HPQ Silicon - shape a greener future with us (Seite 7)
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April 05th, 2023
GREEN ENGINEERING SILICA AND SILICON MATERIAL TECHNOLOGY IN NORTH AMERICA
https://hpqsilicon.com/wp-content/uploads/2023/04/HPQ_Final_…
GREEN ENGINEERING SILICA AND SILICON MATERIAL TECHNOLOGY IN NORTH AMERICA
https://hpqsilicon.com/wp-content/uploads/2023/04/HPQ_Final_…
Antwort auf Beitrag Nr.: 73.634.218 von Oginvest am 06.04.23 22:37:09Wenn alles wie geplant abläuft, könnte es noch ein sehr informatives 2023 werden...
Antwort auf Beitrag Nr.: 73.634.020 von Gexe006 am 06.04.23 21:48:43Zitat aus dem Ytube Link: 😎
PLANS IN PLACE FOR SILICON BASED BATTERY MATERIAL PRODUCTION IN NORTH AMERICA
In order to begin the process of helping close that deficit, $HPQ.ca announced that they are in Early-Stage Planning for a Silicon-Based Battery Material Production Line in North America in 2024 targeting 200 tonnes per year and $US 6,000,000 in sales using the current price of $US 30/Kg … with the intention of building up its North American capacity more than 10X that amount to 2,500 tonnes per year of High Purity Silicon produced by its Gen4 PUREVAP Quartz Reduction Reactor (QRR) as feedstock for a battery material production line, among other applications.
PLANS IN PLACE FOR SILICON BASED BATTERY MATERIAL PRODUCTION IN NORTH AMERICA
In order to begin the process of helping close that deficit, $HPQ.ca announced that they are in Early-Stage Planning for a Silicon-Based Battery Material Production Line in North America in 2024 targeting 200 tonnes per year and $US 6,000,000 in sales using the current price of $US 30/Kg … with the intention of building up its North American capacity more than 10X that amount to 2,500 tonnes per year of High Purity Silicon produced by its Gen4 PUREVAP Quartz Reduction Reactor (QRR) as feedstock for a battery material production line, among other applications.
New silicon anodes could help EV batteries go farther, charge faster
April 4 (Reuters) - A new generation of electric vehicle (EV) batteries that hold more energy, achieve longer driving range and charge more quickly should begin reaching customers by mid-decade, powered by new silicon-based electrodes that are slated to go into production next year in central Washington state.
.....
https://www.reuters.com/business/autos-transportation/new-si…
April 4 (Reuters) - A new generation of electric vehicle (EV) batteries that hold more energy, achieve longer driving range and charge more quickly should begin reaching customers by mid-decade, powered by new silicon-based electrodes that are slated to go into production next year in central Washington state.
.....
https://www.reuters.com/business/autos-transportation/new-si…
GEN3 PUREVAP™ QRR PILOT PLANT VALIDATION: PURITY AND PROCESS MILESTONES REACHED AHEAD OF SCHEDULE
MONTREAL, Canada, March 16th, 2023 — HPQ Silicon Inc. (“HPQ” or the “Company”) (TSX-V: HPQ) (OTCQX: HPQFF) (FRA: O08), a technology company engaged in green engineering processes for producing silica and silicon material, would like to inform shareholders of the two (2) major milestones reached as we continue with series #1 (January 19, 2023 release) of the GEN3 PUREVAPTM Quartz Reduction Reactor (QRR) (“GEN3 QRR”) (“Pilot Plant”) testing and validation program.
Technology provider PyroGenesis Canada Inc. (TSX: PYR) (NASDAQ: PYR) (FRA: 8PY) (“Pyrogenesis”) achieved, under less-than-optimal operating conditions, better than expected purity results, and demonstrated its ability to operate the Pilot Plant on a semi – continuous basis. Both are described in more detail below.
PRODUCED SILICON EXCEEDS 99.5% BEST COMMERCIALLY AVAILABLE PURITY THRESHOLD
Pyrogenesis tested the purity of Silicon material produced during the first three (3) series #1 tests
completed.
...
