Development of a significantly improved industrial axial fan. (Q4421190): Difference between revisions

From EU Knowledge Graph
Jump to navigation Jump to search
(‎Changed label, description and/or aliases in en: Setting new description)
(‎Changed label, description and/or aliases in en, and other parts)
label / enlabel / en
 
Development of a significantly improved industrial axial fan.
Property / summary
 
SA.60012(2020/X) The subject of the project is to commission a research unit — ASM Kutno to develop a significantly improved industrial axial fan. The product planned to be developed will have a significantly increased fan efficiency by at least 10 % compared to the efficiency of the base fan. The project will include, among other things, numerical simulations of the axial fan flow system in order to optimise the vane system (rotor blades and steering wheel). In the first stage, an analysis of the base version of the axial fan will be carried out and a calculation tool for the selection of fan parameters will be developed. As part of the second stage, a modification of the fan geometry will be developed using three-dimensional numerical simulations. In the third, final stage, the numerical characteristics of the fan operation will be developed. Commercialisation of the result of this project will consist of the implementation of the results of the R & D service, i.e. the production of a significantly improved industrial axial fan. The result of the project is dedicated to the maritime industry (storage) industry, in particular related to the construction of vessels and their renovation. They will be used in all ventilation, aeration and air conditioning systems of rooms with a significant area. The planned significantly improved axial industrial fan will be characterised by an increased fan efficiency parameter of at least 10 % compared to the efficiency of the base fan, i.e. the best axial fans on the domestic market, which achieve a maximum of 76 % efficiency (for rated operating parameters) — value based on current catalogue data of leading fan manufacturers in Poland (e.g. Nyborg Mawent, BlueVent). The increase in efficiency will reduce the fan’s demand for electrical power by 10 % and, as a result, reduce the emi (English)
Property / summary: SA.60012(2020/X) The subject of the project is to commission a research unit — ASM Kutno to develop a significantly improved industrial axial fan. The product planned to be developed will have a significantly increased fan efficiency by at least 10 % compared to the efficiency of the base fan. The project will include, among other things, numerical simulations of the axial fan flow system in order to optimise the vane system (rotor blades and steering wheel). In the first stage, an analysis of the base version of the axial fan will be carried out and a calculation tool for the selection of fan parameters will be developed. As part of the second stage, a modification of the fan geometry will be developed using three-dimensional numerical simulations. In the third, final stage, the numerical characteristics of the fan operation will be developed. Commercialisation of the result of this project will consist of the implementation of the results of the R & D service, i.e. the production of a significantly improved industrial axial fan. The result of the project is dedicated to the maritime industry (storage) industry, in particular related to the construction of vessels and their renovation. They will be used in all ventilation, aeration and air conditioning systems of rooms with a significant area. The planned significantly improved axial industrial fan will be characterised by an increased fan efficiency parameter of at least 10 % compared to the efficiency of the base fan, i.e. the best axial fans on the domestic market, which achieve a maximum of 76 % efficiency (for rated operating parameters) — value based on current catalogue data of leading fan manufacturers in Poland (e.g. Nyborg Mawent, BlueVent). The increase in efficiency will reduce the fan’s demand for electrical power by 10 % and, as a result, reduce the emi (English) / rank
 
Normal rank
Property / summary: SA.60012(2020/X) The subject of the project is to commission a research unit — ASM Kutno to develop a significantly improved industrial axial fan. The product planned to be developed will have a significantly increased fan efficiency by at least 10 % compared to the efficiency of the base fan. The project will include, among other things, numerical simulations of the axial fan flow system in order to optimise the vane system (rotor blades and steering wheel). In the first stage, an analysis of the base version of the axial fan will be carried out and a calculation tool for the selection of fan parameters will be developed. As part of the second stage, a modification of the fan geometry will be developed using three-dimensional numerical simulations. In the third, final stage, the numerical characteristics of the fan operation will be developed. Commercialisation of the result of this project will consist of the implementation of the results of the R & D service, i.e. the production of a significantly improved industrial axial fan. The result of the project is dedicated to the maritime industry (storage) industry, in particular related to the construction of vessels and their renovation. They will be used in all ventilation, aeration and air conditioning systems of rooms with a significant area. The planned significantly improved axial industrial fan will be characterised by an increased fan efficiency parameter of at least 10 % compared to the efficiency of the base fan, i.e. the best axial fans on the domestic market, which achieve a maximum of 76 % efficiency (for rated operating parameters) — value based on current catalogue data of leading fan manufacturers in Poland (e.g. Nyborg Mawent, BlueVent). The increase in efficiency will reduce the fan’s demand for electrical power by 10 % and, as a result, reduce the emi (English) / qualifier
 
point in time: 21 October 2022
Timestamp+2022-10-21T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0

