189 |
2015-05-04 |
TWI682917B |
2020-01-21 |
肯南 甘奈許; KANNAN, GANESH; 阿罕德 拉畢伯 橋達里; AHMED, LABEEB CHAUDHARY; 達克瓦斯 貝林達; DUCKWORTH, BELINDA; 貝爾 菲利普 魏思里; BELL, PHILIP WESLEY; 蘇布拉曼聯 閃卡 可蘭高杜; SUBRAMANIAN, SHANKAR KOLLENGODU |
A coated fertilizer comprises a fertilizer granule; and a coating disposed on a surface of the fertilizer granule, wherein the coating comprises a poly(lactic acid); a second polymer comprising a poly(butylene succinate), a cellulose triacetate, or a combination comprising at least one of the foregoing; and a sealant. Methods of making the coated fertilizer are also disclosed. |
62 |
鐵氧化物覆膜於經水力漩流分離之土壤細顆粒殘餘物上形成再生資材吸附劑方法 |
TW107117257 |
2018-05-21 |
TW202003129A |
2020-01-16 |
張益國; CHANG, YI-KUO; 徐一量; SHU, YI-LIANG; 施百鴻; SHIH, PAI-HUANG; 呂東璇; LU, TUNG-HSUAN; 盧幸成; LU, HSING-CHENG; 張育祺; CHANG, YU-CHI; 黃子恩; HUANG, ZI-EN; 鄭文良; CHENG, WEN-LIANG |
本發明其主要針對經一水力漩流系統分離且含有重金屬之細顆粒土壤殘餘物(以下簡稱土壤殘餘物)與氧化鐵膠體溶液混拌,利用該氧化鐵膠體溶液處理過程中之鐵氧化物的形成,且該鐵氧化物會於該土壤殘餘物上匹覆一層覆膜,使該土壤殘餘物內重金屬與該鐵氧化物產生錯合反應,大大降低重金屬移動性,而形成一具有鐵氧化物覆膜資材吸附劑,並利用該鐵氧化覆膜資材吸附劑具有物理性、化學性吸附等化學鍵結等特性作用力的不同,進而有效運用在殘存有農藥的土壤上與廢水上並將其中之有機物及重金屬予以去除,以達成以廢(即水力漩流分選後的細顆粒土壤殘餘物)治廢(有機、無機廢污)之目標。 |
63 |
|
TW108110888 |
2019-03-28 |
TW201944895A |
2019-12-01 |
OGURA TAKESHI |
The present invention addresses the problem of providing an agricultural composition which can increase yields without adversely affecting the health of users and the environment. The present invention relates to: an agricultural composition containing a marine mineral complex which is produced by adding calcium phosphate and potassium acetate to a seawater concentrate containing an organic component derived from a plankton organism in seawater and a mineral component chelated with the organic component to react these components with one another and then removing sodium chloride and a toxic component from a solid-component-containing fluid produced by the reaction; and a method for producing the agricultural composition. |
64 |
肥料、包含矽酸鹽水溶液的肥料的製備方法及用於製作肥料的經碳化粉末 |
TW108119963 |
2019-06-10 |
TWI673253B |
2019-10-01 |
徐盟貴; HSU, MENG KWEI; 黃漢璋; HUANG, HAN-CHANG; 李東峯; LEE, TUNG-FENG; 鄒易諺; TSOU, YIYEN |
A fertilizer and a method for preparing a fertilizer containing an aqueous solution of silicate, the fertilizer comprising an aqueous solution of silicate, the alkalinity of the aqueous solution of silicate is less than 1%, and the aqueous solution of silicate contains water-soluble metal oxides and is soluble in hydrochloric acid The weight ratio of silica, the hydrochloric acid-soluble silica, and the water-soluble metal oxide ranges from 0.9 to 1.4. The alkalinity and the weight ratio of hydrochloric acid-soluble silica to water-soluble metal oxides of the aforementioned fertilizers are more in line with current application requirements. |