>> https://hpqsilicon.com/wp-content/uploads/2023/03/HPQ-QRR-PU…
https://hpqsilicon.com/press-releases/press-releases-2023/
MONTREAL, Canada, March 16th, 2023 — HPQ Silicon Inc. (“HPQ” or the “Company”) (TSX-V: HPQ) (OTCQX: HPQFF) (FRA: O08), a technology company engaged in green engineering processes for producing silica and silicon material, would like to inform shareholders of the two (2) major milestones reached as we continue with series #1 (January 19, 2023 release) of the GEN3 PUREVAPTM Quartz Reduction Reactor (QRR) (“GEN3 QRR”) (“Pilot Plant”) testing and validation program.
Technology provider PyroGenesis Canada Inc. (TSX: PYR) (NASDAQ: PYR) (FRA: 8PY) (“Pyrogenesis”) achieved, under less-than-optimal operating conditions, better than expected purity results, and demonstrated its ability to operate the Pilot Plant on a semi – continuous basis. Both are described in more detail below.
PRODUCED SILICON EXCEEDS 99.5% BEST COMMERCIALLY AVAILABLE PURITY THRESHOLD
Pyrogenesis tested the purity of Silicon material produced during the first three (3) series #1 tests
completed.
...
>> https://hpqsilicon.com/wp-content/uploads/2023/03/HPQ-QRR-PU…
https://hpqsilicon.com/press-releases/press-releases-2023/
HPQ announces early-stage planning for a silicon-based battery material production line in North America
MONTREAL, Canada — HPQ Silicon Inc. (“HPQ” or the “Company”) (TSX-V: HPQ) (OTCQX: HPQFF) (FRA: O08), a technology company engaged in green engineering processes for producing silica and silicon material, would like to inform shareholders on plans to build a silicon-based battery material production line in North America (“N.A”).
Eventually, as the Company has reported, HPQ expects to use the 2,500 tonnes per year (TPY) of High Purity Silicon produced by its Gen4 PUREVAP™ Quartz Reduction Reactor (QRR) as feedstock for a battery material production line, among other applications.
Between now and then, HPQ intends to build up its North American capacity gradually and gain the expertise and market presence (share) to accomplish that goal. Since the minimal commercial capacity of the systems being tested to make Silicon battery material is 200 TPY, HPQ’s first modular production line capacity will be set at 200 TPY capacity to produce sub – 5-micron size Silicon (Si) powders or 300 TPY of less than 5-micron SiOx powders.
SILICON DEMAND TO INCREASE TO RESOLVE BATTERY PERFORMANCE ISSUES
A rather recent (industrial) development is the introduction of small amounts (between 5% to 10%) of silicon or silicon oxide (SiOx) to graphite composite electrodes, since pure graphite anodes have essentially reached their maximum performance concerning energy density1. Using estimates of graphite demand, this application suggests a minimum of 400,000 tonnes (t) to 800,000 t of silicon would be required just to satisfy the gap in graphite demand by 20402. By 2030 it is estimated a minimum of 100,000 TPY will be required.
HPQ INVESTIGATING EARLY START TO PRODUCTION
To facilitate the early move toward production and to enter the market as quickly as possible, the Company, with input from Novacium, is developing plans to create an initial production facility that can produce 200 TPY of micron-size Si and SiOx powders for battery applications by 2024. After onboarding Novacium in Q3 of 2022, HPQ tasked the company to identify micron size Si or SiOx material characteristics and markets and propose pathways through which HPQ can use to build a North American material production line.
The principal characteristics of the Silicon material needed are its size (less than 5 microns in powder form, and purity (at least 3N+ or 99.95% Si). Presently, the potential selling price for this spec material in North America, duties and transportation costs included, stand at approximately US$ 30 per Kg3.
...
>> https://hpqsilicon.com/press-release/early-stage-silicon-bas…
MONTREAL, Canada — HPQ Silicon Inc. (“HPQ” or the “Company”) (TSX-V: HPQ) (OTCQX: HPQFF) (FRA: O08), a technology company engaged in green engineering processes for producing silica and silicon material, would like to inform shareholders on plans to build a silicon-based battery material production line in North America (“N.A”).
