WEBVTT

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Qiusheng Wu: Are you idle? Are you idle, mommy? What could

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Qiusheng Wu: but just

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Qiusheng Wu: which I'm gonna try tomorrow.

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Qiusheng Wu: hey, Debbie?

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Qiusheng Wu: Debbie!

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Qiusheng Wu: A baby

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Qiusheng Wu: reach

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Qiusheng Wu: my delay.

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Qiusheng Wu: He did

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Qiusheng Wu: alright leeching. Also 19 camera.

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Jun Li-CUMTB: What was the 19 year in 19 Indian Wahama.

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Qiusheng Wu: Okay. Was that too tight? Was that Kai kai kai kai to the Lou sounds very warm.

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Qiusheng Wu: Jamila, what do you have? I only saw a co-host. Did you take over using that.

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Jun Li-CUMTB: Huh! We Wendy.

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Qiusheng Wu: High School Company. I'll make a nickel chat. I need you.

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Qiusheng Wu: I need to talk to Json.

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Qiusheng Wu: Kai Sanchez. Also, nigga, wouldn't he? Nigga. Don't doubt you sing that.

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Jun Li-CUMTB: I went.

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Qiusheng Wu: Let's see, how would that help? Okay? Bye, bye.

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Jun Li-CUMTB: Who loves it in Santiagma.

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Jun Li-CUMTB: For Loza.

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Jingying FU: Oh, what's that, Enatra?

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Jun Li-CUMTB: Hey?

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Jun Li-CUMTB: Oh! So the freezer Kanji, or Chintan.

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Jingying FU: One.

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Jun Li-CUMTB: To a sunny. There's a session.

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Jingying FU: Ha! Ha! Ha!

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Jun Li-CUMTB: Then.

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Jingying FU: Oceanko, in Saint Sacha.

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Jun Li-CUMTB: Yeah, you can see I'm going. Yeah, yeah.

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Jun Li-CUMTB: A child, and she'll go to.

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Jingying FU: Ehizia.

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Jun Li-CUMTB: Hey? You said an email mail Don Hub as well.

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Jingying FU: Tabloid don't have with the Internet.

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Jun Li-CUMTB: Oh, you! You got your top on what you saw over your sip email.

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Jingying FU: Mail mail mail mail mail mail. Omega should be negative. That don't have.

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Jun Li-CUMTB: Oh, how the hell!

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Jun Li-CUMTB: Hi, everyone!

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Jun Li-CUMTB: I think it's time for us to get started now.

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Jun Li-CUMTB: hey? I am joining from China University of mining and the technology at Beijing.

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Jun Li-CUMTB: I'm very honored to be the host of today's webinar.

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Jun Li-CUMTB: I think. The time this time is a little late

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Jun Li-CUMTB: for the audiences outside. China.

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Jun Li-CUMTB: Probably more audiences will come.

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Jun Li-CUMTB: I made him

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Jun Li-CUMTB: the same for 2,024 Cpgs vacation webinar singers

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Jun Li-CUMTB: is the Gs. And the led environment.

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Jun Li-CUMTB: Today

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Jun Li-CUMTB: we are very glad to have

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Jun Li-CUMTB: Professor Junior full

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Jun Li-CUMTB: from the Institute of Geographic Sciences and Natural Resources Research

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Jun Li-CUMTB: at Teddy's Academy of sciences.

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Jun Li-CUMTB: I would like to give a brief introduction about Professor Fu.

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Jun Li-CUMTB: She received a bachelor degree from Nanjing Agriculture University in 2,009,

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Jun Li-CUMTB: and the Ph. D. Degree in Geographic information, science from Chinese Academy of Science in 2,02325.

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Jun Li-CUMTB: I'm sorry. 2 is under the 15

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Jun Li-CUMTB: she served as an anonymous review for international journals, such as Renewable and the Sustainable Energy Reviews

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Jun Li-CUMTB: apply the allergy

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Jun Li-CUMTB: channel of Canina. Production is virtual.

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Jun Li-CUMTB: She has published over 100 general papers.

