Nyheter innen silisiumbatterier
Siden dette kan bli et spennende område for REC i nær fremtid, kan det jo være interessant å holde seg oppdatert på nyheter herfra.
Kan jo starte med LG Chem:
LG Chem invests in Enevate; silicon-dominant Li-ion battery technology
Enevate Corporation, developer of a silicon-dominant composite anode material and high energy density batteries (earlier post), announced that LG Chem has participated in Enevate’s recent funding.
Introduced in November 2017, Enevate’s HD-Energy Technology for EVs enables Lithium-ion (Li-ion) cells with up to 50% higher capacity than conventional graphite cells. The cells can be charged to 75% capacity in five minutes. They can also safely charge and discharge down to -40°C and capture more energy during regenerative braking, extending their range in cold climates.
Enevate’s HD-Energy Technology is a self-standing, silicon-dominant composite anode with more than 70% silicon. The conductive, silicon-dominant composite film anode is essentially 100% active material that can store lithium and has a high electrical conductivity.
https://www.greencarcongress.com/2018/10/20181024-enevate.html
Kan jo starte med LG Chem:
LG Chem invests in Enevate; silicon-dominant Li-ion battery technology
Enevate Corporation, developer of a silicon-dominant composite anode material and high energy density batteries (earlier post), announced that LG Chem has participated in Enevate’s recent funding.
Introduced in November 2017, Enevate’s HD-Energy Technology for EVs enables Lithium-ion (Li-ion) cells with up to 50% higher capacity than conventional graphite cells. The cells can be charged to 75% capacity in five minutes. They can also safely charge and discharge down to -40°C and capture more energy during regenerative braking, extending their range in cold climates.
Enevate’s HD-Energy Technology is a self-standing, silicon-dominant composite anode with more than 70% silicon. The conductive, silicon-dominant composite film anode is essentially 100% active material that can store lithium and has a high electrical conductivity.
https://www.greencarcongress.com/2018/10/20181024-enevate.html
Redigert 21.01.2021 kl 09:29
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Apropos forsvaret i USA, ref forrige nyhet her (https://www.army.mil/article/224879/army_boosts_soldier_battery_power_for_greater_lethality_mobility). Fra Torvunds presentasjon i dag:
«So we have been working with the U.S. -- different departments in the U.S. to underline the importance of having access to polysilicon internally in the U.S. and access to silicon gases in the U.S. And among those we have been discussing with is also Department of Defense in Washington D.C. It was -- this might also have some security consequences for the U.S.»
Som jeg leser det, kan det se ut til at REC vil stå for leveringen av silan og poly-Si til det amerikanske forsvaret, når de tar i bruk de nye Si-anode-batteriene.
Link til transcript fra TTs tale: https://finance.yahoo.com/news/edited-transcript-rec-ol-earnings-153155846.html
«So we have been working with the U.S. -- different departments in the U.S. to underline the importance of having access to polysilicon internally in the U.S. and access to silicon gases in the U.S. And among those we have been discussing with is also Department of Defense in Washington D.C. It was -- this might also have some security consequences for the U.S.»
Som jeg leser det, kan det se ut til at REC vil stå for leveringen av silan og poly-Si til det amerikanske forsvaret, når de tar i bruk de nye Si-anode-batteriene.
Link til transcript fra TTs tale: https://finance.yahoo.com/news/edited-transcript-rec-ol-earnings-153155846.html
Redigert 21.01.2021 kl 08:50
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Den amerikanske hæren er fremst i verden på «wearable technology». De går nå over til Si-batterier, da de halverer vekten.
«Soldiers currently carry an average of 20.8 pounds of batteries for a 72-hour mission. With the Army focused on modernization and the need to add new capabilities that require greater power, the battery weight will continue to increase and have a detrimental effect on Soldiers' performance during missions, Hurley said.
"The C5ISR Center is helping the Army get ahead of this problem by working on advanced materials like silicon anode," said Hurley, who noted that incorporating silicon-based anodes into Army batteries will cut their battery weight in half.»
https://www.army.mil/article/224879/army_boosts_soldier_battery_power_for_greater_lethality_mobility
«Soldiers currently carry an average of 20.8 pounds of batteries for a 72-hour mission. With the Army focused on modernization and the need to add new capabilities that require greater power, the battery weight will continue to increase and have a detrimental effect on Soldiers' performance during missions, Hurley said.
"The C5ISR Center is helping the Army get ahead of this problem by working on advanced materials like silicon anode," said Hurley, who noted that incorporating silicon-based anodes into Army batteries will cut their battery weight in half.»
https://www.army.mil/article/224879/army_boosts_soldier_battery_power_for_greater_lethality_mobility
Redigert 21.01.2021 kl 08:50
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...
