Almost all of the articles out there only cover heating round and square cross section pieces. Thank you very much for sharing this information about heating flat strips!
Thank you sir, however I did not understand the iteration to calculate V1, what is it for and what do you change how elements have different values. Thanks in advance
Sir thanks, how i can know the depth of penetration in a cylinder solid, i mean i want to make a tempering, the diameter is 100 mm, the length is 380 mm, but i only want to heating 20 mm of diameter, how i can to calculate the time to be exposure the piece? I have the nominal capacity of induction furnace, Thanks
I’m sorry but this is one of the most boring videos I’ve ever tried to watch and I’m bailing at the 11 minute mark. No offense I appreciate what you tried to do but it’s just too dry and difficult to listen to.
More on Project LEO: To find out more about the Flexibility Market trials the TRANSITION project and LEO are running together visit here ssen-transition.com/get-involved/flexibility-market-trials/ Project LEO has a fantastic website with new content being added all the time project-leo.co.uk/about/ If you want to hear news about Project LEO (maximum of one email to you per month) you can also sign up to get this project-leo.co.uk/get-involved/ If you are want to know more about the International Community of Local Smart Grids visit www.communitysmartgrids.org
Sunlight is our cheapest source of heat. To store it for long winters and short summer's is the key. But this type of heat storage has to be deep in insulation, the best would be the earth itself. The material would have to be one that becomes another type of material, stored deep within the earth. Even if the loss doesn't amount to much, the chemical reaction to release the heat would be a hazard and in the earth is, not only going to keep heat but it would be safer when the release is initiated. The release would be an action that would be all the heat is released at once, promoting a large area that would act like a balloon type affair where it is well insulated and in the ground, so you would have two stages in the use of the heat, one storing it efficiently, and with a reaction introduced giving most or all of the heat to a holder , which then can be controlled in the way and amount of heat that you need for the building it is to heat. I am considering a liquid such as in the type used as brake fluid. Inside with the brake fluid is a basically an attraction for heat and the fluid is the carrier. The reaction catalyst could be tiny amounts of a member of the chlorine family. Now this combination is already explosive, but it isn't creating the heat but causing the separation of the heat from the fluid. We are used to thinking of heat as a living thing in itself but it is not really, it is something that can integrate into just about anything. You can be hot or stuff like ice can be melted, what correlation does ice and yourself have? Thus heat is something movable by transfer to another device or place. To look at the whole situation we are not taking heat seriously and don't collect all the heat that is being given off to the air or whatever it is in contact with, such as sewer water, the sewer water is coming from heated buildings all day also the water used for washing and cleaning is electrically or fossil fuel heated, and then that heat is just dumped into the sewer. At great loss of free heat. I could go on but I am tired.
Ihave abank of 6 maxwell 3000F cells connected with aluminum bars, should i change them to copper and can i connect the aluminum terminjals on the cell to connect the copper wire . and can i connect the copper wire and lug crimmped to the aminum plate that is coming off the cell?
you can connect aluminum and copper...just needs to be cleaned much more often....I use all copper on my small 2kw solar set up I would not use aluminum wire for anything
Clarification on the slide "Distributed PV increasingly cheaper than retail electricity prices" (about 22 minutes into the video): * Buy-all, sell-all: All PV generation is sold to the utility, usually at a fixed price. * Net metering: A PV owner can consume their own electricity but also receive an energy credit for any generation exported to the network during a specific time period. Excess generation is credited to the consumer at a later date. * Real-time self-consumption models: PV owners can generate electricity for self-consumption and sell excess to the network, with the accounting performed in real-time (at hourly or less than hourly intervals). The price paid for excess generation falls in between the wholesale and retail price.
At first I had a problem listening to this due to the microphone - but I must say that it is a very well made and informative video. Thank you for explaining things like this!
Thanks a lot for your introduce about the IH. I want to ask you about the figure at the time 21:14 (the penetration depth dependent on freauency). Could you please tell me where you get this data in a book! or in some publication? thanks a lot!
Thanks for the video showing different technologies for achieving IE4, IE5 eff. 1 more technology is evolving using superconductors for achieving high o/p to weight ratio. Specifically for electric aviation. Can you make or share detail video on this technology?
It's so encouraging the progress and the determination at the European Union towards climate change, you've ably covered it well with a clear historical background. Have you done any lecture on European GMOs policy?
Blockchain is the next big thing across sectors. We are hosting a webinar on "Blockchain & Cryptocurrency for Peer-to-Peer Energy Trading" with Power Ledger and Greenomics World. Visit webinar.greenomicsworld.com for details. Register for free at webinar.greenomicsworld.com/register/ Keep your questions ready. They'll be answered by the speaker (James Eggleston from Power Ledger) at the end of the session. Looking forward to your participation.
Hello, I am working on a project about implementing a peer to peer energy system for subsaharian Africa and would love to speak to you or meet you at some point this year. I was wondering if you could do a favour to me and send me some littérature to read :) I’m doing an MSc at Warwick university so I can access all journal articles. Thank you so much for such a clear presentation by the way, I’m so lucky to have found it
Good presentation on the energy side of things, however, presenter seems to confuse the listener on the Blockchain side of things and how it could help decentralization. Remember the whole point of the first ever Blockchain i.e. Bitcoin was to allow decentralization of content without a central authority. The main invention was Proof-of-Work. Proof-of Stake or Proof- of Authority have not yet proven that they can work effectively. (only time will tell). Also some inaccuracies on the scaling issues and how new layered apps through lightning networks could solve this without compromising the basics of the Blockchain.
Great video so far sir! I have 3 solar pannel and just had to have the energy company come upgrade the neighborhood transformer haha .. my question is how do I register these pannels' work with solar coin... How can I become back credited like I read somewhere... Thanks.... Specific forum I need?