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Jun Li-CUMTB: Her current research interests include the biomass and the biofuel, allergy, food, water nexus sustainable, useful for natural resources, and the jazz

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Jun Li-CUMTB: I think all of you are pretty eager to her

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Jun Li-CUMTB: interesting present presentation like me.

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Jun Li-CUMTB: Okay, please, Professor, full.

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Jingying FU: Okay, that. Thank you. Can you hear me? Now.

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Jun Li-CUMTB: Yes! Yes!

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Jingying FU: Oh, okay, hello, everyone. I'm very glad to have the opportunity to give our presentation today. And hmm thank you very much for the invitation of Cpgs and the Professor Tori I'm studying from the Institute of Geographic Census and the Nature Resources Research

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Jingying FU: Chinese Academy of sciences. And my topic today is about the spatial temporal potential assessment of well mass resources and the model set and simulation of the utilization process.

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Jingying FU: My presentation will divided into the following 2 parts, and first is the background, and the second, we will talk about the bell mass resources, and the third part is life cycle, assessment of the utilization of the bell mass resources. And the last part is the applications or biomass.

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Jingying FU: from the background. We know that the pressure on the energy demand and the is about the booming energy demand and the the the decline in the bacterial the petroleum resource.

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Jingying FU: and also the climate change is

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Jingying FU: of fact in the

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Jingying FU: our, our use of the our demand of the energy

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Jingying FU: and the prisor and well, mass energy is, have the other one case to release the present prices of the Nj. Demand is colleen and event model event

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Jingying FU: you want to merely friendly, and it's renewable. And the

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Jingying FU: resources of Bell, mass is also wild. And

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Jingying FU: now, folks on the resource bell, mass Angie, there are many resources or biomass just as the agricultural rescue forest rescue Mini rescue wood building waste, and also the the waste from the the urban rural areas.

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Jingying FU: use the bell mass, we can, we can obtain various all products and against the benefits. So I think there are many researchers folks on the bell mass energy

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Jingying FU: on a.

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Jingying FU: the area of the resources, the technology and production transformations.

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Jingying FU: I did a lot of work in the field of Bellevue. We use energy plans to produce Bell fields in the world wild. The there are controvers about. Why

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Jingying FU: should we? You use the bell mass to produce Bell Fields or not, the controvers is a focus on the energy benefits, whereas the ecological, ecological and benefits

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Jingying FU: this is this author is the Steve Steven. He is the chief scientifist of the BP.

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Jingying FU: Corporation. He. He proposed that the bell fuel. Bell fields

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Jingying FU: is have a good region. But there are also some papers talked about the

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Jingying FU: but of facts such as the stress and to the food security and the nature resources are

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Jingying FU: street situations about land, soil, or water.

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Jingying FU: And so, while there are

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Jingying FU: different opinions on the development of biomass energy. Because when we use the biomass we didn't consider all comprehensive effect. And the gains of all the all the aspects, such as the

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Jingying FU: the end of the if, for instance, they are the

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Jingying FU: the food, safety, or the water safety, and even the

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Jingying FU: environment, our ecological effects. So in the

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Jingying FU: 2,011 and born conference they proposed proposed the nexus of the water energy and food security.

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Jingying FU: And this is the

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Jingying FU: the first time this nexus was first proposed, and in the 2 2,000 and the 13 the unes cap

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Jingying FU: propose the

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Jingying FU: water, food, energy nexus in Asa and the Pacific region. In the 2,014 Fl. O.

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Jingying FU: Propose the water, additive food nexus. This is a new approach in support of food, security and sustainable and agriculture.

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Jingying FU: So this nexus in these years is very hot topic.

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Jingying FU: Hmm. Under this nexus we did the work. We

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Jingying FU: study the

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Jingying FU: mean if we want to. Use the bell field we should consider the WEF. Nexus from the aspect of the food. Safety.

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Jingying FU: china, even Asa, we have our last last number of population about 75% of the population as a lady living in is at the Asia Pacific, and China and India has a very large

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Jingying FU: proper patient. So it.

