And then we are talking about the mindset of their research and also education. Basically, the way for also, obviously, that how much complication the people not have facing the people. So we are talking about it. So in case that about the impacts, probably this one of the of our product actually is probably we have about probably 17 prime ministers instead of 64 prime ministers in total in Japan’s entity. And so yeah, probably about one fourth of primary certain strengths coming from our

university and then. The biggest thing is that 20 Nobel Prize affiliated university. It is not easy things to produce number of low rate number years. You can imagine like both Singapore China they have they are ranked higher than us but are fortunately until now we never have one Nobel Prize winner from Singapore. Yeah. So we have some other others. Peoples that are quite influential. OK this is the Tokyo University of Kay and also I just would like to underline regulars that it is the revenues

expenses. What I would like to talk over here is that the total review settings in European formative of 30 billion in Lupriya per year and you can imagine that the student tuition fees is only 6% So basically 1/3 is coming from the front governance and also another press is basically from as of grants and another 1/3 is basically from our reviews including also the hospitals. So although you can imagine like this little tuition fees because it is only a 6%. So we don’t we cannot expect and kind of revenues from the students and. You know like Japan’s is one of the default countries. But the tuition fees is very cheap for total corporate students. You can imagine like in the case that you you go to Singapore to Australia you need to pay like 11 ash I think about to have two 100 million per semester but in Japan you just pay about 30 million versus that I think it’s quite similar to any kind of

international programming nation universities right so okay then we move forward for okay this one I don’t I don’t need to explain further about this one if it’s our laptop lab directory in Japan because we basically when professors want labor free and basically the laboratory is indeed by the universe the professor's names so that's why we are hired for doing our own research so. That’s probably quite different. Yeah not adopting any company search group but we are adopting basically independent laboratory for the practice or itself. The big problems of partners that family we need also because we receive any kind of high independence means that what we need to do is that we need to start by ourselves we need to manage by ourselves we need to actually to to be African by ourselves but we can decide by ourselves. We can decide we can do that for things by ourselves.

Okay now family about 15 fourteen students joining my lap students including especially for seven Psd’s for Psd’s vessel. The rest are muscle students and also the big things operators I think is the visiting part internship program. So we are much more will come in for any kind of history being students like I just would like to mention is that like China now they are preparing for having and kind of but they are supporting for their students to ask their students who are having a kind of a short visit like one year 6 months to 1 year something like that took visit popular facility in the world. So that’s the strategy that is owned by China basically. Now they prefer for having PXD in their odd countries but they left them for having opportunity to go out for six months minimally 6 months one year with pop universities so they can access public universities because the big problem is that to enter. Big unit pocket university is the regular student and sometimes quite challenging but to join as an electricity for poor supervised students is pretty much easier. So that’s not a strategy to you know to train the students for to influence the students for that. So that’s why now we are receiving for years probably we are hosting for backpage students visiting from China and from Italy and also from other countries. OK. So then you move forward over the block from our life but I don’t want to talk and give about this one set of games you have go forward for at least one okay so the big idea but I would research now is that is the pathically the winter is correlated with the. I’ve been free and achieved secondary resources. So we are much more focusing on how to change electricity and also middle views. Okay, adult views that are also part challenging for us, because also quite promising in the future, becausee snag is adopted also as a rocket fuels, what we can create in any kind of kind of particle from the material deals. It can be used with device or record energy, or broadcast fuels, or

etc. And the big things of rigorous step, how actually we can produce this kind of secondary in the resources from primary and the resources effectively. And then we can also convert mutually. Among these kind of different secondary resources.. then we have. Also research providability cannabis storage, the resource of the school. We produced secretary results. It would be targeted back to city.

So we are to like a couple of the very and so we are also developing any kind of like like you know some some materials for was actually for for lasers or I think so we’ve moved a lot for roughly this process and we’ll be talking to you then it’s around there’s another laboratory and for this 1 we have actually advertised systems 1^st that we have is but the energy modelings in terms of small robust scale energy modelings. So it’s a small scale energy modeling probably can you can imagine it’s like for generation you can the protections or has it contains for for the bigger ones like for the loss skills energy systems probably can include in the Canada country level like China and Japan’s in the recent areas. So you guess that with like two top half of your Indonesia what would have to have what would like to do over there. So how to control it how to protect it so it can be a steady state and also down in the state for the dynamic state that’s going to be the top many kind of artificial intelligence technology because we need any kind of big barrier for this one like for 10 years and. Also the I used to be out from body different kind of NASA data or I can kind of weather methodological data and also for an countries political data for about 10 years and I’ve just recommentions that now artificial intelligence also is capable for doing not only classification and prediction but also move forward for the optimization so it can place and kind of like you know suggestion to us actually in case that you like to predict in the busses 30 the bus and 50 in case they would like to have an account of

government truly in person 50s and value what kind of suggestions that can be given by the artificial intelligent rugby we create and then we move forward for our elemental technologist developments.