What’s needed is a new battery architecture that’s easier to make. Ideally, the new battery design would have higher energy density and a faster recharge time to make it ideal for vehicle use.
You already know what comes next: a company called XNRGI based near Portland, Oregon says they have the answer. That’s not uncommon in itself. Many people have claimed to have a miracle battery, but they always seem to say they can’t tell you about it yet.
The difference with XNRGI is that they’ve got a portfolio of published patents tied directly to their Powerchip battery technology, and they’ve applied for several more. The company has also received funding from the U.S. Department of Energy for their research. With patent protection and funding in place, XNRGI is eager to tell the world what they’ve got.
“We believe that we can now simultaneously address all of the issues with Lithium-ion batteries,” said XNRGI CEO Chris D’Couto.
...
The advantage of using silicon wafers to build a battery depends on another well-established semiconductor process. The XNRGI design uses perforated wafers to create a waffle-like surface. Each 12-inch silicon disc can carry up to 160 million microscopic pores. Then the wafers are coated with a non-conductive surface on one side. The other side of the wafer is coated with a conductive metal to carry the electrical current.
...
“We expect our batteries to be used in mobility products like motorbikes, scooters, drones, robots, and more in 2020,” D’Couto projected. “In EVs, it will likely be 2022 or 2023 in some limited volume, then high volume EV adoption in 2024. That is about the norm for the automotive industry after their extensive testing.”
The advent of safe, quick-charging, long-lasting, and long-range battery technology is likely to be a game-changer for the EV industry. In retrospect, with scientists all over the world researching better battery technology, perhaps we shouldn’t be surprised that someone found it.
https://finance.yahoo.com/news/next-step-ev-batteries-could-201511326.html?guccounter=1&guce_referrer=aHR0cHM6Ly93d3cuZ29vZ2xlLmNvbS8&guce_referrer_sig=AQAAAM7UlunxnM-TgFZlP12a1RDVdhYAOb1GHW4wcYKzsKpc8XiiePWot3jSHS6UP1iy05GGl9VS0E-azRszFVbdNT_n_siTP9fJJ-UJfRaKA-W-sI48UWXTTz9pTQOMT6btNzgYFQMT3HGUzqI6wflbbbTTr2M_4S4AI9a__WpsqYkp
What’s needed is a new battery architecture that’s easier to make. Ideally, the new battery design would have higher energy density and a faster recharge time to make it ideal for vehicle use.
You already know what comes next: a company called XNRGI based near Portland, Oregon says they have the answer. That’s not uncommon in itself. Many people have claimed to have a miracle battery, but they always seem to say they can’t tell you about it yet.
The difference with XNRGI is that they’ve got a portfolio of published patents tied directly to their Powerchip battery technology, and they’ve applied for several more. The company has also received funding from the U.S. Department of Energy for their research. With patent protection and funding in place, XNRGI is eager to tell the world what they’ve got.
“We believe that we can now simultaneously address all of the issues with Lithium-ion batteries,” said XNRGI CEO Chris D’Couto.
...
The advantage of using silicon wafers to build a battery depends on another well-established semiconductor process. The XNRGI design uses perforated wafers to create a waffle-like surface. Each 12-inch silicon disc can carry up to 160 million microscopic pores. Then the wafers are coated with a non-conductive surface on one side. The other side of the wafer is coated with a conductive metal to carry the electrical current.
...
“We expect our batteries to be used in mobility products like motorbikes, scooters, drones, robots, and more in 2020,” D’Couto projected. “In EVs, it will likely be 2022 or 2023 in some limited volume, then high volume EV adoption in 2024. That is about the norm for the automotive industry after their extensive testing.”
The advent of safe, quick-charging, long-lasting, and long-range battery technology is likely to be a game-changer for the EV industry. In retrospect, with scientists all over the world researching better battery technology, perhaps we shouldn’t be surprised that someone found it.
https://finance.yahoo.com/news/next-step-ev-batteries-could-201511326.html?guccounter=1&guce_referrer=aHR0cHM6Ly93d3cuZ29vZ2xlLmNvbS8&guce_referrer_sig=AQAAAM7UlunxnM-TgFZlP12a1RDVdhYAOb1GHW4wcYKzsKpc8XiiePWot3jSHS6UP1iy05GGl9VS0E-azRszFVbdNT_n_siTP9fJJ-UJfRaKA-W-sI48UWXTTz9pTQOMT6btNzgYFQMT3HGUzqI6wflbbbTTr2M_4S4AI9a__WpsqYkp
Redigert 21.01.2021 kl 08:50
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Nå vet ikke jeg hva det er topp 20 får for disse utlånene sine, men det kan umulig være noe tvil om at det neppe kan dekke opp for det enorme kursfallet denne aksjen har vært igjennom.