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Jingying FU: and consider the nexus and China

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Jingying FU: we have a post. Propose

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Jingying FU: Principle that the food crops cannot be used for biology production.

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Jingying FU: In addition, the farmland cannot be used for energy corps sprouting. This is this is posed by the agriculture section

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Jingying FU: and the other one. The other aspect is the water footprint.

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Jingying FU: we. We use the

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Jingying FU: energy plans to transfer

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Jingying FU: to the bell field. We need the the water during the production

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Jingying FU: stage,

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Jingying FU: but also when we plant the crops they will use water to

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Jingying FU: so expanded the production or bell field. It will impact the regional and local local resources, the water resources, both in the quantity or the quality. So the water footprint is one of the important aspect we need to consider.

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Jingying FU: And another aspect is Andre events.

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Jingying FU: since they say we, if we

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Jingying FU: use the angu plus to produce bell field during the whole process, the whole process. We also use the we also need to use ang as the input

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Jingying FU: so. And the

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Jingying FU: we need to consider the input energy and the output of the bio energy. If we can cut the the net energy efficiency.

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Jingying FU: So this is about is the background. We need to to

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Jingying FU: consider the nexus about what

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Jingying FU: food food and water on the second section is about the bell mice resource.

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Jingying FU: We

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Jingying FU: published a paper into in last year, and we

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Jingying FU: did a study about all the collectible biomass resource in China and the composition.

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Jingying FU: and this is the data. In 2,005 and 15

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Jingying FU: the we can see the scratch structure. This is the Angie plant, and on organic waste.

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Jingying FU: a. The Andrew Poland will take about 30,

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Jingying FU: 35%, and the organic waste will take about 55%,

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Jingying FU: including the urban list. The manual rescue, waste, wood, forest residue and the agricultural residue. This is the all the resources of the biomass in China, and the the

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Jingying FU: and the energy plant is takes about 50, 35%. And my work focused on the energy plant.

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Jingying FU: mop.

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Jingying FU: And this is the

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Jingying FU: bell mass resources distribution of China we can see the total energy. The total bell mass resources, and in the southwest of China will exceed exceed those in other regions on the top the top

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Jingying FU: bell, mass prophe provinces is about as renown Phwania and Sutron.

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Jingying FU: and the

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Jingying FU: in the right. This map is the density of the total biomass

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Jingying FU: and the yellow point, and the density of the organic biomass which are excluded. The the energy plant

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Jingying FU: on the

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Jingying FU: the density of the bell mass resources in Eastern China was higher than in Western China. We can see the the difference

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Jingying FU: and the the

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Jingying FU: focus on the energy crops, the main tab or the energy cost. Will divide into 4 tabs. The first aid energy plant, rich in pendulum lag, constitute

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Jingying FU: the second.

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Jingying FU: tab, as the energy, rich in

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Jingying FU: carbon hydrates high in sugar, starch and fee fibre the third tab is the oil risk, as you plant, and the third the fourth is the energy plants for charcoal.

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Jingying FU: On this the energy plans we have started just at the sweet Socom. It's reached in the suite, and the cassava is the starch, and this is the percent potato, Chinese sweet grass, the 2 of our crocos l.

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Jingying FU: And is for

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Jingying FU: rich in oil.

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Jingying FU: If we want to use the annual plant, our development, develop the energy plant for Belle fuel in China we should, to use the margin of land. This will can't compete with the farmland or gale, this

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Jingying FU: stretching to the food, so marginal land is the first step we should we should do. The marginal land is evaluate in the terms of a cost or benefit analyst, and is a economically marginal. In China the maginal land is the land that can be used for growing energy plans as with land or just as

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Jingying FU: spice, forest, grassland the bottom land Chilan and the Bearland.

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Jingying FU: And here is the question, how to evaluate the boundary potential on marginal land. The first step we need to to extract the marginal land special spatial distribution. And the second step we should evaluate the benefits of the energy production on the management land.

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Jingying FU: So the first step is the is how to evaluate the marginal and the resources.

