Q2768362 (Q2768362): Difference between revisions

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(‎Created claim: summary (P836): The main object of the proposed IMPACT project is the development of improved materials based on industrial mineral olivine with a dual objective: (i) increase the refractory masses for applications in the steel industry and (ii) replace silicon oxide in foundry sand with an environmentally friendly raw material. The proposed action, IMPACT, is fully in line with the requirements of the Special Action “Aquacultures”-“Industrial Materials”-“Open...)
Property / summary
 
The main object of the proposed IMPACT project is the development of improved materials based on industrial mineral olivine with a dual objective: (i) increase the refractory masses for applications in the steel industry and (ii) replace silicon oxide in foundry sand with an environmentally friendly raw material. The proposed action, IMPACT, is fully in line with the requirements of the Special Action “Aquacultures”-“Industrial Materials”-“Open Innovation in Culture” and more specifically with the Intervention Area 1.16: Industrial materials of upgraded performance and the Thematic Sector 1.16.4: Development of materials for highly demanding environments of use in construction and industry (e.g. high corrosion, chemical attack, temperature etc., inorganic and organic materials: Fire resistant materials, refractory). The proposal will attempt to cover research activities by exploring the possibility of developing improved olivine-based industrial materials and with the aim of using these materials in high temperature applications in the metallurgical industry (steel mills and foundries). The challenges that motivate the proposed actions in IMPACT relate to the need to develop industrial fire-resistant and refractory materials that cope with particularly demanding environments, such as high temperature processes in the steel industry and metal casting, and to the constant demand for more friendly materials, both for the environment and for workers. The proposed IMPACT project responds to the above challenges by exploring for the development of advanced refractory masses and sand foundries based on an industrial mineral, olivine, (substituting conventional materials) for the coating of furnaces and the creation of molds for metal casting respectively.Summary, the objectives of the IMPACT project are to utilise olivine fractions for: I)the production of refractory masses with improved properties (therm protection and thermal insulation) for use as coating in electric arc furnace coating, with the ultimate purpose of: A. to reduce the repair time of the refractory lining of kilns b. the increase in furnace shelf life to an estimated ~15 % c. reduction in the cost/tn of refractory mass by a conservative approach of ~30 %ii) the production of advanced olivine-based powder mixtures for use as foundry sand for the purpose of: A.the production of excellent quality cast pieces with perfectly smooth surfaces that do not need to finish b. the replacement of silicon oxide (which is considered responsible for causing fatal diseases, such as silicosis in the upper respiratory system) c. the complete replacement of phenolic resins with innovative environmentally friendly and human-friendly oxides. (English)
Property / summary: The main object of the proposed IMPACT project is the development of improved materials based on industrial mineral olivine with a dual objective: (i) increase the refractory masses for applications in the steel industry and (ii) replace silicon oxide in foundry sand with an environmentally friendly raw material. The proposed action, IMPACT, is fully in line with the requirements of the Special Action “Aquacultures”-“Industrial Materials”-“Open Innovation in Culture” and more specifically with the Intervention Area 1.16: Industrial materials of upgraded performance and the Thematic Sector 1.16.4: Development of materials for highly demanding environments of use in construction and industry (e.g. high corrosion, chemical attack, temperature etc., inorganic and organic materials: Fire resistant materials, refractory). The proposal will attempt to cover research activities by exploring the possibility of developing improved olivine-based industrial materials and with the aim of using these materials in high temperature applications in the metallurgical industry (steel mills and foundries). The challenges that motivate the proposed actions in IMPACT relate to the need to develop industrial fire-resistant and refractory materials that cope with particularly demanding environments, such as high temperature processes in the steel industry and metal casting, and to the constant demand for more friendly materials, both for the environment and for workers. The proposed IMPACT project responds to the above challenges by exploring for the development of advanced refractory masses and sand foundries based on an industrial mineral, olivine, (substituting conventional materials) for the coating of furnaces and the creation of molds for metal casting respectively.Summary, the objectives of the IMPACT project are to utilise olivine fractions for: I)the production of refractory masses with improved properties (therm protection and thermal insulation) for use as coating in electric arc furnace coating, with the ultimate purpose of: A. to reduce the repair time of the refractory lining of kilns b. the increase in furnace shelf life to an estimated ~15 % c. reduction in the cost/tn of refractory mass by a conservative approach of ~30 %ii) the production of advanced olivine-based powder mixtures for use as foundry sand for the purpose of: A.the production of excellent quality cast pieces with perfectly smooth surfaces that do not need to finish b. the replacement of silicon oxide (which is considered responsible for causing fatal diseases, such as silicosis in the upper respiratory system) c. the complete replacement of phenolic resins with innovative environmentally friendly and human-friendly oxides. (English) / rank
 