The first Is about the how to turn protections. So we are much more focusing on the candy moving technology. So chemical would be technology I think I also believe that extreme purposely in some classes it is. The talent kid that we would like to produce the hydrogen but at the same time simultaneously also would like to separate the seodu so finally what we would like to have is clean digital production form probably can achieve any kind of carbon diary how to change productions. So by this kind of technology like for the transportational system probably is that would like to produce the hydrogen quality we need to to get like justifications and they're followed by like the bombings reverse gas shape and that separations. But in this system finally we can have it for hydrogen production and helping dark aspirations in a single systems. So then you look forward for hydrogen storage via top any kind of what we call as a typically predetic minimal surfaces to BMS structures and these kind of structures II just like to explain better about the thing that would be in also by the PMS structure and then we will go or have the gems combustion right have the combustion have its utilization and the decarbonization in the in the cell sectors and also the factory development. OK, then it is our lab 3. So the upper there is basically lab is, you know, the company, small company, small company. When I was high over there, I just received 200 square meters of the rooms, three rooms, my rooms, the practices and also student groups and also the might actually serve the best of the one professors to 100 square m”ters’through. But it is empty. No chairs, no pencils, no offline rs and no paper or single paper. I see from there we need to. Start up there ourselves. We need to start about ourselves for for purchasing editings or inviting the students from getting students or I have to sustain our lab by ourselves. So that’s why because the responsibility is very hard for the the

independence level of the electorate independent. OK, there’s some some equipment that we have from these. So in case that you are interested for populating data or visiting us. Hey Cortana, I just like to say that we all will continue for any collaborations. And this is some topics related in the topics, but I don’t want to talk in detail because I think the plan is very limited. And then I just would like to mention that can be all designing any kind of artificial intelligence or the advertiser systems.

The level. Can be cheaper. So it can be any kind of model based levels. It can be any kind of model of

linear codes. So it means that the system can deliver by itself. The system can optimize it itself. So as long as we have, we can have a couple of big data and it is still the drivers. The problem with the big data is that how far it can connect with them and we can get the data and finally the tender which is really frustrating, high quality data. That’s the big challenge. So in case that they can get. Any kind of this kind of high quality data finally model 3 meters also can be utilized not only the project but move forward for the optimization so we can have a kind of like reinforcement learning. So it means that the system itself can be forced to learn forced to learn. So it means that in case that we have a budget function by already economy in case that 2030 is we would like to have I don’t know like hydrogen the cost of the hydrogen should be lower than if 2.5 you are still going to brand. So what you’d like to do over there is about the system that would like to have and also the structure or something for structure means they had a ton can also deduce this kind of reinforcement or much more deeper deep reinforce learning. So we need to enforce further format and this is just example that the system itself can can you know do something that’s prediction and also optimizations once it is saturated In that system is we get the the optimal value over there and then certainly just the example there and operation results provided and finally what we can get like for my students want to be assisted from China also right. And wholesale up to Mars like and the hydrogen detection in China where the hydrogen should be produced and also badly where it should be synthesized in metal to ambulia and finally where it should be utilized. So we can take and also map this kind of systems and then we move forward part of the digital train for antigen combustion by the moment we’re talking in detail about these ones digital train is very sexy there. That means some people are working on that. So we are. Not only doing any kind of simulation but move forward how far we can have very short times of predictions and of optimizations. I mean that we can combine together so we can communicate together between the digital world and also with a real world So in the combustion also with all we need to do is that in case I would like to have an account on how to do the combustion because how does the combustion Is really very complex. Although the global reaction for the habit and it’s very simple like hydrogen plus an accident and they produce the waters. But the problem is the intermediates is very, very complex there can be in the genes can be tried to optimize the mechanism over there’s some researchers working on that in case that we combust at the end founding about 700 more than 700 reactions. Are included of America but and also more than 70 species are in the bulls over there. So you can imagine the mechanism is very huge in case I would like to do an account simulation resource intensive. And then this design for the digital training. This is their results on another set. We can take quite practically it between the for for combustion itself. So it also includings very low TPM’s of the Knox produced during the

combustion itself. So the top any kind of what we call the large credit simulations. It is very, very resourcing intensive and also probably we can move forward for direct number of assent relations.