Redigert 21.01.2021 kl 08:50
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kongkveite
21.07.2019 kl 20:25
7501
Topp 20 pleies vel av TT & Co mens smågutta blir lurt trill rundt og taper
Redigert 21.01.2021 kl 08:50
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dno corelli
21.07.2019 kl 10:28
7804
Noni skrev Så det var grunnen?
Muligens ledelsen smører topp aksjonærer, de har vel leid ut til short, og da kommer ikke TT med noe store begivenheter.
Redigert 21.01.2021 kl 08:50
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Noni
21.07.2019 kl 00:49
8009
Så det var grunnen?
Redigert 21.01.2021 kl 08:50
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TT sin viktigste oppgave er å skape verdier for aksjonærene. Derfor bør TT skjerpe seg!
Redigert 21.01.2021 kl 08:50
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kongkveite
20.07.2019 kl 23:21
8086
Hvorfor skal TT skjerpe seg? han er jo løpergutt fot de værste shorterne som du finner på topp 20.. aldri i verden om han kommer med noe nytt som kan drive kursen oppover .. trizt men zant..zånn er det bare
Redigert 21.01.2021 kl 08:50
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TT bør skjerpe seg i neste uke. Håper å høre Recs visjoner innen batteriindustrien, og forhåpentligvis noen visjoner om hvor stort dette kan bli. Markedet må jo bli noe helt vanvittig megastort. Hele byer skal driftes på kun batterier og sol. I tillegg har man biler, fly, tog, skip...Tror ikke folk skjønner rekkevidden av hva dette innebærer.
Redigert 21.01.2021 kl 08:50
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Flying. Fremtiden er nok sol og utstrakt lagring via batterier, MEN om REC får ta del i noe av dette, er vel mer usikkert. Torvald var jo sjarmerende ærlig når han fortalte at dette hadde han ikke noe greie på!? Blir spennende å høre på torsdag om status er uendret, eller om han har fått lest seg opp litt. Ser vel for meg at de bøkene som ligger på nattbordet der er historien om Kinas dominans som produsent.
Redigert 21.01.2021 kl 08:50
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Takk for link til video med lettvint og bra oppsummering.
Redigert 21.01.2021 kl 08:50
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Sofafilosof skrev Takk for link - veldig spenende utvikling!
...fremtiden har behov for vanvittige mengder av silisium. Batterier skal ikke bare være i biler. Byer skal dekke sine energibehov med sol og batterier.
Redigert 21.01.2021 kl 08:50
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Sofafilosof
20.07.2019 kl 18:19
8315
Takk for link - veldig spenende utvikling!
Redigert 21.01.2021 kl 08:50
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tommy00
20.07.2019 kl 15:01
8419
Om noen er i tvil om at silicon hører hjemme i batteriteknologiens (snarlige) fremtid er det bare å se på denne snutten :) https://www.youtube.com/watch?v=lATQEbd2Yh4
Løp og kjøp mens REC ennå er superbillig!
Løp og kjøp mens REC ennå er superbillig!
Redigert 21.01.2021 kl 08:50
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For den med tid og interesse. Her står utfyllende om problematikken bak silisiumanoder, og en løsning på problemet:
https://advances.sciencemag.org/content/5/7/eaaw4856
https://advances.sciencemag.org/content/5/7/eaaw4856
Redigert 21.01.2021 kl 08:50
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Startup Aims to Tackle Grid Storage Problem With New Porous Silicon Battery
A new Canadian company with roots in Vermont has emerged from stealth mode and has ambitious plans to roll out a new grid-scale battery in the year ahead.
(altså: in the year ahead!)
The longshot storage technology, targeted at utilities, offers four times the energy density and four times the lifetime of lithium-ion batteries, the company says, and will be available for half the price.
The new company’s CEO, a former Democratic nominee for governor of Vermont, founded Cross Border Power in the wake of her electoral loss last November. Within days after the election, she was at her computer and writing a thesis (since posted on her campaign website) that she boldly calls “[The] North American Solution to Climate Change.”
...
https://spectrum.ieee.org/energywise/energy/the-smarter-grid/startup-aims-to-tackle-grid-storage-problem-with-serverracksized-battery
A new Canadian company with roots in Vermont has emerged from stealth mode and has ambitious plans to roll out a new grid-scale battery in the year ahead.
(altså: in the year ahead!)
The longshot storage technology, targeted at utilities, offers four times the energy density and four times the lifetime of lithium-ion batteries, the company says, and will be available for half the price.
The new company’s CEO, a former Democratic nominee for governor of Vermont, founded Cross Border Power in the wake of her electoral loss last November. Within days after the election, she was at her computer and writing a thesis (since posted on her campaign website) that she boldly calls “[The] North American Solution to Climate Change.”