65 |
|
TW108104469 |
2019-02-11 |
TW201934524A |
2019-09-01 |
NGUYEN MY T; TRAN HOA V; LY MAN M; KIM VAN T; LE NHIEN H; THACH NA; VO SONY T; NGUYEN VINH Q |
There is provided a smart release potash fertilizer granule comprising a potash core; an extended release layer covering the potash core, wherein the extended release layer comprises water-swellable copolymeric nanoparticles and at least one water-soluble organic acid or water-soluble organic carboxylate salt; a controlled release layer covering the extended release layer, wherein the controlled release layer comprises water-swellable copolymeric nanoparticles; and an anticaking layer covering the controlled release layer, wherein the anticaking layer comprises water-insoluble copolymeric nanoparticles. |
66 |
|
TW108102629 |
2019-01-24 |
TW201934478A |
2019-09-01 |
TAMMER MARTINUS CATHARINUS; VAN DEN BERG MICHEL; TER HORST BJORN |
Process for the production of a compound comprising potassium phosphite comprising the steps of (a) reacting carboxylic acid of the formula R-(C(=O)OH)n with phosphorous trichloride (PCl3) towards a mixture comprising phosphorous acid (H3PO3) and acid chloride of the formula R-(C(=O)Cl)n; wherein R is a linear or branched alkyl or alkanediyl group with 1-20 carbon atoms and n is 1 or 2, (b) subjecting said mixture to a separation step, thereby obtaining (i) a fraction comprising crude phosphorous acid (H3PO3) and (ii) a fraction comprising acid chloride, (c) combining water, a potassium compound selected from KOH, KHCO3 and K2CO3, and the fraction comprising crude phosphorous acid, thereby forming an aqueous solution comprising potassium phosphite, and (d) removing organic compounds from said aqueous solution. |
67 |
|
TW107136509 |
2018-10-17 |
TW201930223A |
2019-08-01 |
SAKAMOTO MOTOHIRO |
A method according to the present invention provides a hot metal having a P concentration of 1.9 to 3.8 mass% and a Cr concentration of less than 0.2 mass% by supplying an oxygen source to a hot metal having a P concentration of 2 to 4 mass% and a Cr concentration of 0.3 to 1.2 mass% for dechromization under a condition where a slag basicity (CaO mass%)/(SiO2 mass%) is adjusted to greater than 0.1 and not more than 1 and the hot metal temperature is adjusted to be within the range of 1250 DEG C to 1500 DEG C. |
68 |
無毒自然生態農法 |
TW106118534 |
2017-06-05 |
TWI666193B |
2019-07-21 |
盧科源 |