Eventually, as the Company has reported, HPQ expects to use the 2,500 tonnes per year (TPY) of High Purity Silicon produced by its Gen4 PUREVAP™ Quartz Reduction Reactor (QRR) as feedstock for a battery material production line, among other applications.
Between now and then, HPQ intends to build up its North American capacity gradually and gain the expertise and market presence (share) to accomplish that goal. Since the minimal commercial capacity of the systems being tested to make Silicon battery material is 200 TPY, HPQ’s first modular production line capacity will be set at 200 TPY capacity to produce sub – 5-micron size Silicon (Si) powders or 300 TPY of less than 5-micron SiOx powders.
SILICON DEMAND TO INCREASE TO RESOLVE BATTERY PERFORMANCE ISSUES
A rather recent (industrial) development is the introduction of small amounts (between 5% to 10%) of silicon or silicon oxide (SiOx) to graphite composite electrodes, since pure graphite anodes have essentially reached their maximum performance concerning energy density1. Using estimates of graphite demand, this application suggests a minimum of 400,000 tonnes (t) to 800,000 t of silicon would be required just to satisfy the gap in graphite demand by 20402. By 2030 it is estimated a minimum of 100,000 TPY will be required.
HPQ INVESTIGATING EARLY START TO PRODUCTION
To facilitate the early move toward production and to enter the market as quickly as possible, the Company, with input from Novacium, is developing plans to create an initial production facility that can produce 200 TPY of micron-size Si and SiOx powders for battery applications by 2024. After onboarding Novacium in Q3 of 2022, HPQ tasked the company to identify micron size Si or SiOx material characteristics and markets and propose pathways through which HPQ can use to build a North American material production line.
The principal characteristics of the Silicon material needed are its size (less than 5 microns in powder form, and purity (at least 3N+ or 99.95% Si). Presently, the potential selling price for this spec material in North America, duties and transportation costs included, stand at approximately US$ 30 per Kg3.
...
>> https://hpqsilicon.com/press-release/early-stage-silicon-bas…
PyroGenesis Provides Update on the PUREVAP™ QRR Project with HPQ Silicon Inc.
Process Testing Moving Forward as Expected; Engineering Study to FollowMONTREAL, Feb. 02, 2023 (GLOBE NEWSWIRE) -- PyroGenesis Canada Inc. (http://pyrogenesis.com) (TSX: PYR) (NASDAQ: PYR) (FRA: 8PY), a high-tech company (hereinafter referred to as the “Company” or “PyroGenesis”), that designs, develops, manufactures and commercializes advanced plasma processes and sustainable solutions to reduce greenhouse gases (GHG) and address environmental pollutants, is pleased to provide, further to HPQ Silicon Inc’s (“HPQ” or the “Client”) press release dated January 19th 2023, and the Company’s news release on November 8, 2022, an update on its Gen3 PUREVAP™ Quartz Reduction Reactor (QRR) pilot plant (the “ Gen3 PUREVAP ™ Pilot Plant” or the “Pilot Plant”) project following recent inquiries from investors.
The process testing referred to in the HPQ press release dated January 19th, 2023, is moving forward as expected and represents, in management’s opinion, a key development in the overall project. These tests are geared to not only confirm that the technology works as expected, but also to give input into the subsequent engineering study which will be geared to determining amongst other things, the actual number of systems required for commercialization and the profitability of each.
“The question that keeps being asked of us is what does successful testing ultimately mean to PyroGenesis?”, said Mr. P. Peter Pascali, CEO and Chair of PyroGenesis, “The answer is that besides the strategic investment PyroGenesis has in HPQ, the Company also benefits from a royalty payment representing 10% of the Client’s sales. In addition to this, the subsequent commercial systems required by HPQ for commercialization would be manufactured by PyroGenesis. Although these current tests and the subsequent engineering study will determine the profitability of the project, they will also determine the exact number of reactors required. To give more clarity, at this stage both HPQ and PyroGenesis agree, given what we know today, that at least two (2) initial reactors, each reactor capable of producing 2,500 MT of high purity silicon per year, at a build cost to HPQ of at least $20 million each, would be required. This assumes successful testing which, although we are confident in, is not guaranteed as there are many uncertainties yet to be addressed before we can say with confidence that we have a successful process to commercialize.”