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Jingying FU: in the past. Studies, we used to method to extract the marginal land resources. The first method at the machine learning we used Brt model frame and use the data set the high resolution, global grid environment and the land use retail related.

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Jingying FU: We use the the

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Jingying FU: cassava as

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Jingying FU: Andrew!

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Jingying FU: Angie plant!

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Jingying FU: And a comprehensively set of the known locations of cassava and set our pursuio absin absence point that represents the unsuitable areas for cassava girls. We. This is the

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Jingying FU: through chat of the

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Jingying FU: the

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Jingying FU: for the flow chat of the cassava in the world wide. What? Where, is suitable, and where is unsuitable for cassava promote. So the

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Jingying FU: this is the record of the occurrence, and the procedural absence records. And we use the

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Jingying FU: examples examples. And these are the environmental data sets.

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Jingying FU: Data says, we knew we used

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Jingying FU: and we use the Brt model to extract the

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Jingying FU: where is the cassava and suitable to plant? And where is the

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Jingying FU: and suitable? The result is from 0 to one.

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Jingying FU: And one is the

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Jingying FU: high suitable, and 0 is not suitable for cassowary in the world, and we will say the Kazab Kazawa in in China, most in the south west of China in Guangdong, because is

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Jingying FU: I think, is the high temperature and the presentation

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Jingying FU: this is the result. The land cover, and the annual

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Jingying FU: cumulative present page tissue are the 2 most influential factors in the Brt model.

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Jingying FU: The rate of contribution contribution of the former is

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Jingying FU: 46%, and that of the letter is

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Jingying FU: 35%. The marginal

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Jingying FU: land area suitable focus. Our world was

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Jingying FU: Africa has the largest marginal land suitable, and then followed by the South Africa. Asa is the

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Jingying FU: the is about 138 meeting hackers

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Jingying FU: actually, as a country it it had

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Jingying FU: last. Our last area brought

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Jingying FU: larger than is a.

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Jingying FU: The second method we use is the multi factors assessment matter. This is a traditional method that we can.

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Jingying FU: We can explain the the Max

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Jingying FU: clearly, we use the land use as the basic data. And DM, temperature moisture on the soil, and we attract the relative intenses.

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Jingying FU: the multi factors in integrated assessment. The math method is used here. Besides, the basic data set we use the nature reserves the nature pressures. We, we used as the policy limiting factor factors that can't be. That's the areas can't be used and then we

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Jingying FU: we use the energy plant carry risks

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Jingying FU: and

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Jingying FU: the temperature and the presentation and the

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Jingying FU: and the

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Jingying FU: in tiring.

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Jingying FU: and

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00:33:37.510 --> 00:33:39.919
Jingying FU: where the energy plant

195
00:33:40.460 --> 00:33:44.218
Jingying FU: suitable to suitable to

196
00:33:45.320 --> 00:33:58.560
Jingying FU: grow. And this the growing conditions of typical energy crops. This is the sweet sock sock crumb, and these are useful few ethanol.

197
00:33:59.150 --> 00:34:01.660
Jingying FU: and this is beautiful.

198
00:34:01.840 --> 00:34:03.000
Jingying FU: and

199
00:34:04.025 --> 00:34:04.610
Jingying FU: feel

200
00:34:05.240 --> 00:34:07.910
Jingying FU: the liquid bell fuel.

201
00:34:07.970 --> 00:34:16.780
Jingying FU: This as the distribution of the marginal land in China from different decades, and this and

202
00:34:17.520 --> 00:34:27.409
Jingying FU: the 4 different, and the crops, the crops on the marginal land where they they suitable to plant.

203
00:34:27.440 --> 00:34:31.019
Jingying FU: And this is a data set we

204
00:34:31.420 --> 00:34:34.480
Jingying FU: is tracked in as a area.

205
00:34:37.739 --> 00:34:52.060
Jingying FU: after we we have the marginal land and the energy corps where they can be grow. We use the cropping the the

206
00:34:52.639 --> 00:34:55.719
Jingying FU: A copy model to

207
00:34:55.780 --> 00:35:04.010
Jingying FU: the Gs method to to simulation, the crop yield, and this

208
00:35:07.660 --> 00:35:18.920
Jingying FU: we use the the crop, the crop growing models just as G epic model and the Epc. Model and the descent model.