The invention relates to a non-toxic natural ecological agricultural method, which includes the following steps: a soil improvement step, which is a soil improver, which is diluted with water and sprayed uniformly on the soil; an auxiliary growth step, which contains one of the nutrients required by the crop Growth and development aids, sprayed uniformly on crop leaves or whole plants after dilution with water; and a pest control step, using a pest control preparation, diluted with water and sprayed uniformly on crop leaves or poured into crop root soil ; By using this method to follow the laws of natural ecology without damaging the planting environment, being friendly to the environment, and being able to grow non-toxic, healthy, large and beautiful crops. |
69 |
|
TW107145294 |
2018-12-14 |
TW201927727A |
2019-07-16 |
KIM CHANJOONG; LEE JOON-SEOK; JANG YIL; LEE SANG-RYEO; KIM JI-YEON; CHOE JAE-HOON |
The present invention relates to a controlled-release fertilizer, including: a photodegradable capsule including a binder resin containing a polyolefin and an ethylene vinyl acetate copolymer, and a photocatalytic composite in which a (co)polymer including at least one repeating unit selected from the group consisting of an ethylene repeating unit and a vinyl acetate repeating unit is bonded to the surface or inside of agglomerates of inorganic fine particles; and a fertilizer contained in a space surrounded by the photodegradable capsule. |
70 |
鐵氧化物覆膜於經水力漩流分離之土壤細顆粒殘餘物上形成再生資材吸附劑方法 |
TW107117257 |
2018-05-21 |
TWI665028B |
2019-07-11 |
張益國; CHANG, YI-KUO; 徐一量; SHU, YI-LIANG; 施百鴻; SHIH, PAI-HUANG; 呂東璇; LU, TUNG-HSUAN; 盧幸成; LU, HSING-CHENG; 張育祺; CHANG, YU-CHI; 黃子恩; HUANG, ZI-EN; 鄭文良; CHENG, WEN-LIANG |
The invention mainly relates to a fine particle soil residue (hereinafter referred to as soil residue) separated by a hydrocyclone system and mixed with an iron oxide colloid solution, and the iron oxide in the process of treating the iron oxide colloid solution Forming, and the iron oxide layer is coated on the soil residue to make a mismatch reaction between the heavy metal in the soil residue and the iron oxide, thereby greatly reducing heavy metal mobility, and forming an iron oxide The coating material adsorbent is used, and the iron oxide coating material adsorbent has different characteristic forces such as physical and chemical adsorption, and is effectively applied to the soil and the waste water where the pesticide remains. Organic matter and heavy metals are removed to achieve the goal of waste (organic, inorganic waste) by waste (ie, fine-grained soil residue after hydrocyclone sorting). |
71 |
|
TW107140984 |
2018-11-19 |
TW201922679A |
2019-06-16 |
HANSEN TOR SOYLAND; DASTOL MAGNE; MATYCHENKOV VLADIMIR |