...
https://spectrum.ieee.org/energywise/energy/the-smarter-grid/startup-aims-to-tackle-grid-storage-problem-with-serverracksized-battery
Redigert 21.01.2021 kl 08:50
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Anteo will collaborate with a ‘globally recognised battery anode producer’
https://stockhead.com.au/tech/anteo-will-collaborate-with-a-globally-recognised-battery-anode-producer/
https://stockhead.com.au/tech/anteo-will-collaborate-with-a-globally-recognised-battery-anode-producer/
Redigert 21.01.2021 kl 08:50
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Redigert 21.01.2021 kl 08:50
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Redigert 21.01.2021 kl 08:50
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Redigert 21.01.2021 kl 08:50
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spanjolen
24.06.2019 kl 22:07
9479
Tenkte denne linken som forklarer litt av problemene med silisium er god. For meg kam det se ut som løsningen på ekspansjons problemene snart er løst !!
https://youtu.be/MgIDtqIyB9Q
https://youtu.be/MgIDtqIyB9Q
Redigert 21.01.2021 kl 08:50
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spanjolen
24.06.2019 kl 14:51
9560
Vel og bra det dere skriver men i bunn og grunn er det Prod. Kostnaden som betyr noe for de dresskledde. Slik det er nå er det ingen som slår kineserne eller Indre Mongolia da kraft krevende industri blir subsidiert med billig kullkraft. I disse miljø tidene burde noen fremme forslaget om grønne sertifikatet på det som blir produsert:-) da hadde plutselig Rec vært kost ledene igjen:-)
Redigert 21.01.2021 kl 08:50
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kvitekvist
24.06.2019 kl 14:32
9573
China scraps list of recommended auto battery suppliers: ministry
BEIJING/SEOUL (Reuters) - China has scrapped its list of recommended battery suppliers, the industry ministry said on Monday, a decision foreign companies said could open up the world’s biggest market for electric vehicle batteries.
China, the world’s largest new energy vehicle (NEV) market, has seen increased investment from South Korean battery makers LG Chem Ltd and Samsung SDI Co Ltd amid expectations for a gradual change in policy.
The list, which did not include foreign firms when it was first published in 2015 to spur a domestic battery sector, was abolished on Friday as part of government management reforms, the ministry said on its website. It gave no further details.
Foreign makers complained the list discouraged competition and became linked to generous subsidies for recommended domestic companies such as Contemporary Amperex Technology (CATL) and BYD Co Ltd.
“We are relieved that these lists are going away, but we cannot be certain if the Chinese government is committed to abolish subsidies until they actually remove all subsidy policies,” said an official at one foreign battery maker who declined to be named.
China has raised its standards for new energy vehicles (NEV) that qualify for subsidies and reduced the amount it is willing to provide to relevant companies, as it looks to wean the sector off government support.
Growth in NEV sales has slowed in recent months after growing rapidly in past years.
https://www.reuters.com/article/us-china-electric-batteries/china-scraps-list-of-recommended-auto-battery-suppliers-ministry-idUSKCN1TP0HY
BEIJING/SEOUL (Reuters) - China has scrapped its list of recommended battery suppliers, the industry ministry said on Monday, a decision foreign companies said could open up the world’s biggest market for electric vehicle batteries.
China, the world’s largest new energy vehicle (NEV) market, has seen increased investment from South Korean battery makers LG Chem Ltd and Samsung SDI Co Ltd amid expectations for a gradual change in policy.
The list, which did not include foreign firms when it was first published in 2015 to spur a domestic battery sector, was abolished on Friday as part of government management reforms, the ministry said on its website. It gave no further details.
Foreign makers complained the list discouraged competition and became linked to generous subsidies for recommended domestic companies such as Contemporary Amperex Technology (CATL) and BYD Co Ltd.
“We are relieved that these lists are going away, but we cannot be certain if the Chinese government is committed to abolish subsidies until they actually remove all subsidy policies,” said an official at one foreign battery maker who declined to be named.
China has raised its standards for new energy vehicles (NEV) that qualify for subsidies and reduced the amount it is willing to provide to relevant companies, as it looks to wean the sector off government support.
Growth in NEV sales has slowed in recent months after growing rapidly in past years.
https://www.reuters.com/article/us-china-electric-batteries/china-scraps-list-of-recommended-auto-battery-suppliers-ministry-idUSKCN1TP0HY
Redigert 21.01.2021 kl 08:50
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Jeg tipper vi i en periode får se flere ulike typer batterier. Fordelen med batterier er at de kan brukes om hverandre, uavhengig av den bakenforliggende teknologien. Så det blir ikke nødvendigvis noen «formatkrig», da de kan eksistere side om side. Så vil den sikreste, mest effektive og mest kostnadsbesparende teknologien vinne frem til slutt. Jeg gjetter silisiumanoder blir mest utbredt til å begynne med (batteriene lages med eksisterende tooling = mye billigere på kort sikt) mens solid state nok kan ta over som det store etterhvert.