But hey this is just simulation done. OK so I don’t want to talk in detail about this one. So we have also now projected actually for different wiring. So now we have receiving subflux project actually. So they are probably with some institution in Indonesia or covariance of cool and also Cambodia and they are now building and kind of you know demonstrations protection in some form actually and we like to do in kind of not only simulations but also experimental words in here. So they are also

cooperating with a general power in python or their our generators to be in the qualified between the core and also the ammonia. O. K. Wave. So we are also developing our duct slow battery. They are duct slow battery basically is pretty permissions. The problem with the breakups for battery is that it’s energy dancing spread low. OK, so basically it is quite excellent brand kind of station

repurpose. So probably it is not very excellent for mobility purposes like for the vehicles or asset but for stationary systems. Is getting promising because the cost of the whole cost is really low. So we are now working on. On replacing the phenomenon based electrolyte chip and kind of adding this electrolyte because felony is basically environmental stronger in activity. So we are moving forward

for the islands. But the problem with the RN is that it is working voltages. So we’re gonna finite use.

So finally the density of the iron is lower than finariums and also the rape itself is lower than the finale. So replacing the phenotyping with the audience. But the problem is that how far we can improve the performance of the iron based electron in this case OK then swim forward for this. This is okay. Then I'd just like to to explain. In brief about dependable buildings and I think this will be correlated also with the bottom because I’m not expert in catalyst. So I just we are still working on not the catalyst but the oxygen carriers. So basically chemical looting is a technology that we would like to exclude it with a class of problems like the transport problems and also reduction problem.

But over a year’s the big things the big issue for you is collecting the transport problems. So what we like to transport. So in this case you like to transport the oxygen for the hydrogen productions and there are some option for the capability including also handle loading gas execution and the looping revolving scandal of the combustions. Can the collaborates what is bleeding building also the hub step of action. So we have been many options or probably also that we have done also correlated with the annual productions in case of the ambulance production with that’s what the nitrogens instead of transporting the I scale like. Like in hydrogen productions. So in this one like the simple things over here is that we have. Something from the left side they have kind of loading specification or kind of loading combustion probably. So in chemical loading combustions or gasifications we need to transport the arsenal. So especially for the combustion we did yesterday for the combustion. So it means that we have to determine. Started from the lifecycle. We have the catalytic radios of our reactors. It means that the error. Reacts with any kind of upset carriers The example for the accent carriage of our years is the anomaly site. So starting from there from the family actors and the bottom side of the left figure, they can say that once we have any kind of atomic oxide in terms of like magnetite or probably in case of chromatographic combustion, we can have and got a father itself or probably whose type at EO or probably magnify FE 2O4. So once we react or having reaction with the pair, the oxygen react with the irons and producing hematite at 2 or 3. So hematite is then transported to the second reaction from the lap sides. So it is intrigued together at the top and finally we have an kind of cyclone to to, you know, to separate the gas and solid. So the solid drops down while the gas including the act. Ually the access oxygen and also nitrogen is going out and that’s the utilized the an oxide the oxidast iron oxide which is actually two or 3 or hematite for having reaction with the fuels. So the fuels and systems. Help them as hydrogens. Then the oxygen getting profiled by the island outside or hamatard is then reacted with a fuels the carbon can also help it in from the fuels producing CO2 and also S2O. That’s the oxygen carriers is reduced back. Reduce back to is like an island or restart conditions, but actually we would like to avoid the woods platform visions because woodspite basically is sintering. It’s easily sintered. So we are preparing for having Ireland rather than to start. And that very simple things. I mean, I mean, we have many options for oxygen carriers, including also the calcium oxide magnets on site and other things intermediate map metals. And then when we can add one single reactor’s efficiently over there. So we have still.

Reactors with an SR and the rat figures. So we act like after the fuel gackers at the tops and then at the buttons like we have what we call stands for steel gearers and the same reactors Is reacted with the water or It will be deceived and they reduce armoxide in this FDA and FEO then having reaction with this team. So it means that the oxygen from the steam reacts with the FP creating exactly 3 to 4 magnet types. So it is partial oxidation then. We have three hydrogens and hydrogen will be

released. So that’s how we produce the hydrogen. Some people called the system as well as splitting because we split the water to produce this hydrogen. Advance at the three o’clock for the SR then goes back to the the big every others or any kind of complete oxidation using the oxygen from the air. Then return back. So so that’s why in the system basically we are adopting you know. Oxygen carriers other than the calories. But the problem is that although the item is very permissive for oxygen carriers because the cost is very low and also in front of the family and then also the