The present application relates to a combined NPK-Si fertilizer product comprising a mineral NPK fertilizer, which comprises at least one nutrient compound of nitrogen, phosphorous or potassium, and a particulate amorphous silicon dioxide, wherein the ratio of the mineral NPK fertilizer to the amorphous silicon dioxide is from 10: 90 to 90: 10, based on the dry weight of the at least one nutrient compound of nitrogen, phosphorous or potassium, and the amorphous silicon dioxide contained in the product. The application also relates to the method of production of the inventive NPK-Si fertilizer. |
72 |
包括三嵌段共聚物之具有降低的漂浮性的控釋型肥料及其製備方法 |
TW107132279 |
2018-09-13 |
TW201920052A |
2019-06-01 |
金美喜; KIM, MIHEE; 朱孝叔; JOO, HYO SOOK; 朴恩敬; PARK, EUN KYOUNG; 崔賢; CHOI, HYEON; 尹基烈; YOON, KI YOUL |
本發明是關於一種具有顯著降低的漂浮性的控釋型肥料,包括:粒狀肥料核心;塗層(殼),形成於粒狀肥料核心的表面上,且包括烯烴類樹脂;以及添加劑,附著於塗層上,且包括環氧乙烷-環氧丙烷-環氧乙烷(EO-PO-EO)或環氧丙烷-環氧乙烷-環氧丙烷(PO-EO-PO)三嵌段共聚物。 |
73 |
肥料原料用製鋼爐渣、肥料原料用製鋼爐渣的製造方法、肥料的製造方法及施肥方法 |
TW107122318 |
2018-06-28 |
TW201906804A |
2019-02-16 |
伊藤公夫; ITO, KIMIO |
[課題]容易又低成本地將多種元素作為植物的肥料來供給,且即便供給在降雨量多的地區或河川氾濫頻繁的地區之酸性土壤也不會因水流而流失。 [解決手段]本發明之肥料原料用製鋼爐渣,其以質量%計含有:P2O5:2%以上且在8%以下、MnO:3%以上且在10%以下、硼:0.005%以上且小於0.05%、全鐵:15%以上且在30%以下、CaO:29%以上且小於38%、SiO2:16%以上且小於22%、硫:0.1%以上且在0.6%以下、MgO:4%以上且在8%以下、及Al2O3:0.5%以上且在3%以下,並且,前述P2O5中之可溶性P2O5之比率為50%以上,前述MnO中之檸檬酸溶性MnO之比率為80%以上;以(CaO含量/SiO2含量)表示之爐渣鹼度大於1.5且在2.2以下;且體積比重為2.3以上且在3.2以下。 |
74 |
無毒自然生態農法 |
TW106118534 |
2017-06-05 |
TW201902860A |
2019-01-16 |
盧家菖 |
本發明係關於一種無毒自然生態農法,係包含下列步驟:一土壤改良步驟,係以一土壤改良劑,經水稀釋後均勻地噴灑於土壤;一輔助生長步驟,係含農作物所需營養素的一生長發育輔助劑,經水稀釋後均勻地噴灑於農作物葉面或全株;及一病蟲害防治步驟,係以一防治病蟲害製劑,經水稀釋後均勻地噴灑於農作物葉面或灌注於農作物根部土壤;藉由本方法遵循自然生態法則而不會破壞栽種環境,對環境親善,並可以栽種出無毒、健康、碩大肥美的農作物。 |
75 |
緩釋肥料磚〈條塊〉 |
TW105123819 |
2016-07-26 |
TW201803837A |
2018-02-01 |
馬雲飛; MA, YUN FEI; 李尹勝; LI, YIN SHENG |
本結構發明可配合化學肥料及有機肥料,目的在於減緩大量肥料之養份釋放速度、減少施肥作業次數,不需包裝、不產生廢料及垃圾、方便運輸、易堆疊存放,是一種節能環保施肥方式,提供農作物長時間肥料供給。例如用於果樹,一次施肥作業可以提供一整年長效肥份,節省農民多次施肥作業所需之人力、金錢、管理。 |
76 |
被覆粒狀肥料、被覆粒狀肥料之製造方法及肥料組成物 |
TW105128795 |
2016-09-06 |
TW201722887A |
2017-07-01 |
笹川弘; SASAKAWA, MITSUHIRO |
一種被覆粒狀肥料,其係具備粒狀肥料、與被覆該粒狀肥料之樹脂被膜,前述樹脂被膜係包含聚異氰酸酯成分與多元醇成分的加聚物之胺基甲酸乙酯樹脂,前述聚異氰酸酯成分係包含芳香族聚異氰酸酯,前述多元醇成分係包含蓖麻油改質二醇、碳數2~8之伸烷基二醇、及具有3個以上羥基之化合物。 |
77 |
使用殺蟲劑與芽孢桿菌D747菌株之組合物及方法 |
TW104144293 |
2015-12-29 |
TW201639460A |
2016-11-16 |
馬丁 提姆西M; MARTIN, TIMOTHY M. |
本發明提供有益於植物生長之組合物及方法。在特定態樣中,該等組合物含有芽孢桿菌D747菌株(以FERM BP-8234寄存)之生物純培養物及殺蟲劑,呈適合於溶解於液體肥料中之調配物。 |
78 |
硝化抑制劑組成物及其製備方法 |
TW104144038 |
2015-12-28 |
TW201627259A |
2016-08-01 |
戴夫 希泰許庫莫; DAVE, HITESHKUMAR; 黑斯 瑪莉莎; HAYS, MELISSA; 劉 雷; LIU, LEI; 坦克 侯格; TANK, HOLGER |
本揭示係關於一種提高的硝化抑制劑組成物、其製造方法及其在農業應用上的用途。 |
79 |
微膠囊化硝化抑制劑組成物 |
TW104114159 |
2015-05-04 |
TW201620861A |
2016-06-16 |
希泰許庫莫 戴夫; HITESHKUMAR, DAVE; 劉 雷; LIU, LEI; 波查 小雷蒙E; BOUCHER, JR., RAYMOND E.; 鮑爾斯 格雷葛; POWELS, GREG; 威廉斯 艾力克斯; WILLIAMS, ALEX; 柏克哈特 米瑞恩; BURKHART, MIRIAM |
本發明係關於一種改良的硝化抑制劑組成物及其在農業應用中的用途。 |
80 |
農業用之錠劑構造 |
TW104211510 |
2015-07-16 |
TWM510327U |
2015-10-11 |
郭信麟 |
|