Redigert 21.01.2021 kl 08:50
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Batteri-revolusjon
Sentralt i disse planene står et nytt «solide-state»-batteri, som ifølge Terashi vil være klart allerede til sommer-OL i Tokyo neste år. I stedet for flytende elektrolytter, består innmaten i et slikt batteri av en fast form.
Nøyaktig hva, vet vi ennå ikke. Flere andre jobber med å utvikle slike batterier, og alt fra en spesiell type glass til mineralet granat kan være mulig innmat.
BATTERI AV GLASS?: Et «solide-state» batteri har et innhold som er fast og ikke flytende som i dagens batterier. Det faste innholdet kan være f. eks. en spesiell type glass. Foto: Panasonic
BATTERI AV GLASS?: Et «solide-state» batteri har et innhold som er fast og ikke flytende som i dagens batterier. Det faste innholdet kan være f. eks. en spesiell type glass. Foto: Panasonic
Batteriet til Toyota skal ha opp mot tre ganger høyere energitetthet, og gir dermed langt større rekkevidde og lades betydelig raskere enn dagens batterier.
Et slikt batteri som erstatning for dagens litium-ion-batterier, kan gjøre elbilen populær for alle.
Vises under OL i Tokyo
- Vi vil gjøre det vi kan for å vise et «solide-state»-batteri for publikum, når OL kommer til Tokyo neste sommer. Vi ser at framskrittene, når det gjelder elektriske biler, har gått raskere enn vi tidligere planla. Vi har gått inn i en ny tidsalder og vi skal være med, sa Terashi under pressekonferansen.
Han ga ingen flere detaljer om prestasjonene til det nye batteriet. Det gjorde imidlertid Toyotas utviklingssjef Kiyotaka Ise, som vi fikk et eksklusivt intervju med under Tokyo-utstillingen for ett år siden.
Dobbel rekkevidde
- De nye batteriene vil gi minst 50 prosent mer effekt og bortimot en dobling av rekkevidden, sammenliknet med de litium-ion-batteriene som brukes i dagens elbiler. Dessuten vil ladetiden på batteriet halveres, sa Ise da.
- I tillegg kan «solid-state»-batteriet arbeide med høy temperatur. Det trenger derfor ikke utstyr for kjøling, slik som dagens batterier. Det betyr at det tar mindre plass og heller ikke blir særlig mye dyrere enn dagens batterier, fortsatte Ise, som forventet at de nye batteriene ville være ferdig utviklet og klare for bruk kort tid etter 2020.
Sentralt i disse planene står et nytt «solide-state»-batteri, som ifølge Terashi vil være klart allerede til sommer-OL i Tokyo neste år. I stedet for flytende elektrolytter, består innmaten i et slikt batteri av en fast form.
Nøyaktig hva, vet vi ennå ikke. Flere andre jobber med å utvikle slike batterier, og alt fra en spesiell type glass til mineralet granat kan være mulig innmat.
BATTERI AV GLASS?: Et «solide-state» batteri har et innhold som er fast og ikke flytende som i dagens batterier. Det faste innholdet kan være f. eks. en spesiell type glass. Foto: Panasonic
BATTERI AV GLASS?: Et «solide-state» batteri har et innhold som er fast og ikke flytende som i dagens batterier. Det faste innholdet kan være f. eks. en spesiell type glass. Foto: Panasonic
Batteriet til Toyota skal ha opp mot tre ganger høyere energitetthet, og gir dermed langt større rekkevidde og lades betydelig raskere enn dagens batterier.
Et slikt batteri som erstatning for dagens litium-ion-batterier, kan gjøre elbilen populær for alle.
Vises under OL i Tokyo
- Vi vil gjøre det vi kan for å vise et «solide-state»-batteri for publikum, når OL kommer til Tokyo neste sommer. Vi ser at framskrittene, når det gjelder elektriske biler, har gått raskere enn vi tidligere planla. Vi har gått inn i en ny tidsalder og vi skal være med, sa Terashi under pressekonferansen.
Han ga ingen flere detaljer om prestasjonene til det nye batteriet. Det gjorde imidlertid Toyotas utviklingssjef Kiyotaka Ise, som vi fikk et eksklusivt intervju med under Tokyo-utstillingen for ett år siden.
Dobbel rekkevidde
- De nye batteriene vil gi minst 50 prosent mer effekt og bortimot en dobling av rekkevidden, sammenliknet med de litium-ion-batteriene som brukes i dagens elbiler. Dessuten vil ladetiden på batteriet halveres, sa Ise da.
