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    TUHOKlimaticka zmena / Thank you so much for ruining my day


    "Given the sheer enormity of climate change, it’s okay to be depressed, to grieve. But please, don’t stay there too long. Join me in pure, unadulterated, righteous anger."


    "I don’t want your hope. I don’t want you to be hopeful. I want you to panic. I want you to feel the fear I feel every day. And then I want you to act. Once you start to act, the hope is everywhere."

    "Our best scientists tell us insistently that a calamity is unfolding, that the life-support systems of the Earth are being damaged in ways that threaten our survival. Yet in the face of these facts we carry on as usual."

    “We’ve got to stop burning fossil fuels. So many aspects of life depend on fossil fuels, except for music and love and education and happiness. These things, which hardly use fossil fuels, are what we must focus on.”

    A nejde o to, že na to nemáme dostatečné technologie, ty by na řešení použít šly, ale chybí nám vůle a představivost je využít. Zůstáváme při zemi, přemýšlíme až moc rezervovaně. Technologický pokrok to sám o sobě nevyřeší. Problém jsme my, ne technologické nástroje.

    Rostouci hladiny oceanu, zmena atmosferickeho proudeni, zmeny v distribuci srazek a sucha. Zmeny karbonoveho, fosforoveho a dusikoveho cyklu, okyselovani oceanu. Jake jsou bezpecnostni rizika a jake potencialni klady dramatickych zmen fungovani zemskeho systemu?
    Ale take jak funguji masove dezinformacni kampane ropneho prumyslu a boj o verejne mineni na prahu noveho klimatickeho rezimu post-holocenu.
    rozbalit záhlaví
    TADEAS
    TADEAS --- ---
    Europe's Leaked Hydrogen Strategy Is Very Ambitious | OilPrice.com
    https://oilprice.com/...y/Energy-General/Europes-Leaked-Hydrogen-Strategy-Is-Very-Ambitious.amp.html

    in a recent Tracking Energy Integration 2020 report, the IEA calls hydrogen one of several integration technologies that are ‘increasingly crucial’ for a low-carbon energy transition. The report notes that important political momentum had been building through last year, listing ten international initiatives and national plans that appeared during 2019. These include top level G20 discussions and target-setting plans by Korea, Japan, Netherlands, Australia and Canada.

    Clearly the hydrogen movement is at a critical moment when continuing innovation is required. The role of government will remain important as fledgling industries seek to gain scale and find markets. Governments will need to provide direct, targeted support for projects that can achieve technical and market advances. And they will need to help stimulate demand in sectors where good near-term opportunities appear.

    ...

    The shifting emphasis can be seen especially in Northern Europe, where large concentrations of projects are now found. Renewable energy will power electrolysers to produce hydrogen for industries in northern industrial centers. Other projects focus on power and heat for urban districts. Key applications include large-scale electrolysis, carbon capture, utilization and storage (CCUS), and utilization of natural gas networks.

    ...

    In Germany, a power-to-gas project in Emsland in the Ruhr region has been called ‘Hybridge’ for its capacity to couple electric and gas networks. In a partnership of transmission system operator Amprion and gas net operator Open Grid Europe (OGE), electricity from renewable energy will be converted, by means of electrolysis, into hydrogen and methane. The companies will deploy a 100 MW electrolyser, with the resulting hydrogen transported by an OGE hydrogen pipeline and the existing gas pipeline network throughout the Ruhr and beyond. The project is anticipated to start operation in 2023.

    In France, in the Les Hauts de France region around Dunkirk, one of the world’s most ambitious power-to-gas projects will build five 100 MW hydrogen electrolyser production units over five years. The project, a partnership of France’s H2V Industry and Norway’s HydrogenPro, will introduce hydrogen into the natural gas distribution network in order to decarbonize the natural gas used for heating and cooking as well as for transport.

    These ambitious European projects have large-scale electrolysis counterparts in North America. Most notable is a project of the British Columbia-based Renewable Hydrogen Canada (RH2C), which is backed by a private sector utility and investors. The company is planning to build a large electrolysis plant in BC, to produce renewable hydrogen through water electrolysis powered by local hydropower and winds off the Rockies.

    ...

    An enormous pilot project to convert the gas networks to hydrogen in the north of England is being planned now. First announced in 2016, the H21 North of England (H21 NoE) project, is a collaboration of two British gas distributors, Northern Gas Networks and Cadent, and Norway’s Equinor (formerly Statoil). They have produced a hydrogen blueprint that will utilize the existing natural gas distribution infrastructure serving a region of 5 million inhabitants including several large cities for domestic and industrial users, with applications including heat, power and transport.

