New forms of fertiliser with slow release, containing additionally biologically important micronutrients (Q78901): Difference between revisions

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(‎Removed claim: summary (P836): The aim of the project is to develop technologies for the production of new physical forms of fertilisers and/or additives and fertilising formulae with an extended period of discharge of nutrients into the soil and containing micronutrients from the group of zinc, copper, or manganese or others.The project involves the implementation of a wide range of works to develop formulae containing organic or mineral additives, the development of a met...)
(‎Created claim: summary (P836): The aim of the project is to develop technologies for the production of new forms of physical fertilisers or additives and fertiliser formulas with an extended period of excretion of fertilising components into the soil and containing microelements from the group of elements zinc, copper, manganese or other. The project involves the execution of a wide range of works aimed at developing formulas containing organic or mineral additives, developin...)
Property / summary
 
The aim of the project is to develop technologies for the production of new forms of physical fertilisers or additives and fertiliser formulas with an extended period of excretion of fertilising components into the soil and containing microelements from the group of elements zinc, copper, manganese or other. The project involves the execution of a wide range of works aimed at developing formulas containing organic or mineral additives, developing a method of introducing micronutrients into fertilisers and developing technology for the production of ready-made fertilisers. The project involves the development of a new group of dual-purpose additives, with properties slowing down the release of fertilising components into the soil and capable of complexing metals. Depending on the type of fertiliser, 2 groups of additives will be developed: organic and inorganic. Inorganic additives will be based on natural or synthetic aluminosilicates, where micronutrients will be introduced on the basis of ion exchange or depositing in porous grain structure. Organic additives are based on polymeric compounds that show the ability to chelate micronutrients. Another aspect of the project is to perform tests on obtaining the final form of selected fertilising groups on a laboratory scale, where the performance parameters of the products obtained and their stability over time will be determined for the samples obtained. These tests are also intended to demonstrate whether the developed range of organic additives can be used in fertilisers with high nitrogen content while maintaining process safety and storage. During the project, an application test for a new fertiliser formula will be created, which will be subjected to field tests to determine fertilisation efficiency. Manufacturing technology and additives developed as a result of the project (English)
Property / summary: The aim of the project is to develop technologies for the production of new forms of physical fertilisers or additives and fertiliser formulas with an extended period of excretion of fertilising components into the soil and containing microelements from the group of elements zinc, copper, manganese or other. The project involves the execution of a wide range of works aimed at developing formulas containing organic or mineral additives, developing a method of introducing micronutrients into fertilisers and developing technology for the production of ready-made fertilisers. The project involves the development of a new group of dual-purpose additives, with properties slowing down the release of fertilising components into the soil and capable of complexing metals. Depending on the type of fertiliser, 2 groups of additives will be developed: organic and inorganic. Inorganic additives will be based on natural or synthetic aluminosilicates, where micronutrients will be introduced on the basis of ion exchange or depositing in porous grain structure. Organic additives are based on polymeric compounds that show the ability to chelate micronutrients. Another aspect of the project is to perform tests on obtaining the final form of selected fertilising groups on a laboratory scale, where the performance parameters of the products obtained and their stability over time will be determined for the samples obtained. These tests are also intended to demonstrate whether the developed range of organic additives can be used in fertilisers with high nitrogen content while maintaining process safety and storage. During the project, an application test for a new fertiliser formula will be created, which will be subjected to field tests to determine fertilisation efficiency. Manufacturing technology and additives developed as a result of the project (English) / rank
 
Normal rank
Property / summary: The aim of the project is to develop technologies for the production of new forms of physical fertilisers or additives and fertiliser formulas with an extended period of excretion of fertilising components into the soil and containing microelements from the group of elements zinc, copper, manganese or other. The project involves the execution of a wide range of works aimed at developing formulas containing organic or mineral additives, developing a method of introducing micronutrients into fertilisers and developing technology for the production of ready-made fertilisers. The project involves the development of a new group of dual-purpose additives, with properties slowing down the release of fertilising components into the soil and capable of complexing metals. Depending on the type of fertiliser, 2 groups of additives will be developed: organic and inorganic. Inorganic additives will be based on natural or synthetic aluminosilicates, where micronutrients will be introduced on the basis of ion exchange or depositing in porous grain structure. Organic additives are based on polymeric compounds that show the ability to chelate micronutrients. Another aspect of the project is to perform tests on obtaining the final form of selected fertilising groups on a laboratory scale, where the performance parameters of the products obtained and their stability over time will be determined for the samples obtained. These tests are also intended to demonstrate whether the developed range of organic additives can be used in fertilisers with high nitrogen content while maintaining process safety and storage. During the project, an application test for a new fertiliser formula will be created, which will be subjected to field tests to determine fertilisation efficiency. Manufacturing technology and additives developed as a result of the project (English) / qualifier
 
point in time: 14 October 2020
Timestamp+2020-10-14T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0