- I tillegg kan «solid-state»-batteriet arbeide med høy temperatur. Det trenger derfor ikke utstyr for kjøling, slik som dagens batterier. Det betyr at det tar mindre plass og heller ikke blir særlig mye dyrere enn dagens batterier, fortsatte Ise, som forventet at de nye batteriene ville være ferdig utviklet og klare for bruk kort tid etter 2020.
Redigert 21.01.2021 kl 08:50
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tommy00
21.06.2019 kl 13:18
9758
JBG skrev: Batterier bassert på rent grafen er fremtiden. Produktet er klart for markedet.
LI-SI batterier er et sidespor. ikke er det miljøvennlig heller.....
JBG: Dette er jo en bastant påstand etter alt fusset om LI-SI anoder? Er dette noe du tror, eller har det dukket opp noe bastante forskningsresultater/artikler som kan bekrefte dette?
LI-SI batterier er et sidespor. ikke er det miljøvennlig heller.....
JBG: Dette er jo en bastant påstand etter alt fusset om LI-SI anoder? Er dette noe du tror, eller har det dukket opp noe bastante forskningsresultater/artikler som kan bekrefte dette?
Redigert 21.01.2021 kl 08:50
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kvitekvist
21.06.2019 kl 09:39
9891
Elkem to establish battery graphite pilot plant in Kristiansand, Norway
Elkem invests 65 million NOK in a pilot plant for battery graphite located at
Elkem Carbon's industrial site at Fiskå, Kristiansand. The aim of the pilot is
to conclude process route and qualify products, as a basis for evaluating full
-scale industrial production.
The lithium-ion battery market is expected to grow significantly the coming
decade, driven by electrification of transportation and energy storage, and also
other applications such as power tools, e-bikes and portable electronics.
Graphite is the dominating anode material in lithium-ion battery cells and
demand is expected to increase more than ten times from today's annual level of
150,000-200,000 tonnes over the next ten years. Meeting this demand requires
significant new production capacity.
"The forecast for 2030 assumes that anything between 22% to 30% of the new sale
of vehicles will be electric, and there are strong growth projections for other
segments requiring battery technology and capacity. There are significant growth
opportunities for a specialised product with a green footprint. Through our
global position as an advanced materials company leveraging leading research on
future materials and access to hydro power for production we have a unique
position", says CEO of Elkem, Helge Aasen.
"It is a pleasure to announce that we are moving forward and investing in a
pilot for battery graphite. The aim of the pilot is to conclude process route
and qualify products. This is a natural step towards an industrial line for
battery graphite in Norway, and we will get considerable synergies by
establishing it at our plant in Kristiansand with our existing knowledge base
and close cooperation with internationally leading research environments within
material technology, says Senior Vice President Carbon, Inge Grubben-Strømnes.
The pilot has been granted funding from Innovation Norway supporting the
establishment.
Contact information:
Odd-Geir Lyngstad, VP Finance & Investor Relations Tel: +47 976 72 806 Email:
odd-geir.lyngstad@elkem.no
About Elkem ASA
Founded in 1904, Elkem is one of the world's leading suppliers of silicon-based
advanced materials with operations throughout the value chain from quartz to
specialty silicones, as well as attractive market positions in specialty
ferrosilicon alloys and carbon materials. Elkem is a publicly listed company on
the Oslo Stock Exchange, and is headquartered in Oslo. The company has 6200
employees with 27 production sites and sales offices in a total of 28 countries
worldwide. In 2018 Elkem had revenues of 25.9 billion NOK. To learn more, please
visit www.elkem.com.
https://newsweb.oslobors.no/message/479987
Elkem invests 65 million NOK in a pilot plant for battery graphite located at
Elkem Carbon's industrial site at Fiskå, Kristiansand. The aim of the pilot is
to conclude process route and qualify products, as a basis for evaluating full
-scale industrial production.
The lithium-ion battery market is expected to grow significantly the coming
decade, driven by electrification of transportation and energy storage, and also
other applications such as power tools, e-bikes and portable electronics.
Graphite is the dominating anode material in lithium-ion battery cells and
demand is expected to increase more than ten times from today's annual level of
150,000-200,000 tonnes over the next ten years. Meeting this demand requires
significant new production capacity.
"The forecast for 2030 assumes that anything between 22% to 30% of the new sale
of vehicles will be electric, and there are strong growth projections for other
segments requiring battery technology and capacity. There are significant growth
opportunities for a specialised product with a green footprint. Through our
global position as an advanced materials company leveraging leading research on
future materials and access to hydro power for production we have a unique
position", says CEO of Elkem, Helge Aasen.
"It is a pleasure to announce that we are moving forward and investing in a
pilot for battery graphite. The aim of the pilot is to conclude process route
and qualify products. This is a natural step towards an industrial line for
battery graphite in Norway, and we will get considerable synergies by
establishing it at our plant in Kristiansand with our existing knowledge base
and close cooperation with internationally leading research environments within
material technology, says Senior Vice President Carbon, Inge Grubben-Strømnes.
