They must participate turkish company.A very wise move. This will bring top-level expertise and will decrease the time required from discovery to the first gas.
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They must participate turkish company.A very wise move. This will bring top-level expertise and will decrease the time required from discovery to the first gas.
What's your odds on pumping gas to the grid in 2023?Fatih drillship started drilling activities at the Türkali-6 location.
Phase 1 of the Sakarya gas field project will consist of 10 wells. Proven reserves currently stay at 540 billion cubic meters.
Phase 1 covers the extraction and processing of 10 million metric standard cubic meters of gas per day(10 MMscd= ~3,65 billion cubic meters per year)
TR consumes around 45 billion cubic meters every year. The project is on track and the first gas will be given to the grid in 2023.
I'm very optimistic the project is running ahead of schedule when it comes to drilling activities. We will probably complete drilling 10 wells by Q1 or Q2 next year. We can drill 10 wells per year easily with the fleet we have provided that enough money can be spared for drilling operations. It all comes down to how fast the Subsea 7 consortium can deliver the machinery for the wells that will work on the seafloor (pumps, well lids, etc). IMHO we can produce over 7 billion cubic meters by 2025-2026 and over 15 billion by 2030.What's your odds on pumping gas to the grid in 2023?
I honestly can't wrap my head around on how can we be that fast. When the discoveries started, I read several articles that said deep sea drilling requires special expertise and the gas can't be given to the grid before 10 years or something. But these developments proves them very wrong.I'm very optimistic the project is running ahead of schedule when it comes to drilling activities. We will probably complete drilling 10 wells by Q1 or Q2 next year. We can drill 10 wells per year easily with the fleet we have provided that enough money can be spared for drilling operations. It all comes down to how fast the Subsea 7 consortium can deliver the machinery for the wells that will work on the seafloor (pumps, well lids, etc). IMHO we can produce over 7 billion cubic meters by 2025-2026 and over 15 billion by 2030.
There are incentives to use rooftops for PV panels and house refitting sector like greenhouse makers / glazers ar considering going into PV application business. Some one I know is planning to do so.While I think it’s good and well that we find ressources the unused rooftops are more important imo. Utilize every sqm rooftop to PV and you can generate an enormous amount of energy during daytime. But government wants ppl to pay for energy. The world is doomed with this attitude.
Won’t we need smartgrid to handle the energy if all rooftoops are utilized and citizens feed energy into the grid ?There are incentives to use rooftops for PV panels, and house refitting sector like greenhouse makers / glazers ar considering going into PV application business. Some one I know is planning to do so.
Rooftop pv is expensive. Better to go with utility built solar farms, imo. Size mattersWhile I think it’s good and well that we find ressources the unused rooftops are more important imo. Utilize every sqm rooftop to PV and you can generate an enormous amount of energy during daytime. But government wants ppl to pay for energy. The world is doomed with this attitude.
I think rooftops will barely provide enough PV energy for use of the house and will not have excess to feed the grid. Also Tesla Powerwall type inhouse storage can be more viable as they eliminate transfer losses. Batteries for Powerwalls can be salvaged from used car batteries.Won’t we need smartgrid to handle the energy if all rooftoops are utilized and citizens feed energy into the grid ?
if anybody Still Trust them it is that they are so Naive and they deserve the loss. I would say "wake up"Russia proving again and again that its not a trustable partner.
Smart grid is a different type of technology that manages small grids to better handle fluctuating energy production. Houses with PV and without battery (on-grid) could connect to any grid (which can handle fluctuation). You don't need smart grid but you can't do it without planning. I think the concept you are looking is smart meters which allows to sell excess solar energy. Turkey could possible handle PV at least up to 20% of total installed capacity. NG plants and Dams are very flexible in this manner while thermal is very bad (Nuclear and Coal). That is also why, there is an extreme demand on NG now, cleaner and flexible.Won’t we need smartgrid to handle the energy if all rooftoops are utilized and citizens feed energy into the grid ?
Nuclear is a very clean and good way to generate reliable electricity that can complement unreliable renewables. It is expensive if you don't have local production and money revolves inside the country. In the long term, we should completely phase our coal and natural gas plants and replace them with nuclear and renewables(hydro, wind, solar, geothermal) and personal electricity production with personal energy storage.
Solar power is the future.
I dont trust nuclear power.