mechanical strength credit to which because mechanical strength and also the working temperature is very good because It can boost quite pretty high temperatures. The sintering also is quite low compared to any kind of copper nickels with Olsen or any others like Enlightenment and the C more other things. So the problem is that the reaction itself the reactions the rate of the reactions sometimes really is quite low. So the problem is that how far actually we can have much more excellent one item based oxide carriers for that. So usually the job and kind of some technologies like like doping and also to improve their surface area or something like that. And this is the pickup system. But I don’t want to talk in detail about the sunlight is I have sufficiently explained to you hopefully. I don’t know whether it’s delivered well or not. It’s like what’s a network in case that you have any any iron of like I like clear boys please don’t hesitate to talk matter. I think the password OK then it is the problems and also we try to map the problem for mechanical whooping and now we are working on several several. Topics over there. So my pets basically now two pairs GPS students are working on this one. So they are working on different topics actually includeincludeing also the mechanisms and also for the lifetime oxygen carriers including also for the platonics and also another for the application. So it means that how far actually we can apply this kind of systems to real world.

So we are also cooperating with some university in a just party for that and we have this kind of meet you for our study growing also the pharma has utilizing asking carriers of and then for the developing the reactors for the models you have the models and then move forward for the models and then find it also the application and that’s also include any kind of customer analysis that an economic improvement only starts Etcetera. Then it is the potential which is on this one. I think this is also provided with the maximum. So that’s why cell. Now the outline for the half cool can also process design and also a sequel to your careers. How far actually for the materials ones for the oxkin carriers, how actually we can improve the performers of the oxygen carriers. So including also reducing the number of the electric sparks again. So by reducing the number of lattice arcs and what we expect is that we can reduce the activation energy. So that’s why so in our research actually how actually we can reduce also the lattice accident and increase the absolute oxygen. So means that the average in the release the oxygen from the from the FEO or any kind of arm oxide itself can be much lower. But then this is the development of our skin careers that we are now doing now that we are doing with the the dropping we have done with the topping and also with the massive structure. So for the next first structures it’s very quite challenging because we need any kind of like based materials and that in the base materials we need to activate to put the the opposite cabbage of the bears and finally it has very quite a huge surface area to to have quite a good thing reactions and also what we are doing now also how hard actually the unblock only using the artificial oxygen calories but also utilizing and kind of naturally compulable oxygen carriers because I think the cost will be quite much lower there are. There are some possible promising natural oxy encounters including aluminum or helpline type or insecure. The problem is that how to improve this kind of. You know this kind of natural oxygen carriers, the performance. So that’s a very challenging day because we need sometimes we need to put any kind of fat daves. We need we need to probably need to modify them and also probably yeah it is quite challenging for dropping the the natural oxygen canvas because the loss will be much more higher. So I think putting or adding any additive starting would be much more permissive Then we are also to clarify the mechanisms to clarify this kind of what really happened inside during the during the reaction itself. Finally also model the. The the reactions that can be sips. Yeah now adopting any kind of intensive functional theory and also some cylinders also may take over for the real damage. But because we are trying to to calculate the energy over there. So focusing on the density actually they’re in case of the kind of developing especially for the actual carriers. So we match together with so now we use the device bus from Vienna and then we also. To have to model this modern binary ethical and also. And also XPS data for the band Gap Energy and Overgap is that we can be easier also how much the. What we caught from our result is

that as you could see over here is that as we talk the confer others in very small land of the copper is only like over is 1% something like that. The number of the latest answers and sensitivity usage. So we said we can increase the number of the oxygen. So the reason is much more easier. So better than James. Yeah, this is probably. The research or some planet and also the naturally actually has for that and then we move forward for systems and also for production. Of productions are actually the they are not on the move stopped by the hardship production but also for the metal productions.

But our prince symbols is that in case that they produce hydrogens and then they produce

methamoles because methamphetamines of cabinets. So basically we don’t prefer to produce metal OK, so we prefer to produce methanols and then the methanol to elevates and then to polymers. So so sometimes in case that people are being explained in this kind of system partially or as that is doing it ahead of like metal production. No, we avoid any kind of carbon basis. So methanol production suffer years is basically for producing all of it and then for polymer. So we are expecting that in case that we would like to have longer lifecycle for the cabins or COD especially here. Finally we need to do any kind of maxalizations and one method for the materialization is converting the carbon to any kind of polymers and your family polymer can be legalized for any kind of plastic products or acetone. So the lifetime life lifecycle of the cat needs a big gamma for longer for the mental node in the case that we can use meta model is the fuel we can very strong. Right so they produce the hydrogen and then economic is utilizes the fuel some other is rarely I think is not so worth it. So preserving our assistance in the case that we haven’t spread it. So you do and also produce the haltrogens family can be services together also and then for the the two produce of polymers. But the problem is that the ratio of the produced CO2 and also the hydrogen is very different. That means the amounts of the this much more bigger than the habits are produced. So we are doing Is that how actually we can increase the amount of hypergen produced. So we can have like solar assisted products that the energy from outside can be can be added by adding this kind of energy from the outside means that we can have. We can you know slightly energy and the energy finally is converted to the handle project itself. O. K. Then we move over part of the system

development blah blah blah sometimes and then this is a sore acid as I mentioned privacy. It is basically so assisted to increase the number of the hydrogen. So it means that when they produce a lot of metabolism and also partly we’re struggling to demand or the seal to can be mentioned.

