HYDROGENPRO ASA(HYPRO)
(HYPRO)
Q4-osavuosiraportti
60 päivää sitten‧46 min
0,00 NOK/osake
Viimeisin osinko
Tarjoustasot
Suljettu
Määrä
Osto
110
Myynti
Määrä
1 316
Viimeisimmät kaupat
Aika | Hinta | Määrä | Ostaja | Myyjä |
---|---|---|---|---|
94 | - | - | ||
535 | - | - | ||
254 | - | - | ||
738 | - | - | ||
389 | - | - |
Vaihto (NOK)
770 437Välittäjätilasto
Dataa ei löytynyt
Yhtiötapahtumat
Seuraava tapahtuma | |
---|---|
2024 Q1-osavuosiraportti | 7. toukok. |
Menneet tapahtumat | ||
---|---|---|
2023 Yhtiökokous | 23. huhtik. | |
2024 Ylimääräinen yhtiökokous | 22. huhtik. | |
2023 Q4-osavuosiraportti | 27. helmik. | |
2023 Q3-osavuosiraportti | 7. marrask. 2023 | |
2023 Q2-osavuosiraportti | 15. elok. 2023 |
Datan lähde: Millistream, Quartr
Uutiset ja analyysit
Tämän sivun uutiset ja/tai sijoitussuositukset tai otteet niistä sekä niihin liittyvät linkit ovat mainitun tahon tuottamia ja toimittamia. Nordnet ei ole osallistunut materiaalin laatimiseen, eikä ole tarkistanut sen sisältöä tai tehnyt sisältöön muutoksia. Lue lisää sijoitussuosituksista.
Q4-osavuosiraportti
60 päivää sitten‧46 min
Uutiset ja analyysit
Tämän sivun uutiset ja/tai sijoitussuositukset tai otteet niistä sekä niihin liittyvät linkit ovat mainitun tahon tuottamia ja toimittamia. Nordnet ei ole osallistunut materiaalin laatimiseen, eikä ole tarkistanut sen sisältöä tai tehnyt sisältöön muutoksia. Lue lisää sijoitussuosituksista.
Yhtiötapahtumat
Seuraava tapahtuma | |
---|---|
2024 Q1-osavuosiraportti | 7. toukok. |
Menneet tapahtumat | ||
---|---|---|
2023 Yhtiökokous | 23. huhtik. | |
2024 Ylimääräinen yhtiökokous | 22. huhtik. | |
2023 Q4-osavuosiraportti | 27. helmik. | |
2023 Q3-osavuosiraportti | 7. marrask. 2023 | |
2023 Q2-osavuosiraportti | 15. elok. 2023 |
Datan lähde: Millistream, Quartr
Shareville
Liity keskusteluun SharevillessäShareville on aktiivisten yksityissijoittajien yhteisö, jossa voit seurata muiden asiakkaiden kaupankäyntiä ja omistuksia.