Revision as of 10:32, 14 October 2020

Project in Poland financed by DG Regio
Language Label Description Also known as
English
New forms of fertiliser with slow release, containing additionally biologically important micronutrients
Project in Poland financed by DG Regio

    Statements

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    5,688,458.2 zloty
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    1,365,229.97 Euro
    13 January 2020
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    11,592,833.0 zloty
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    2,782,279.92 Euro
    13 January 2020
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    49.07 percent
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    1 July 2016
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    31 December 2020
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    GRUPA AZOTY ZAKŁADY AZOTOWE KĘDZIERZYN S.A.
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    50°53'30.8"N, 17°55'55.6"E
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    Celem projektu jest opracowanie technologii wytwarzania nowych form fizycznych nawozów lub dodatków i formuł nawozowych o wydłużonym okresie wydzielania składników nawozowych do gleby i zawierających mikroelementy z grupy pierwiastków cynk, miedź, mangan lub inne. Projekt zakłada wykonanie szerokiego zakresu prac mającego na celu opracowanie formuł zawierających dodatki organiczne lub mineralne, opracowanie metody wprowadzania mikroelementów do nawozów oraz opracowanie technologii wytwarzania gotowej formy nawozów. Projekt zakłada opracowanie nowej grupy dwufunkcyjnych dodatków, o właściwościach spowalniających uwalnianie składników nawozowych do gleby oraz zdolnych do kompleksowania metali. W zależności od rodzaju nawozów opracowane będą 2 grupy dodatków: organiczne oraz nieorganiczne. Dodatki nieorganiczne będą bazowały na naturalnych lub syntetycznych glinokrzemianach, gdzie mikroelementy będą wprowadzane na zasadzie wymiany jonowej lub deponowania w strukturze porowatej ziarna. Dodatki organiczne, bazują na związkach polimerycznych, które wykazują zdolność do chelatowania mikroskładników. Kolejnym aspektem projektu jest wykonanie badań nad otrzymaniem finalnej postaci wybranych grup nawozowych w skali laboratoryjnej, gdzie dla otrzymanych próbek określone zostaną parametry użytkowe uzyskanych produktów oraz ich stabilność w czasie. Badania te mają również za zadanie wykazać, czy opracowana gama dodatków organicznych może być stosowana w nawozach o wysokiej zawartości azotu przy zachowaniu bezpieczeństwa procesowego oraz podczas magazynowania. W trakcie projektu wytworzona zostanie próba aplikacyjna nowej formulacji nawozowej, która zostanie poddana testom polowym w celu określenia efektywności nawożenia. Opracowana w wyniku realizacji projektu technologia wytwarzania oraz wprowadzania dodatkó (Polish)
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    The aim of the project is to develop technologies for the production of new forms of physical fertilisers or additives and fertiliser formulas with an extended period of excretion of fertilising components into the soil and containing microelements from the group of elements zinc, copper, manganese or other. The project involves the execution of a wide range of works aimed at developing formulas containing organic or mineral additives, developing a method of introducing micronutrients into fertilisers and developing technology for the production of ready-made fertilisers. The project involves the development of a new group of dual-purpose additives, with properties slowing down the release of fertilising components into the soil and capable of complexing metals. Depending on the type of fertiliser, 2 groups of additives will be developed: organic and inorganic. Inorganic additives will be based on natural or synthetic aluminosilicates, where micronutrients will be introduced on the basis of ion exchange or depositing in porous grain structure. Organic additives are based on polymeric compounds that show the ability to chelate micronutrients. Another aspect of the project is to perform tests on obtaining the final form of selected fertilising groups on a laboratory scale, where the performance parameters of the products obtained and their stability over time will be determined for the samples obtained. These tests are also intended to demonstrate whether the developed range of organic additives can be used in fertilisers with high nitrogen content while maintaining process safety and storage. During the project, an application test for a new fertiliser formula will be created, which will be subjected to field tests to determine fertilisation efficiency. Manufacturing technology and additives developed as a result of the project (English)
    14 October 2020
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    Identifiers

    POIR.01.02.00-00-0025/16
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