Although it’s very hard to mention the number of the security but actually you can basically can increase the the size normal. And then we OK this is not the system. So it’s the allowance and then we also utilize for a top this kind of technology or chemical we’ve been also for the items making or still making. So it’s much more producing on the directed this island. So yeah this is very kind of geography. So we have conventional blast produce and also. Yeah I shan’t put these but in this study the alpha focusing on the DRI sharpening Is not blast on this sharpeners. So basically for the iron production for iron making still making the process is very simple starting from reduced reductions and then followed by characterizations. OK so the production is basically happens in the conventional system usually use codes to to supply the carbon. So utilizing the carbon in the reduced yeah and for at least two or 3. So the mix sets we have reactions and they see and accountants and also every 2 O3 and we produce FE and CO2. So that’s why why still making is very, very carbon tax intensive because utilize the codes and finally be to to reduce the ions and then we access the CO2 in a very.

Rich manner so. We would like to you know to control the the production process over years so it is very hard to replace all the patterns like patterns but well. What we are doing now is that although we can reduce adding that’s been very good. So we need to reduce the reduction by cartoons and use the hydrogen but unfortunately for the characterizations it cannot replace the calcium by fit hydrogen hydrogen because capitalization basically is kind of big. So it is impossible to replace the kind of resolution process at the bottom because it is hardly being processed. So when we produce the FE from the production and then FE before It becomes any kind of like blue **** for something

other. So you use. The put the carpet up out there. So the steel is hardened. So they have a kind of like hard steel. So in case that it is on the pure F. D. Appearance then you can with the hard the hardness of this is sufficient. So badly the proportion some system superiors or utilizing mechanical looping for producing the steam gas for producing the half the chance and then how actually you can distribute within reduction process and also with a capitalization process. Systems for years actually we have to go up for years. But if it’s just introduction I just I don’t want to to mix with the detail about this one in case you’re having friends you can agree on our peers. It hasn’t population actually last year and then this is the process that we designed blah blah blah something there in this system.

OK then you move forward for the next one. So this is so the new production from our recent topics.

So we are developing meta materials. It’s meta materials means that it is artificial matrices or structures that is designed to improve the performance. This is what we call you. So we cannot use but yeah much more producings on the structured development structure development for how to get the reach. So for the hydrogen storage we have many options but in general also we have any kind of file that can storage for transportation basically they can classify to different levels. Lot skills and also small scale organ consumer levels for the last scale we have many option including liquid factions ambunia oxygen liquid oxygen carriers are always it is always AC and also probably in Guyana like you know or et cetera. But for the the small scale ones basically they’re only two from amazing African storage and sufficient days and compression It’s like for vehicles usually use the compression.

But the problem with the compression is that it is basically single directions. It cannot be mentioned in your homes. You can have a kind of like compression So the compress hydrogen you need any kind of very high pressures for of compressors They very high head of pressures. So about 20 megapascal for probably 3570 megapascal. So I think store the customer level. I think that’s it’s not feasible so in case that we just fulfill our films that have to change from the stations dispensers it’s no problem. So it's In single way. So you just perceive high pressure for partridges and then store to your vehicles but for the small scale for the challenging also discharging cycles in the small scale or customer labels finally. I believe that transoption places national server and also much more visible. So in our research we focus on behalf option base and we develop the structures. The problem with the adsoption space that it needs and kind of heat because when we when we would like to release the heart from the **** hydroids we need to heat itself it depends on the materials or optimal patrol itself like in specifically with 80 degrees Celsius to 150 degrees Celsius there is a harder dress to award the magnetic beast in case they would like to increase the the ratio of the hydrogen stored over there Finally we need much more higher temperatures starting from one at the 50 to 100 to 250 degrees Celsius right so in our study how actually we can have any kind of efficient structures that can facilitate very good heat exchange and also controllable to James Storage especially for the hydrogen storage density and also finally also the strength including the mechanical performance or else the track so violently we found this type of structures where it was a typical minimal services. So basically this time cause functions. So the design is kind of slanters including. Tpms generate tablets.