Kirjaudu
- 22 t sitten22 t sitten“Takasago Hydrogen Park is divided into three areas according to functions for hydrogen production, storage, and utilization (power generation). In the hydrogen production area, an alkaline electrolyzer manufactured by Norway's HydrogenPro AS, which has one of the world's highest hydrogen production capacities at 1,100Nm³/h, was put into operation in September 2023. The hydrogen storage area is equipped with a storage facility with total capacity of 39,000 Nm³, part of a project subsidized by Japan's New Energy and Industrial Technology Development Organization (NEDO). In November 2023, using hydrogen produced and stored in the park, MHI also successfully conducted a demonstration operation of 30% hydrogen fuel co-firing using a state-of-the-art J-series Air-Cooled (JAC) gas turbine at the gas turbine combined cycle (GTCC) demonstration power plant (commonly known as T-Point 2, rated output of 566 megawatts) located in the hydrogen utilization area. In 2024, MHI plans to conduct a 100% hydrogen-firing demonstration using a small- to mid-sized H-25 gas turbine (40 MW class) that had been previously installed for compressor driving at the combustion test facility in the park. Going forward, in the hydrogen production area of Takasago Hydrogen Park, MHI plans to proceed with demonstrations aimed at the commercialization of hydrogen production equipment with different characteristics, such as anion exchange membrane (AEM) water electrolysis and methane pyrolysis. In addition, in the hydrogen storage area, MHI will further expand its facilities with construction to increase the total capacity of the hydrogen storage facility to 120,000 Nm³, which is about three times the current capacity, in preparation for the demonstration operation of a JAC-type gas turbine using a 50% hydrogen fuel co-firing using the JAC gas turbine at T-Point 2.” https://power.mhi.com/news/240425.html
- 2 päivää sitten2 päivää sittenBlir spennende å se om det nye styret viser litt stryke og tro med noen inside kjøp 😅 Ledelsen solgte oss aksjonærer ut i forbindelse med AndritZ emisjonen, for å sørge for at GF gikk dem sin vei. Nå burde de faen meg levere noe tilbake til aksjonærene innen rimelighetens tid. Helt forbanna sjukt å sette emi kurs på 12.5 når kursen var oppe å nikka på 16 tallet kort tid i forveien. Hva de skulle med pengene forstår jeg heller ikke. Var ikke kapital behov sa Martin, på Q4 presentasjonen, få uker i forveien. Selvsagt flott å få AndritZ med på laget, men ikke på bekostning av små aksjonærer sine sparepenger!1 päivä sitten1 päivä sittenBegynner å bli passe lei dette tulle selskapet. De må jo for f greie å presentere noe troverdige utsikter. Det verste er at de tror de gjør det, men ingen bryr seg. Altså helt på Joker Nord nivå.
- 3 päivää sitten3 päivää sittenUncertainy regarding DG Fuels choice of hydrogen feed at Louisiana site. https://www.wsj.com/articles/big-hitters-team-up-to-produce-sustainable-aviation-fuel-out-of-sugar-cane-a57abcd8 https://www.biofuelsdigest.com/bdigest/2024/04/10/the-digests-2024-multi-slide-guide-to-dg-fuels-st-james-saf-project/3/3 päivää sitten3 päivää sittenNo uncertainties, DGF use both processes to increase production, and still use HydrogenPro electrolysis in their setup. This is confirmed by DGF. 23 April 2024 See how it works: https://dgfuels.com/technology/
- 3 päivää sitten3 päivää sittenDGF’s innovative fuel production system better utilizes biomass feedstock over conventional biomass to liquids projects because of DGF’s use of waste CO2 to make additional fuel. Depending on feedstock carbon content, DGF produces up to 3.6 barrels of biogenic blending component per ton of biomass feedstock compared to most other competitors who achieve about 1.1>1.3 barrel per ton of feedstock. The basis of DGF’s integrated fuel and energy technology is the proven Fischer-Tropsch process, in use for over 60 years. Existing plants around the world produce over 170,000 BBL per day of synthetic fuel using Fischer-Tropsch. These facilities typically use approximately one ton of coal to produce one BBL of hydrocarbons, with a life cycle CO2- emissions calculation that is slightly worse than equivalent fuels derived from conventional oil refining. DGF’s method modifies the established Fischer-Tropsch system with several mechanisms that will decrease the CO2- life-cycle emissions and reduce the quantity of feed-stock required. These changes eliminate the need for carbon sequestration and reduce the system’s feed-stock handling costs and complexity. Additionally, DGF’s production method produces ASTM certified direct replacement fuel with greater fuel density, lower particulate and NOx emissions. ➡️The feed-stock reduction is achieved primarily by supplementing the process with oxygen and hydrogen produced by water electrolysis units that are powered by clean wind generated electricity. DGF replaces the coal gasification used by others with biomass gasification and natural gas reforming. This simplifies implementation and further reduces new carbon emissions created in the process.⬅️ https://dgfuels.com/technology/
- 12. huhtik.12. huhtik.Tydeligvis ikke friskmeldt enda. Kanskje etter GF 22. Kanskje :)15. huhtik.15. huhtik.