Normal rank
Property / summary: The main object of the proposed IMPACT project is the development of improved materials based on industrial mineral olivine with a dual objective: (i) increase the refractory masses for applications in the steel industry and (ii) replace silicon oxide in foundry sand with an environmentally friendly raw material. The proposed action, IMPACT, is fully in line with the requirements of the Special Action “Aquacultures”-“Industrial Materials”-“Open Innovation in Culture” and more specifically with the Intervention Area 1.16: Industrial materials of upgraded performance and the Thematic Sector 1.16.4: Development of materials for highly demanding environments of use in construction and industry (e.g. high corrosion, chemical attack, temperature etc., inorganic and organic materials: Fire resistant materials, refractory). The proposal will attempt to cover research activities by exploring the possibility of developing improved olivine-based industrial materials and with the aim of using these materials in high temperature applications in the metallurgical industry (steel mills and foundries). The challenges that motivate the proposed actions in IMPACT relate to the need to develop industrial fire-resistant and refractory materials that cope with particularly demanding environments, such as high temperature processes in the steel industry and metal casting, and to the constant demand for more friendly materials, both for the environment and for workers. The proposed IMPACT project responds to the above challenges by exploring for the development of advanced refractory masses and sand foundries based on an industrial mineral, olivine, (substituting conventional materials) for the coating of furnaces and the creation of molds for metal casting respectively.Summary, the objectives of the IMPACT project are to utilise olivine fractions for: I)the production of refractory masses with improved properties (therm protection and thermal insulation) for use as coating in electric arc furnace coating, with the ultimate purpose of: A. to reduce the repair time of the refractory lining of kilns b. the increase in furnace shelf life to an estimated ~15 % c. reduction in the cost/tn of refractory mass by a conservative approach of ~30 %ii) the production of advanced olivine-based powder mixtures for use as foundry sand for the purpose of: A.the production of excellent quality cast pieces with perfectly smooth surfaces that do not need to finish b. the replacement of silicon oxide (which is considered responsible for causing fatal diseases, such as silicosis in the upper respiratory system) c. the complete replacement of phenolic resins with innovative environmentally friendly and human-friendly oxides. (English) / qualifier
 
point in time: 2 July 2021
Timestamp+2021-07-02T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0

Revision as of 13:04, 2 July 2021

Project Q2768362 in Greece
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Project Q2768362 in Greece