    The project’s planners view it as a way to achieve the ‘deep decarbonization’ that could not be reached with renewable electric power alone. To do so will require carbon capture and storage (CCS). Equinor’s role is to build a hydrogen production facility utilizing a standard reforming process with natural gas. The captured CO2 will be transported offshore to undersea storage. A specially built hydrogen transmission pipeline will link to the local gas distribution networks. The new transmission pipeline is required because injecting hydrogen into gas transmission pipelines is more difficult (although Italy’s Snam has already demonstrated the feasibility of blending hydrogen up to 10% in gas transmission grids).

    Project implementation is to occur between 2028 and 2034. It is anticipated to achieve deep decarbonization of 14% of the UK's heat demand by 2034. Its large scale and significant impact on carbon emissions will make H21 NoE the world’s first at-scale hydrogen economy. Should it succeed, it will lay a basis for expanding such a system across the entire UK, decarbonizing a large percentage of domestic heat, transport and power by 2050

    TADEAS, TADEAS, TADEAS, TADEAS, TADEAS, TADEAS
    TADEAS
    TADEAS --- ---
    TADEAS:

    WEBINAR - Fuel cells and hydrogen: the missing link to decarbonise Europe’s building stock?
    https://www.youtube.com/watch?v=JJrXtu3JzG4


    WEBINAR: Fuel cells and hydrogen - the missing link to decarbonise Europe’s building stock? (Tuesday 26 May | 11:00 to 12:00 CET) - PACE
    http://www.pace-energy.eu/...-to-decarbonise-europes-building-stock-tuesday-26-may-1100-to-1200-cet/
    TADEAS
    TADEAS --- ---
    JIMIQ: jj, energeticky nesobestacnyho baraku do kteryho neustale importujes energie/materialy. je to na zacatku.
    JIMIQ
    JIMIQ --- ---
    TADEAS: to by se mi líbilo, 60-90 tisíc eur teda... to je skoro polovina ceny baráku :D
    YMLADRIS
    YMLADRIS --- ---
    Who Is Responsible For Climate Change? – Who Needs To Fix It?
    https://www.youtube.com/watch?v=ipVxxxqwBQw


    Gates konecne zasponsoroval climate change serii od kurzgesagtu, zde prvni dil, polopaticka videa pro kazdeho (dodelejte nekdo ceske titulky)
    TADEAS
    TADEAS --- ---
    Green Heating and Cooling | Hydrogen
    https://hydrogeneurope.eu/green-heating-and-cooling

    Heating and cooling consume half of the EU's energy. Although this sector aims at being a clean and low carbon energy, 75% of the fuel it uses still comes from fossil fuels (nearly half from gas). The sector is based on a vast, European interconnected gas infrastructure which delivers the needed energy to heat homes in the EU.

    If Europe wants to decarbonise heating and cooling it faces several options:
    Through the electrification of heating with heat pump or electric heaters or via the introduction of renewable gas such as hydrogen or biogas.

    The electrification options are feasible for a number of building (new builds only and that are well insulated and where low temperature heating through the floor is possible) but the majority of the building stock today is not compatible. Moreover, the demand of heat is concentrated in winter time when renewables are less available. Additionally, a complete electrification of heat would imply that the gas grid is no longer used and becomes a stranded asset.

    ...

    There are three ways to decarbonise the gas grid: Green and Decarbonised Hydrogen:

    * Green hydrogen through water electrolysis using renewable electricity.
    * Decarbonised hydrogen through natural gas reformation with carbon capture and storage.
    * By-product hydrogen taken from an unavoidable source of hydrogen which would have been otherwise flared or ineffectively burnt for electricity generation.

    The gas infrastructure decarbonisation through the introduction of high share of such hydrogen, firstly through a blending with natural gas and in the future possibly to a complete conversion to 100% hydrogen system is a reality that needs to be acknowledged and pushed for.

    Additionally, this enables a greater integration of renewable energy sources and a direct reduction of greenhouse gas emissions. Furthermore, due to the increased share of intermittent renewable energy sources (wind and solar) in the European energy system, the utilisation of the vast gas infrastructure as an energy storage asset is an opportunity (the green gas being used in homes but also in gas-fired power plants (link to sectoral integration).

    Hydrogen represents the optimal overall solution for long-term, carbon-free seasonal storage.
    TADEAS
    TADEAS --- ---
    ad homescale vodik, co lze v nemecku poridit (v cechach nemaj partnera, nechcete nekdo rozjet .)