Yllä olevat kommentit ovat peräisin Nordnetin sosiaalisen verkoston Sharevillen käyttäjiltä, eikä niitä ole muokattu eikä Nordnet ole tarkastanut niitä etukäteen. Ne eivät tarkoita, että Nordnet tarjoaisi sijoitusneuvoja tai sijoitussuosituksia. Nordnet ei ota vastuuta kommenteista.
Q4-osavuosiraportti
60 päivää sitten‧46 min
0,00 NOK/osake
Viimeisin osinko
Uutiset ja analyysit
Tämän sivun uutiset ja/tai sijoitussuositukset tai otteet niistä sekä niihin liittyvät linkit ovat mainitun tahon tuottamia ja toimittamia. Nordnet ei ole osallistunut materiaalin laatimiseen, eikä ole tarkistanut sen sisältöä tai tehnyt sisältöön muutoksia. Lue lisää sijoitussuosituksista.
0,00 NOK/osake
Viimeisin osinko
Shareville
Liity keskusteluun SharevillessäShareville on aktiivisten yksityissijoittajien yhteisö, jossa voit seurata muiden asiakkaiden kaupankäyntiä ja omistuksia.
Kirjaudu
- 22 t sitten22 t sitten“Takasago Hydrogen Park is divided into three areas according to functions for hydrogen production, storage, and utilization (power generation). In the hydrogen production area, an alkaline electrolyzer manufactured by Norway's HydrogenPro AS, which has one of the world's highest hydrogen production capacities at 1,100Nm³/h, was put into operation in September 2023. The hydrogen storage area is equipped with a storage facility with total capacity of 39,000 Nm³, part of a project subsidized by Japan's New Energy and Industrial Technology Development Organization (NEDO). In November 2023, using hydrogen produced and stored in the park, MHI also successfully conducted a demonstration operation of 30% hydrogen fuel co-firing using a state-of-the-art J-series Air-Cooled (JAC) gas turbine at the gas turbine combined cycle (GTCC) demonstration power plant (commonly known as T-Point 2, rated output of 566 megawatts) located in the hydrogen utilization area. In 2024, MHI plans to conduct a 100% hydrogen-firing demonstration using a small- to mid-sized H-25 gas turbine (40 MW class) that had been previously installed for compressor driving at the combustion test facility in the park. Going forward, in the hydrogen production area of Takasago Hydrogen Park, MHI plans to proceed with demonstrations aimed at the commercialization of hydrogen production equipment with different characteristics, such as anion exchange membrane (AEM) water electrolysis and methane pyrolysis. In addition, in the hydrogen storage area, MHI will further expand its facilities with construction to increase the total capacity of the hydrogen storage facility to 120,000 Nm³, which is about three times the current capacity, in preparation for the demonstration operation of a JAC-type gas turbine using a 50% hydrogen fuel co-firing using the JAC gas turbine at T-Point 2.” https://power.mhi.com/news/240425.html
- 2 päivää sitten2 päivää sittenBlir spennende å se om det nye styret viser litt stryke og tro med noen inside kjøp 😅 Ledelsen solgte oss aksjonærer ut i forbindelse med AndritZ emisjonen, for å sørge for at GF gikk dem sin vei. Nå burde de faen meg levere noe tilbake til aksjonærene innen rimelighetens tid. Helt forbanna sjukt å sette emi kurs på 12.5 når kursen var oppe å nikka på 16 tallet kort tid i forveien. Hva de skulle med pengene forstår jeg heller ikke. Var ikke kapital behov sa Martin, på Q4 presentasjonen, få uker i forveien. Selvsagt flott å få AndritZ med på laget, men ikke på bekostning av små aksjonærer sine sparepenger!1 päivä sitten1 päivä sittenBegynner å bli passe lei dette tulle selskapet. De må jo for f greie å presentere noe troverdige utsikter. Det verste er at de tror de gjør det, men ingen bryr seg. Altså helt på Joker Nord nivå.