...
https://ir.pyrogenesis.com/news-releases/news-release-detail…
GEN3 PUREVAP™ QRR Pilot Plant: Process Testing Moving Forward on Schedule
MONTREAL, Jan. 19, 2023 (GLOBE NEWSWIRE) -- HPQ Silicon Inc. (“HPQ” or the “Company”) (TSX-V: HPQ) (OTCQX: HPQFF) (FRA: O08), a technology company engaged in green engineering processes of producing silica and silicon material, would like to inform investors of the next milestones planned as its GEN3 PUREVAPTM Quartz Reduction Reactor (QRR) (“GEN3 QRR”) (“Pilot Plant”) testing program passes the halfway mark.During the past six (6) months of the program technology provider PyroGenesis Canada Inc. (TSX: PYR) (NASDAQ: PYR) (FRA: 8PY), validated that the GEN3 QRR pilot plant operates as designed and produces Silicon (Si) Materials.
Having passed the halfway mark, the remaining months of the program will focus on achieving key milestones that will dictate the start and end of a series of process improvement tests. These three series of process improvement tests will enable us to collect important data required to advance the project to the next logical step, planning the development of our first commercial scale plant (PUREVAPTM GEN4 QRR).
...
>> https://hpqsilicon.com/press-release/hpq-silicon-gen3-pureva…
Erfolgreiche Betriebstests der PUREVAP™ QRR-Pilotanlage
https://agoracom.com/ir/HPQ-SiliconResources/forums/discussi…HPQ Silicon GEN3 PUREVAP™ QRR-Pilotanlage: Dynamischer Test erfolgreich, wichtige Skalierungsmeilensteine erreicht; Pilotanlage fertig zum Verarbeiten von Material
MONTREAL, Nov. 08, 2022 (GLOBE NEWSWIRE) --HPQ Silicon Inc. ("HPQ" oder das "Unternehmen") (TSX-V: HPQ) (OTCQX: HPQFF) (FRA: O08), ein innovatives Unternehmen für Siliziumlösungen und Technologieentwicklung, möchte seine Aktionäre darüber informieren, dass der TechnologieanbieterPyroGenesis Canada Inc. (TSX: PYR) (NASDAQ: PYR) (FRA: 8PY), hat HPQ darüber informiert, dass der dynamische Test desGEN3 PUREVAP™Quartz Reduction Reactor (QRR) erfolgreich war und dass die Pilotanlage nun bereit ist, Material zu verarbeiten.
GEN3 QRR-TESTS VALIDIEREN DESIGNLEISTUNG UND SKALIERBARKEIT
Der dynamische Hochtemperatur-Blindtest bestätigte, dass derGEN3 PUREVAP™QRR-Pilot (die "Pilotanlage") wie erwartet innerhalb wichtiger Designparameter arbeiten kann. über einen langen Zeitraum.
Dies ist ein wichtiger Meilenstein für diesen neuartigen, hochmodernen Pilotanlagenprototyp, und das Team von Pyrogenesis erreichte auch die größte Einzelskalierung des QRR, die vor dem Übergang zur kommerziellen Produktion erforderlich ist. Die GEN3-Pilotanlage wird etwa 2.500-mal mehr Produkte produzieren als GEN2. Dieser große Durchbruch erhöht die Erwartung, dass der nächste Schritt der kommerziellen Skalierbarkeit erfolgreich sein wird.
HPQ ist mit seinem Entwicklungspartner Pyrogenesis näher denn je der Bestätigung, dass der innovative Ansatz zur Herstellung von hochreinem Silizium mit dem QRR-Verfahren ein kommerzieller Erfolg sein wird.
GEN3 QRR-TESTSERREICHEN AUCH MEHRERE WICHTIGE TECHNISCHE MEILENSTEINE
Während des 72-stündigen dynamischen Blindtests wurden alle wichtigen Schritte getestet, die zur Herstellung von Silizium erforderlich sind. Das System validierte nicht nur seine Fähigkeit, unter Vakuum bei einer hohen Temperatur für die erforderliche Zeit zu arbeiten, sondern zeigte auch die Fähigkeit, einen inerten Zustand im Ofen der Pilotanlage bei noch höheren Temperaturen für die Dauer des Tests aufrechtzuerhalten.