    TADEAS

    TADEAS
    TADEAS --- ---
    TADEAS, TADEAS:

    Hy2green - Das Energiespeicher-System für natürliche Energiequellen : Hy2green
    https://www.hy2green.com/

    Hydrogen is generated from electrical energy by means of electrolysis and fed into storage tanks filled with metal powder. Here, the hydrogen enter into the metal structure and remains as a safe and stable compound – which is known as metal hydride. This compound can be released again by simply adjusting the pressure and temperature. The released hydrogen is fed into a fuel cell and converted back into electricity and heat. The only residues are oxygen and water – natural elements and no environmental pollution!

    The integrated heat management system captures the conversion energy that is lost as heat and makes it available to the application’s heat cycle. This significantly increases the energy efficiency of the entire system.

    The result: An efficient zero emission electrical and thermal power system.

    ...

    The Hy2Green system covers energy storage ranges from 80 kWh to 66MWh and can be tailored to the application need. Its modular system approach offers a perfect integration of short term (day-night) storage types (e.g. electric batteries, hot water accumulators) enabling highest system flexibility.
    SHINIGAMI
    SHINIGAMI --- ---
    YMLADRIS: antrax ti neudela apidemii
    YMLADRIS
    YMLADRIS --- ---
    SHINIGAMI: loni nejake ditko na sibiri umrelo na rozmrzly antrax. na to ockovanej nejses
    SHINIGAMI
    SHINIGAMI --- ---
    PASTAFARIANKA: obavam se, ze s tim problem nebude. Ale co nas muze potesit jsou momentalne zamrzly lokality, kde by melo jit najit veci jako stary dobry nestovice ap. No, my jsme na to jeste ockovany;).
    KEB
    KEB --- ---
    V USA by to šlo kdyby se chtělo

    Studie: USA mohou vyrábět 90 % své elektřiny bezemisně již v roce 2035 - TZB-info
    https://m.tzb-info.cz/...a/20795-studie-usa-mohou-vyrabet-90-sve-elektriny-bezemisne-jiz-v-roce-2035
    PALEONTOLOG
    PALEONTOLOG --- ---
    IOM_NUKSO: chladna deviace je nad evropou, jinak globalne rekordni narust teplot o 0.2 C v dubnu
    PAD
    PAD --- ---
    pro inspiraci:

    Postavili si soběstačný dům. Vše řeší slunce, kamna a kořenová čistírna - iDNES.cz
    https://www.idnes.cz/...ologie-dum-pro-rodinu.A200614_130955_dum_osobnosti_web?zdroj=vybava_recombee
    LINKOS
    LINKOS --- ---
    LINKOS: v Rusku za to asi taky můžou ekologové, muhehe
    LINKOS
    LINKOS --- ---
    BROZKEFF
    BROZKEFF --- ---
    PASTAFARIANKA: někde na té sibiři mají toho Akademika Lomonosova nebo jak se jmenuje ta loď co je jaderkou pro okolní město. "Elegantní" řešení :)
    PASTAFARIANKA
    PASTAFARIANKA --- ---
    BROZKEFF: lol
    Budou teda dělat asi mamutí zavařeniny...
    Vybouchne vlivem tání permafrostu krom tý ropy taky nějaká jaderná elektrárna? Nebo se pohyb podloží u jaderných elektráren zohledňuje?
    LINKOS
    LINKOS --- ---
    BROZKEFF: tak tomu docela rozumím, nechtěl jsem vědět, že to bude 25. července 2047. Spíše mě zajímal horizont, že se s tím počítá třeba v rámci další 30 let, že to bude mít už zásadní vliv, mluvilo se o tom, že by to mohla být naše deadline
    BROZKEFF
    BROZKEFF --- ---
    LINKOS: to se už děje, a ne, není to binární proces "je permafrost" x "není permafrost". Všechno asi nejbližší stovky/tisíce let neroztaje, ale to ani není potřeba, jen z z těch pár metrů co roztajou to může uvolnit metanu víc než dost. Kromě té Shakhove co to systematicky studuje posledních 10-15 let minimálně co se týče viditelných publikací ale k permafrostu a potenciálu kolik to může metanu uvolnit a jak masivní to je feedback loop se moc neví, protože systematických dat je málo. Proto to ani IPCC report prakticky nezohledňuje, protože nemá "dost tvrdá" data. (Nejsou data? Jev neexistuje.) Ale pokud ty locking patterny jetstreamu budou jako teď kdy nám tu měsíc v kuse prší a je relativně zima, zatímco na Sibiři mají měsíc v kuse třicítky vedra, tak se to tomu permafrostu líbit nebude. Nowaco bude mít ztrátu z toho že mu zhnijou mražení mamuti, co si tam archivuje.
    Kliknutím sem můžete změnit nastavení reklam