- 3 päivää sitten3 päivää sittenUncertainy regarding DG Fuels choice of hydrogen feed at Louisiana site. https://www.wsj.com/articles/big-hitters-team-up-to-produce-sustainable-aviation-fuel-out-of-sugar-cane-a57abcd8 https://www.biofuelsdigest.com/bdigest/2024/04/10/the-digests-2024-multi-slide-guide-to-dg-fuels-st-james-saf-project/3/3 päivää sitten3 päivää sittenNo uncertainties, DGF use both processes to increase production, and still use HydrogenPro electrolysis in their setup. This is confirmed by DGF. 23 April 2024 See how it works: https://dgfuels.com/technology/
- 3 päivää sitten3 päivää sittenDGF’s innovative fuel production system better utilizes biomass feedstock over conventional biomass to liquids projects because of DGF’s use of waste CO2 to make additional fuel. Depending on feedstock carbon content, DGF produces up to 3.6 barrels of biogenic blending component per ton of biomass feedstock compared to most other competitors who achieve about 1.1>1.3 barrel per ton of feedstock. The basis of DGF’s integrated fuel and energy technology is the proven Fischer-Tropsch process, in use for over 60 years. Existing plants around the world produce over 170,000 BBL per day of synthetic fuel using Fischer-Tropsch. These facilities typically use approximately one ton of coal to produce one BBL of hydrocarbons, with a life cycle CO2- emissions calculation that is slightly worse than equivalent fuels derived from conventional oil refining. DGF’s method modifies the established Fischer-Tropsch system with several mechanisms that will decrease the CO2- life-cycle emissions and reduce the quantity of feed-stock required. These changes eliminate the need for carbon sequestration and reduce the system’s feed-stock handling costs and complexity. Additionally, DGF’s production method produces ASTM certified direct replacement fuel with greater fuel density, lower particulate and NOx emissions. ➡️The feed-stock reduction is achieved primarily by supplementing the process with oxygen and hydrogen produced by water electrolysis units that are powered by clean wind generated electricity. DGF replaces the coal gasification used by others with biomass gasification and natural gas reforming. This simplifies implementation and further reduces new carbon emissions created in the process.⬅️ https://dgfuels.com/technology/
- 12. huhtik.12. huhtik.Tydeligvis ikke friskmeldt enda. Kanskje etter GF 22. Kanskje :)15. huhtik.15. huhtik.
Yllä olevat kommentit ovat peräisin Nordnetin sosiaalisen verkoston Sharevillen käyttäjiltä, eikä niitä ole muokattu eikä Nordnet ole tarkastanut niitä etukäteen. Ne eivät tarkoita, että Nordnet tarjoaisi sijoitusneuvoja tai sijoitussuosituksia. Nordnet ei ota vastuuta kommenteista.
Tarjoustasot
Suljettu
Määrä
Osto
110
Myynti
Määrä
1 316
Viimeisimmät kaupat
Aika | Hinta | Määrä | Ostaja | Myyjä |
---|---|---|---|---|
94 | - | - | ||
535 | - | - | ||
254 | - | - | ||
738 | - | - | ||
389 | - | - |
Vaihto (NOK)
770 437Välittäjätilasto
Dataa ei löytynyt
Yhtiötapahtumat
Seuraava tapahtuma | |
---|---|
2024 Q1-osavuosiraportti | 7. toukok. |
Menneet tapahtumat | ||
---|---|---|
2023 Yhtiökokous | 23. huhtik. | |
2024 Ylimääräinen yhtiökokous | 22. huhtik. | |
2023 Q4-osavuosiraportti | 27. helmik. | |
2023 Q3-osavuosiraportti | 7. marrask. 2023 | |
2023 Q2-osavuosiraportti | 15. elok. 2023 |
Datan lähde: Millistream, Quartr