    Statements

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    523,924.0 Euro
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    80.0 percent
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    11 October 2019
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    10 April 2022
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    ΘΕΡΜΟΛΙΘ Α.Ε.-ΠΥΡΙΜΑΧΑ ΠΡΟΙΟΝΤΑ -ΒΙΟΜΗΧΑΝΙΚΑ ΟΡΥΚΤΑ
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    39°32'59.71"N, 22°14'37.14"E
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    40°54'2.41"N, 22°57'19.80"E
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    39°32'59.71"N, 22°14'37.14"E
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    Βασικό αντικείμενο του προτεινόμενου έργου IMPACT είναι η ανάπτυξη βελτιωμένων υλικών με βάση το βιομηχανικό ορυκτό ολιβίνη με διττό στόχο: i) την αύξηση της πυριμαχικότητας μαζών για εφαρμογές στη χαλυβουργία και ii) την αντικατάσταση του οξειδίου του πυριτίου στην άμμο χυτηρίων με μία περιβαλλοντικά φιλικότερη πρώτη ύλη. Η προτεινόμενη δράση, IMPACT, είναι απόλυτα εναρμονισμένη με τις απαιτήσεις της Ειδικής Δράσης «Υδατοκαλλιέργειες»-«Βιομηχανικά Υλικά»-«Ανοιχτή Καινοτομία στον Πολιτισμό» και πιο συγκεκριμένα με την Περιοχή Παρέμβασης 1.16: Βιομηχανικά υλικά αναβαθμισμένης επίδοσης και το Θεματικό Τομέα 1.16.4: Ανάπτυξη υλικών για ιδιαίτερα απαιτητικά περιβάλλοντα χρήσης στις κατασκευές και την βιομηχανία (π.χ. υψηλή διάβρωση, χημική προσβολή, θερμοκρασία κ.ά., ανόργανα και οργανικά υλικά: ενδεικτικά υλικά πυράντοχα, πυρίμαχα). Στα πλαίσια της πρότασης θα επιχειρηθεί η κάλυψη των ερευνητικών δραστηριοτήτων με τη διερεύνηση της δυνατότητας ανάπτυξης βελτιωμένων βιομηχανικών υλικών με βάση τον ολιβίνη και με στόχο τη χρήση των υλικών αυτών σε εφαρμογές υψηλών θερμοκρασιών στη μεταλλουργική βιομηχανία (χαλυβουργεία και χυτήρια). Οι προκλήσεις που κινητοποιούν τις προτεινόμενες δράσεις στο IMPACT σχετίζονται με την ανάγκη ανάπτυξης βιομηχανικών πυράντοχων και πυρίμαχων υλικών που να ανταπεξέρχονται σε ιδιαίτερα απαιτητικά περιβάλλοντα, όπως είναι οι διεργασίες υψηλών θερμοκρασιών στη χαλυβουργία και στη χύτευση μετάλλων, και με τη διαρκή απαίτηση για χρήση φιλικότερων υλικών, τόσο για το περιβάλλον όσο και για τους εργαζόμενους. Το προτεινόμενο έργο IMPACT έρχεται να απαντήσει στις παραπάνω προκλήσεις με τη διερεύνηση για την ανάπτυξη προηγμένων πυρίμαχων μαζών και άμμου χυτηρίων με βάση ένα βιομηχανικό ορυκτό, τον ολιβίνη, (υποκαθιστώντας συμβατικά υλικά) για την επίστρωση κλιβάνων και τη δημιουργία καλουπιών για χύτευση μετάλλων αντίστοιχα.Συνοπτικά, οι στόχοι στο έργο IMPACT είναι η αξιοποίηση κλασμάτων ολιβίνη για: i)την παραγωγή πυρίμαχων μαζών με βελτιωμένες ιδιότητες (θερμοπροστασία και θερμομόνωση) για χρήση ως επίστρωση στην επένδυση κλιβάνων ηλεκτρικού τόξου, με απώτερο σκοπό: α.τη μείωση του χρόνου επιδιόρθωσης της πυρίμαχης επένδυσης των κλιβάνων β.την αύξηση του χρόνου ζωής του κλιβάνου σε ένα κατ’ εκτίμηση ποσοστό ~15% γ.τη μείωση του κόστους/tn πυρίμαχης μάζας με μια συντηρητική προσέγγιση κατά ~30%ii)την παραγωγή προηγμένων μειγμάτων κόνεων με βάση τον ολιβίνη για χρήση ως άμμο χυτηρίων με σκοπό: α.την παραγωγή άριστης ποιότητας χυτευμένων τεμαχίων με απόλυτα λείες επιφάνειες που δε χρειάζονται φινίρισμα β.την αντικατάσταση του οξειδίου του πυριτίου (που θεωρείται υπεύθυνο για την πρόκληση θανατηφόρων παθήσεων, όπως η πυριτίαση στο ανώτερο αναπνευστικό) γ.την πλήρη αντικατάσταση φαινολικών ρητινών με καινοτόμους φιλικούς για το περιβάλλον και τον άνθρωπο συνδέτες δ.την αύξηση της ανακυκλώσιμης άμμου χυτηρίου σε ένα κατ’ εκτίμηση ποσοστό ~10%ε.τη μείωση του κόστους/tn άμμο χυτηρίου με μια συντηρητική προσέγγιση ~15%iii)τη μελέτη των πιθανών επιπτώσεων στην υγεία από τη χρήση του ολιβίνη στις διεργασίες ενδιαφέροντος, μέσω κυτταρικών βιοδοκιμασιώνiv)την τεχνοοικονομική αξιολόγηση (technoeconomic study) και εκτίμηση οφέλους χρήσης (Greek)
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    The main object of the proposed IMPACT project is the development of improved materials based on industrial mineral olivine with a dual objective: (i) increase the refractory masses for applications in the steel industry and (ii) replace silicon oxide in foundry sand with an environmentally friendly raw material. The proposed action, IMPACT, is fully in line with the requirements of the Special Action “Aquacultures”-“Industrial Materials”-“Open Innovation in Culture” and more specifically with the Intervention Area 1.16: Industrial materials of upgraded performance and the Thematic Sector 1.16.4: Development of materials for highly demanding environments of use in construction and industry (e.g. high corrosion, chemical attack, temperature etc., inorganic and organic materials: Fire resistant materials, refractory). The proposal will attempt to cover research activities by exploring the possibility of developing improved olivine-based industrial materials and with the aim of using these materials in high temperature applications in the metallurgical industry (steel mills and foundries). The challenges that motivate the proposed actions in IMPACT relate to the need to develop industrial fire-resistant and refractory materials that cope with particularly demanding environments, such as high temperature processes in the steel industry and metal casting, and to the constant demand for more friendly materials, both for the environment and for workers. The proposed IMPACT project responds to the above challenges by exploring for the development of advanced refractory masses and sand foundries based on an industrial mineral, olivine, (substituting conventional materials) for the coating of furnaces and the creation of molds for metal casting respectively.Summary, the objectives of the IMPACT project are to utilise olivine fractions for: I)the production of refractory masses with improved properties (therm protection and thermal insulation) for use as coating in electric arc furnace coating, with the ultimate purpose of: A. to reduce the repair time of the refractory lining of kilns b. the increase in furnace shelf life to an estimated ~15 % c. reduction in the cost/tn of refractory mass by a conservative approach of ~30 %ii) the production of advanced olivine-based powder mixtures for use as foundry sand for the purpose of: A.the production of excellent quality cast pieces with perfectly smooth surfaces that do not need to finish b. the replacement of silicon oxide (which is considered responsible for causing fatal diseases, such as silicosis in the upper respiratory system) c. the complete replacement of phenolic resins with innovative environmentally friendly and human-friendly oxides. (English)
    2 July 2021
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    Identifiers

    5.048.508
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