Revision as of 12:27, 21 October 2022

Project Q4421190 in Poland
Language Label Description Also known as
English
Development of a significantly improved industrial axial fan.
Project Q4421190 in Poland

    Statements

    0 references
    219,780.0 zloty
    0 references
    48,857.09 Euro
    0 references
    399,600.0 zloty
    0 references
    88,831.08 Euro
    0 references
    55.0 percent
    0 references
    1 October 2021
    0 references
    11 September 2022
    0 references
    FIRMA PRODUKCYJNO-USŁUGOWO-HANDLOWA MERRANTI KWIATKOWSKI KRZYSZTOF
    0 references
    0 references
    SA.60012(2020/X) Przedmiotem projektu jest zlecenie jednostce badawczej - ASM Kutno usługi opracowania znacząco ulepszonego przemysłowego wentylatora osiowego. Planowany do opracowania produkt odznaczać się będzie istotnie zwiększoną sprawnością wentylatora o co najmniej 10% w stosunku do sprawności wentylatora bazowego. Realizacja projektu obejmować będzie między innymi przeprowadzenie symulacji numerycznych układu przepływowego wentylatora osiowego celem optymalizacji układu łopatkowego (łopatki wirnika oraz kierownicy). W pierwszym etapie przeprowadzona zostanie analiza wersji bazowej osiowego wentylatora oraz opracowane zostanie obliczeniowe narzędzie do doboru parametrów wentylatora. W ramach drugiego etapu opracowana zostanie modyfikacja geometrii wentylatora przy wykorzystaniu trójwymiarowych symulacji numerycznych. W trzecim, ostatnim etapie opracowane zostaną charakterystyki numeryczne pracy wentylatora. Komercjalizacja rezultatu niniejszego projektu polegać będzie na wdrożeniu do własnej działalności wyników usługi B+R, tj. produkcję znacząco ulepszonego przemysłowego wentylatora osiowego. Rezultat projektu dedykowany jest dla branży przemysłu morskiego (stoczniowego), w szczególności związanego z budową jednostek pływających oraz ich remontem. Znajdą one zastosowanie we wszystkich układach wentylacji, napowietrzania oraz klimatyzacji pomieszczeń o znacznej powierzchni. Planowany do opracowania znacząco ulepszony osiowy wentylatora przemysłowy cechować będzie zwiększony parametr sprawności wentylatora o co najmniej 10% w stosunku do sprawności wentylatora bazowego, tj. najlepszych na rynku krajowym wentylatorów osiowych, które osiągają maksymalnie 76% sprawności (dla znamionowych parametrów pracy) - wartość na podstawie aktualnych danych katalogowych wiodących producentów wentylatorów w Polsce (np. Nyborg Mawent, Bluevent). Wzrost sprawności pozwoli na obniżenie zapotrzebowania wentylatora na moc elektryczną o 10%, a w rezultacie obniżenie emi (Polish)
    0 references
    SA.60012(2020/X) The subject of the project is to commission a research unit — ASM Kutno to develop a significantly improved industrial axial fan. The product planned to be developed will have a significantly increased fan efficiency by at least 10 % compared to the efficiency of the base fan. The project will include, among other things, numerical simulations of the axial fan flow system in order to optimise the vane system (rotor blades and steering wheel). In the first stage, an analysis of the base version of the axial fan will be carried out and a calculation tool for the selection of fan parameters will be developed. As part of the second stage, a modification of the fan geometry will be developed using three-dimensional numerical simulations. In the third, final stage, the numerical characteristics of the fan operation will be developed. Commercialisation of the result of this project will consist of the implementation of the results of the R & D service, i.e. the production of a significantly improved industrial axial fan. The result of the project is dedicated to the maritime industry (storage) industry, in particular related to the construction of vessels and their renovation. They will be used in all ventilation, aeration and air conditioning systems of rooms with a significant area. The planned significantly improved axial industrial fan will be characterised by an increased fan efficiency parameter of at least 10 % compared to the efficiency of the base fan, i.e. the best axial fans on the domestic market, which achieve a maximum of 76 % efficiency (for rated operating parameters) — value based on current catalogue data of leading fan manufacturers in Poland (e.g. Nyborg Mawent, BlueVent). The increase in efficiency will reduce the fan’s demand for electrical power by 10 % and, as a result, reduce the emi (English)
    21 October 2022
    0 references
    WOJ.: POMORSKIE, POW.: malborski
    0 references

    Identifiers

    POIR.02.03.02-22-0042/20
    0 references