Sorts. Lifetime and asymptomatic. So this type of statistics initially it has been found in 17 and 1970s but until now some people are working especially using this kind of structures for exchangers or Etcetera and but this is the first times in the in the research that the top is kind of structured for habits and storage. So our target is that we can have very strong hydrogen storage and it is not only focused and it’s not thought on the in certain places like for the hydrogen stand but it can be a part of the body itself. So the structurally they are very hard enough and we have each block this kind of structures and let me take also the kind of like experiment we designed community the manipulation based on like charging discharging after the charging is charging strength and based on the

dependent limit analysis and also how we can density how we do what not on the use and canal default structures also if this would like to increase the performance including the health. You

transferred density factory we need actually to do any kind of optimizations. So we I think this kind of

studies probably much more mechanical entering rather than chemical engineering actually so we did we did a couple of other optimizations to improve the strengths while activity also increased that how to take storage. So by this kind of reports finally we can improve further and this is the mayor for the topology and this. And this is Japanese but I don’t know to explain Japanese so this is that we have several we have you know this flash of fire it can be can be controlled so in a certain area we we can optimize the structures or the volumes for the habit is rich while in the another area probably we can minimize minimize it and also minimize the the the volumes for the for the fluid it support the heat exchanged and then. Struggle still we have done a catalogs for a distribution and live series and also compared to distribution with OK which is time alterations and is how actually to to to improve forwards we also did any kind of another method for the double object optimization including also you know combining with the kind of flat piece structures. So inside the TPM as we put any kind of lattice structures so probably it can be an kind of like you know one. Probably 0.5 million meters, so it can Improve the heat exch performance over there. So the charging also discharges of the

hydrogen can be done in very much more shorter times. So okay, this is the research. OK, that’s the research also doing with any kind of move forward for the panel mechanical and history. So this research basically initiated with AIG of the chemical with bins and also hydrogen storage previously.

So in terms of the absorptions, because we in terms of the heartwritten storage, when we charge the hydrogen in the metal hard drive, what will happen if this exotomic reactions, if they. If they hit this exoperate reaction. So we need any kind of cooling. So we instead we can get a kind of high

temperatures of water or any kind of high temperatures of heat itself. But to produce to release the hydrogen speed and kind of heat cell. In in the previous in the previous one we are talking about the halogen storage. We are micro focusing on the hydrogen storage. So it means that we charge the harder chance and then we cool it down and then when we would like to release the hydrogen release any kind of heat okay. So we need to things in different way now we use the peak storage So means that we can utilize the harm to change the hydrogen can be stopped independently. So means that you don’t like it when you like to release or get the heat we just adjust the hydrogen so we can get the heat when we would like to store the lead means that leading actually at the time we released barbecue. So that’s why so the the principles the principles is quite opposite between the hybrid storage and also get private chemical energy storage. But it is. Not only limited to hydrogen.

So we have many options actually for this one and also it is the idea complain also the chemical buildings for the chemical efficiency of adaptation and also oxidation so. For the reduction heat or to act like for the anti reactors and also for the oxidations you release the heat 70 items right upside the mechanical being that I have represented previously that.’s because I think in limited time right now 5 minutes it’s 5 minutes but that’s the one I think I feel like I’ve got another 50 cheese. OK just a brief. I think that’s also related to the chemical engineering systems. I think it’s also very, very important having in capital energy. And we also give up any kind of video will probably item whether you know by chemical. So in case that we have confidential heat forms, confidential heat form probably working at low temperatures. But in case they would like to have to the temperatures like for 200 to 400 degree Celsius, we can have a kind of chemical heat farmers. So it is not based on the compression, but it is based on the reactions. So can also point is quite I think is quite permissive in the features, although the option ”s still there quite lowly. So that’s also a part of the thermal chemical energy storage over years. So we have actually adopted for the high potential productions in terms of, you know, like like. Geocrable peace. Geothermal sources. Usually I think the

temperatures are sounded by 200 to 150 degrees Celsius, maximum probably can get 300 degrees Celsius. But it is insufficient to produce the hydrogens. So it means that we need to allocate the temperatures and then utilize CUCL’s – operate cycles to produce the hydrogen from the water. So that’s why. So usually we combine this kind of heat pump, chemical heat pumps and also other cycles for that. OK, I don’t want to talk with detail about the power the whole approach for this one. The

apex now, one of my psd students also workings on the, you know, microscopic structures for the after temporal devices, especially for the people. So we are now working hard toward the gdl from the clay gas division layers, and also have particular layers. That's, that's, yes, still, they are now still working on the plan fuel cells, other than for SA, F, C, R, outline 1. But now we are working for this one. How actually we can optimize the structures of these kind of layers? Now we are not not working for the main passivity, but they are much more focused on the gas division area and also for the category of this area. So how actually we developed this one? So how do we control the

structures, the ratio, the pulsity, the conductivity? Activity. So we modulate and hopefully in the future also we can do any kind of explode further. But now we are multiple focusing on this simulations, but so this is just example for how actually we can modulate how actually we can analyze and also the impacts for the accelerations happens after certain cycles of charging also discharging and also okay should be analyzed that and conductivity to prosody. Or et cetera. And that is the acceleration models for GPL”and for the CL and yeah, I think that’s that’s all the things. So I don’t want to talk in detail by this one the. The second sections I think give me about 5 minutes by.