The pilot has been granted funding from Innovation Norway supporting the
establishment.
Contact information:
Odd-Geir Lyngstad, VP Finance & Investor Relations Tel: +47 976 72 806 Email:
odd-geir.lyngstad@elkem.no
About Elkem ASA
Founded in 1904, Elkem is one of the world's leading suppliers of silicon-based
advanced materials with operations throughout the value chain from quartz to
specialty silicones, as well as attractive market positions in specialty
ferrosilicon alloys and carbon materials. Elkem is a publicly listed company on
the Oslo Stock Exchange, and is headquartered in Oslo. The company has 6200
employees with 27 production sites and sales offices in a total of 28 countries
worldwide. In 2018 Elkem had revenues of 25.9 billion NOK. To learn more, please
visit www.elkem.com.
https://newsweb.oslobors.no/message/479987
Redigert 21.01.2021 kl 08:50
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Rent grafén. Hmm.. Hvis det er planen får vi vel vente 20-30 år til eller noe. Todimensjonale metamaterialer har vist seg svææært vanskelig å masseprodusere i store kvanta. Blir vel som å vente på en funksjonell kvantedatamaskin. Derimot, å bruke grafén som en bestanddel for å manipulere frem andre materialers beste egenskaper, er nok mer realistisk i denne omgang. Derfor ser vi for eksempel kombinasjonen grafén/silisium i anoder.
Redigert 21.01.2021 kl 08:50
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Batterier bassert på rent grafen er fremtiden. Produktet er klart for markedet.
LI-SI batterier er et sidespor. ikke er det miljøvennlig heller.
LI-SI batterier er et sidespor. ikke er det miljøvennlig heller.
Redigert 21.01.2021 kl 08:50
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tommy00
18.06.2019 kl 16:52
10161
grabein skrev Men TT har sagt at han ikke ønsker å inngå en slik eksklusivitetsavtale. La oss bare håpe de får (mi..
Tror dette skyldes at de har så store mengder silangass at det må flere batteriprodusenter til for å ta unna, og at det foreløpig ikke eksisterer en stor aktør som kan ta hele kapasiteten. Forsto det slik da TT snakket om saken.....
Tror dette skyldes at de har så store mengder silangass at det må flere batteriprodusenter til for å ta unna, og at det foreløpig ikke eksisterer en stor aktør som kan ta hele kapasiteten. Forsto det slik da TT snakket om saken.....
Redigert 21.01.2021 kl 08:50
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questi
18.06.2019 kl 16:43
10184
Hvorfor man ikke ønsker å inngå en bindende avtale er interessant.. Hvorfor skulle ikke REC ønske å binde seg til å selge et bestemt volum for en bestemt pris?
Noen bør spørre ham ut om begrunnelsen til neste gang :)
Tror han prisen på silan vil stige og det er for tidlig å inngå avtaler?
Tror han de vil overby hverandre om å sikre seg silanet?
Tror han batteriprodusenten vil kunne misligholde betalingen midtveis?
Jeg tenker at man i verste fall risikerer 1 måneds levering... og at det uansett ville lønne seg å levere til en sånn passe pålitelig produsent (feks Tesla) og få en produksjon i gang :) REC burde være mer interessert i å geare opp sine fremtidige kunder :)
Noen bør spørre ham ut om begrunnelsen til neste gang :)
Tror han prisen på silan vil stige og det er for tidlig å inngå avtaler?
Tror han de vil overby hverandre om å sikre seg silanet?
Tror han batteriprodusenten vil kunne misligholde betalingen midtveis?
Jeg tenker at man i verste fall risikerer 1 måneds levering... og at det uansett ville lønne seg å levere til en sånn passe pålitelig produsent (feks Tesla) og få en produksjon i gang :) REC burde være mer interessert i å geare opp sine fremtidige kunder :)
Redigert 21.01.2021 kl 08:50
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Men TT har sagt at han ikke ønsker å inngå en slik eksklusivitetsavtale. La oss bare håpe de får (minst) en skikkelig fisk på kroken snart, og at ikke snøret ryker.
Redigert 21.01.2021 kl 08:50
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questi
18.06.2019 kl 12:27
10322
Fra Randers sin referanse:
"There is several companies which has visit us in both Moses Lake and Butte because if they are going to do this production, they'd have to be adjacent to our production facility. There is no way you can transport silane. You have to build plants for making this anode material close to where we make silane. And as Francine said, we are the only company making silane in the U.S. And also, there is very limited competition out in the market elsewhere. So that's the – basically what is our view."