Das Design der Pilotanlage umfasst Ideen und Konzepte, die erstmals in den vorläufigen PUREVAP-QRR-Patentanmeldungen™beschrieben wurden, die 2021 eingereicht wurden (Veröffentlichung vom 4. September 2021), die ein neues und neuartiges Verfahren für den kontinuierlichen Betrieb eines Plasmalichtbogenofens unter Vakuum abdecken.
"Ein Vakuum bei hohen Temperaturen im Reaktor erreichen und es dann bei noch höheren Temperaturen in einem inerten Zustand halten; über mehrere Tage war ein komplexes Unterfangen", sagte Bernard Tourillon, President und CEO von HPQ Silicon Inc. "Es gibt keinen anderen Weg, es zu sagen; Die Ergebnisse, die während des 72-stündigen dynamischen Blindtests erzielt wurden, sind ein wichtiger technischer Meilenstein und eine Errungenschaft für das PyroGenesis-Team."
"Die Weiterentwicklung des PUREVAP-Projekts™ in diese Phase war eine der großen Errungenschaften des Unternehmens. Von der ersten Idee über Labortests bis hin zum Design und Bau und jetzt mit den erfolgreichen Betriebstests der Pilotanlage sind unsere Bemühungen, die Plasmatechnologie in die hochreine Siliziumindustrie einzuführen, ein weiteres Beispiel dafür, wie wir unser wissenschaftliches und technisches Know-how einsetzen, um einige der dringendsten Probleme der Schwerindustrie zu lösen. ", sagte P. Peter Pascali, CEO und Vorsitzender von PyroGenesis. " Wie wir bereits erwähnt haben, sind wir fest davon überzeugt, dass sich der PUREVAP-Prozess™ als bahnbrechend für die Herstellung eines Metalls erweisen wird, das für zukünftige Energieziele wie Silizium strategisch wichtig ist. Wir sind stolz darauf, gemeinsam mit HPQ auf dieser Reise zu sein."
DER DYNAMISCHE HOCHTEMPERATUR-BLINDTEST, DIE LETZTE PROBE VOR DER HERSTELLUNG VON SILIZIUM
Vor Beginn des Hochtemperatur-Blindtests wurde Holzkohle in den Reaktor geladen, um Bauteile in direktem Kontakt mit dem Plasmalichtbogen zu schützen. Um die Auskleidung des Ofens vor Oxidation (Verbrennung der Holzkohle) zu schützen, musste das System während der Dauer des Tests einen inerten Zustand beibehalten. Sauerstoff im Ofen hätte die Holzkohle verbrannt und den Reaktor beschädigt.
Bild 1 (L) unten zeigt die Intensität des Plasmalichtbogens (>.000 C), während Bild 1 (R) den Boden des Ofens nach dem Test noch mit unverbrannter Holzkohle gefüllt zeigt.
Bild 1 finden Sie unterhttps://www.globenewswire.com/NewsRoom/AttachmentNg/a1094f02…
PILOTANLAGE BEREIT FÜR DIE VERARBEITUNG VON MATERIAL
Der nächste Schritt in den Prozessverbesserungstests und darüber hinaus umfasst die Einführung einer Mischung aus Quarz (SiO2) und Reduktionsmittel in QRR, wie Bild 2 unten zeigt. Der 72-Stunden-Test zeigte, dass das System unter Vakuum bei hoher Temperatur arbeiten und dann einen inerten Zustand im Reaktor aufrechterhalten kann, und dass wir in der Lage sind, die wichtigsten Produktionsparameter von Silizium herzustellen. Damit sind wir nun bereit, mit der Herstellung von Silizium durch karbothermische Reduktion von Quarz zu beginnen.
Bild 2 finden Sie unterhttps://www.globenewswire.com/NewsRoom/AttachmentNg/cf8a3645…