Concentration. I just would like to mention so that the you know like what we had to university is not moving forward party the applications okay I think from also I will explain about this one but you can imagine it’s like in in one year we spent about 200 to have the nearly two hundred billion two hundred billion rupees. You know substrictions they can make it 200 billion rupiah or less for one year So we we would like to move forward for changing this kind of subscription based to home access piece. Now we have contract related accounts of theirs fingers of sports what I do for access publications. So basically our our our papers publish in especially five publishers snap it becomes.

Global access so. Yeah that’s another. How activity we can have laboratory this is the big pictures of the lab actually so every professors finally received this kind of space actually preferences to student groups and reference rooms. So when II was tired years at the original film it it was really empty so believe me believe me on the accident on the air is unlimited OK then we need actually to operate the startup the the lands that are personals that get funded and actually to get equipped for the left students to get the students and. And believe me also we have actually the leaders two different leaders for the activity. We need to pay electric by ourselves. Yeah, it is not because that’s why the university but we need to pay and remove. So it is I can’t forget about your diversity and that we need to to to pay what I have to do now what is still free yeah. Water is still free but the electricity we do we need to pay for that. The electricity electricity electricity for these three new rules is basically you need to pay land brand so. So so yeah II just got the rooms and also salary from the university we also get the kind of operational planning but operational funding is do not be certain about only the 100 15 million rupees. So it’s just yeah we can’t get any car and I can’t makers and also some some papers supply that for the research I think that’s really hard. So Kay then left management is very important for yourself. Yeah how actually they can manage the the lack of free spring water. So let protein is basically not you know Yeah we are not profit oriented now that we need to rethink that research is basically also profitable profitable. So but it is not profit oriented no no never by paying the thing that Lisa is really, really profitable sometimes but basically it is funding generators with any regions in case that we receive funding. We need to have a kind of upper head cost 30% of higher cost and it will be increased in the futures MIT set the overhead cost for about 50%. You can imagine when the universe make the government are entirely universal. They pay efficient but not a 50% right. So in our university it’s still a 30% but I think 20 the outlining for moving forward about 40% right but I’m arguing it’s fine sometimes. They are they are OK what we 50% this is available back to the server becausee they get the names of the university I think that you also know it’s the name of the university. OK then. OK this just just a clue of research like management actually so we just use about comparing or 20 million yen per year. I think it’s about two billion to be out three billion to be after years for one live actually so so how far the professors should be at the

end of like you know. So, OK, that’s the Galaxy Importership Foundation. So. The findings, we have many various various funding scheme actually. So how can they test any kind of food spray that you can if you can placing the findings and it doesn’t very important. So because sometimes like like in a different parties, they have different rules. So it means that we need to have like a big amount for that. That’s very, very challenging today. So the donations operational funding is then going to be flexible. And trusted research, basically sometimes very strange. And then we go crazy to its bondings. I don’t want to talk and tell about this one. I think so. So we also don’t revealing process.

OK, so all the stuff, all the professors basically for 10 years or the last, the last review will be in at the 55^th. So when you got 50 50 years old, five years old, you will get a final review because the

retirement scale case sort of 65. Ten years before the violence. So all the professional basket reviews.

No free lunches. No free lunch again. So that’s right. Let’s try this different things. OK, so now about three minutes. Probably I’m talking about the possible schemes for this actually like okay. They have also international programs for. Like for the specifically the judge. Yeah, we have you know, specific schemes for the PM labels of like. But all the undertreated we have available they did because the 60s that it is for years and I think this is for the creative rivals or the creative students in case like it has the first guarantee to get access to your sites and national disability and say the best because this is for the game generating. Said another, I think other faculty, I think they have also another schemes before mechanical or chemical engineering. So we have our own system because the international mortgage. Yeah. The involvements we have to different governments in particular involvement also involvement. For the applications, we have three different batch of the applications. The 1^st batch something November, that’s what the October involvement in next year’s. And then the second page will be started in January, February, no coconut. I think last week has been closed. That’s also for October employment. And the last for the applications, it will be in the May and June. And therefore, the actual Involvement. So basically will be over here is application. Then you, you need to submit in your banking account for vision ce”tifi’ate. Out of Google, I we can report the ID for two full degree for the ID to. And also I have to understand also for the preferred also to have GRA, although it is not obligations but be beautiful for that because we need to standardize the quality of the students. So that’s why the job also in GRA. And we have also supported programs for the PHD for reports. We have six different menus for supporting the V. S. D. This is one example for the program. So I think the university is the biggest university for finding city of work with PST. So now we have spring JS programs and now the experience of the Ajax rejects programs that were universities back 1000 students. That’s how they repeated, especially for the pre class transformation students, especially that for the students working in like energy in the in sustainability. Probably it can also apply for this one. It is basically proposal based. So it is basically project based. So the students who once you are.