"There's a lot of R&D going on and there is a lot of companies that can – that is working on this. These companies come to REC and says that, we would like to have some exclusive access to silane. But the volume they're talking now is probably 300 metric ton next year, which could move to 3,000 metric ton three years from now. We don't give any exclusivity.
Let's say we want to stay there, see what's going to happen. And when then it is clear which company might be successful, we can start to negotiate. But what we tell them is that if you need silane, we have tremendous amount of capacity. So we are not actively out there, but we are – let's say there has been four, five, six definite companies coming to REC to ask for can we get some kind of access to your facility. And we say, okay, we would like to see that this is going to be a firm contract until we will start to negotiate with them."
Jeg ble litt overrasket at det ikke går å transportere silan (REC har jo de berømte silan-sylindrene sine)... han mente kanskje at det ikke er lønnsomt å transportere store mengder silan når det er snakk om 300 - 3000 tonn per år? :) Den største sylinderen til REC er bare på 6 tonn..
http://www.recsilicon.com/products/silicon-gases/silane-packages
Frakt av 50-500 slike per år er nok ikke mulig :)
Det som stopper REC fra å inngå et samarbeid med en batteriprodusent er jo at REC ikke vet hvilken de kan satse på :)
Det er visst snakk om eksklusivitets-avtaler.. altså at batteriprodusenten ønsker å hindre de andre fra å få tak i silanet som alle behøver...
For å vite hvilken man kan satse på må man velge den som man tror har størst sjanse for å vinne... Da kommer bransjekunnskap om batteri-teknologi inn :) eller så kan man gjør det enkelt: Jeg tror på penger som et kvalitetsstempel. Den produsenten er villig til å betale mest for ekslusivitetsavtalen (forskudd?) er nok den som er mest sikker på sin teknologi :)
Eventuelt.. dersom REC videreutvikler teknologi for trygg Silan-transport og kanskje Silan-lagering ved mottaksstedet i klasse 300-3000 tonn.. SÅ kan de jo selge til ALLE produsenter! :) Om det er noen som kjenner best til hvordan Silan skal fraktes og lagres så er det REC! :)
"There is several companies which has visit us in both Moses Lake and Butte because if they are going to do this production, they'd have to be adjacent to our production facility. There is no way you can transport silane. You have to build plants for making this anode material close to where we make silane. And as Francine said, we are the only company making silane in the U.S. And also, there is very limited competition out in the market elsewhere. So that's the – basically what is our view."
"There's a lot of R&D going on and there is a lot of companies that can – that is working on this. These companies come to REC and says that, we would like to have some exclusive access to silane. But the volume they're talking now is probably 300 metric ton next year, which could move to 3,000 metric ton three years from now. We don't give any exclusivity.
Let's say we want to stay there, see what's going to happen. And when then it is clear which company might be successful, we can start to negotiate. But what we tell them is that if you need silane, we have tremendous amount of capacity. So we are not actively out there, but we are – let's say there has been four, five, six definite companies coming to REC to ask for can we get some kind of access to your facility. And we say, okay, we would like to see that this is going to be a firm contract until we will start to negotiate with them."
Jeg ble litt overrasket at det ikke går å transportere silan (REC har jo de berømte silan-sylindrene sine)... han mente kanskje at det ikke er lønnsomt å transportere store mengder silan når det er snakk om 300 - 3000 tonn per år? :) Den største sylinderen til REC er bare på 6 tonn..
http://www.recsilicon.com/products/silicon-gases/silane-packages
Frakt av 50-500 slike per år er nok ikke mulig :)
Det som stopper REC fra å inngå et samarbeid med en batteriprodusent er jo at REC ikke vet hvilken de kan satse på :)
Det er visst snakk om eksklusivitets-avtaler.. altså at batteriprodusenten ønsker å hindre de andre fra å få tak i silanet som alle behøver...
For å vite hvilken man kan satse på må man velge den som man tror har størst sjanse for å vinne... Da kommer bransjekunnskap om batteri-teknologi inn :) eller så kan man gjør det enkelt: Jeg tror på penger som et kvalitetsstempel. Den produsenten er villig til å betale mest for ekslusivitetsavtalen (forskudd?) er nok den som er mest sikker på sin teknologi :)
Eventuelt.. dersom REC videreutvikler teknologi for trygg Silan-transport og kanskje Silan-lagering ved mottaksstedet i klasse 300-3000 tonn.. SÅ kan de jo selge til ALLE produsenter! :) Om det er noen som kjenner best til hvordan Silan skal fraktes og lagres så er det REC! :)
Redigert 21.01.2021 kl 08:50
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Redigert 21.01.2021 kl 08:50
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Støttes, det tar nok ikke 3-5 år. Batterier med Silisium anoder er jo allerede kommersialisert og i salg.
Redigert 21.01.2021 kl 08:50
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