Once you are accepted as the students. So like OK say it like like you apply for outdoor enrollment in in in January or in last November and you don’t get the. The acceptance letter probably three months after your obligation to like increasingly applying this February I think finally you can gaps you’re acceptance or rejection if I don’t accept another rejections in email and then apply this 13 months before involvement. So it is basically project piece the students can propose by by themselves so we can provide any kind of like support for lower support and also the good things with this program is that the students is also given for them there is a funding. Appropriate is also big. I think in Lupia about 15 million rupees per year per year but you can apply for different projects actually so the maximum at least back 150 million would be up for years that for there is a fundings difference with your lower ones Mali allowance 80,000 Japanese yen and then you will. Be also facilitate for for you know for supporting their portfolios and also specific programs in my one of my students in recent students also joining my labs as the PSD now is not in the touch a year has a joint international conference for eight times and it after and all were not fought by these programs. So they can’t mention that means that the program is relaborated quite interesting actually so yeah we

have also had basically compared to this kind of spreadsheet’s programs. I think this program is much more we don’t know much more missing compared to others because we provide any other support.

Programs in our university I think you can access also we have also we have also exchange programs you can also visit in our web for free. So this is basically the department or faculty say the case that you’d like to just do any kind of research and students you can contact the progress over there and you can join out of the in laboratory if not you need to apply for this kind of program. So basically like in our Instagram natural science basically also provide. Any kind of supporting programs including also with the internship also visiting OK then research student is domestic practically touched you all digits in the industry programs that we have on physics student programs of Turkey. So you can imagine it’s like I think it’s global tempered that about six students now early for students in our labs now also is an experience they join as the industry on sophistic students. They are doing the research exam collateral. So basically we don’t have any kind of bench team or this one because basically they are joining the research In the lab and searching. So they are not you know they are not pulling for the department for the classroom l”ke they are with tablet for the research. So joining the laboratory so the library is the horse not the Department of US itself. Okay next scheme of the latest is much more for the faculty varieties. Many of you are students started going to talk to people. OK I think that’s all for my presentations today say in case now this is scholarship. Yeah probably I can share better in case that you have an address. We can you can read over there for this she will be having scholarship in Japan actually but I believe that for yeah in in general part of my study I think that the opportunity is much lower comprehensive to be estimated the PSG is much more you know we need we need the resource we need. We need the resource for PSP. So that’s why we provide very huge supporting program for free SDL. So well from the master. Yeah, the option is quite limited But believe me that. Yeah, depending on your mindset. If you would include the child student and also the English and students Innocent students needs to be granted before leaving before departure. But China’s learnings, they just need acceptance first and they can go there They can’t live over there.

Probably they can do any kind. They can search it. In Japan’s after arriving in Japan. But they have missed it. Student used it. They need to be glad that first of all, the scholarship before going there. So believe me, the Chinese student is much more faithful competitiveness and student. So that’s why that’s another. Also. Machine for this one and brothers. I think the opportunity for getting the scholarship after writing in Japan is much more high compared to before departure. So because like for the product support like from the from the company CSR levels of compiler basically and basically our our our many improvements in there so then they have ASPS yeah this is quite a good program to do some programs and yeah also there are some many options work for private scholarship you know especially for Indonesia because in a recent student are quite limited are quite lower quite lower compared to like child student Vietnam students or Etcetera. So the opportunity to get their scholarship from the private building also from the county that isn’t like it is much higher. So

basically. As long as you you can stay do good university you don’t get this conversation is that about the amount of the scratch that we can't OK probably In in case that the company they have a couple of branch in Indonesia finally they will provide our prior and I possibly in this institute or as they receivers of the scholarship okay then. We have the applicants so I don’t want to yeah this is the tips that were sometimes I don’t want to talk in detail just just read it in case that you have been

impressed. OK. Thank you very much in case you have any kind of like discussions or question or etc please that don’t answer it to to address your questions. Thank you very much for today..