209
00:35:19.290 --> 00:35:30.750
Jingying FU: And in these models they are set. They are set model in 1 point, so we use the active method to to.

210
00:35:31.390 --> 00:35:32.350
Jingying FU: to

211
00:35:32.930 --> 00:35:35.280
Jingying FU: to A

212
00:35:35.290 --> 00:35:42.640
Jingying FU: in in reach the design, the set model to the spatial skill.

213
00:35:46.855 --> 00:36:02.620
Jingying FU: Based on the method of Gs and the crop growing models. And we estimate the the type typical crop energy crop energy plant

214
00:36:02.670 --> 00:36:10.980
Jingying FU: the production in different area. This is the distribution of different Angie plant.

215
00:36:11.010 --> 00:36:12.479
Jingying FU: and they

216
00:36:12.970 --> 00:36:15.850
Jingying FU: we also simulation the

217
00:36:16.230 --> 00:36:21.120
Jingying FU: the ring condition and irrigated conditions.

218
00:36:22.116 --> 00:36:34.759
Jingying FU: We also did some work on the spatial land sets at the Shannon Akron line in Shandong Domain. It's a very typical Shannon and Akron area.

219
00:36:36.860 --> 00:36:45.090
Jingying FU: This third section is about the life cycle assessment of the the

220
00:36:45.890 --> 00:37:07.700
Jingying FU: and the bell field production and the Lca assment is a technique to use to assess the environmental impacts, associate with all the stages of the products live from cradle to group as of it includes

221
00:37:07.820 --> 00:37:13.600
Jingying FU: steps of including the goal on the spoke scope, definition

222
00:37:13.680 --> 00:37:24.919
Jingying FU: and inventory analysis analyzes impact assessment, the results in the and the report in and Critical review.

223
00:37:25.950 --> 00:37:27.323
Jingying FU: There's a

224
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Jingying FU: as oh.

225
00:37:30.810 --> 00:37:32.060
Jingying FU: principles

226
00:37:33.150 --> 00:37:39.839
Jingying FU: and a typical I'll I'll see a model is the grade model is

227
00:37:40.080 --> 00:37:41.930
Jingying FU: as Mmm.

228
00:37:43.360 --> 00:37:44.940
Jingying FU: The outgoing.

229
00:37:45.310 --> 00:37:48.662
Jingying FU: the Icon National Laboratory.

230
00:37:49.750 --> 00:37:50.510
Jingying FU: study

231
00:37:51.980 --> 00:37:56.363
Jingying FU: the great, the great model, I think.

232
00:37:57.130 --> 00:38:20.010
Jingying FU: the the researchers in the energy research will use this model frequently it has the data about the greenhouse, the greenhouse gas emissions, the regulated amazing, the energy use few economic and the air pollute emissions

233
00:38:20.260 --> 00:38:21.892
Jingying FU: on this edge.

234
00:38:23.659 --> 00:38:40.129
Jingying FU: very good database that's we that can provide, and that can provide many prior parameters. And it's public for all the I open for the public

235
00:38:41.153 --> 00:38:42.140
Jingying FU: for the

236
00:38:42.570 --> 00:38:46.338
Jingying FU: life cycle of the Bell Field Bell Field.

237
00:38:47.540 --> 00:38:49.089
Jingying FU: where you can't be

238
00:38:49.290 --> 00:39:05.179
Jingying FU: established. Our own system is includes the crop cultivation unit and the the production unit and the using and the recycling unit.

239
00:39:05.460 --> 00:39:06.340
Jingying FU: And

240
00:39:07.070 --> 00:39:33.079
Jingying FU: among this we need to transport the the, the transport. To transport the the resources and transport the production. So this is the system boundary of the bell fuel, and that will, along with the energy and the economy and the carbon oxygen emission.

241
00:39:34.010 --> 00:39:34.755
Jingying FU: So

242
00:39:35.700 --> 00:39:57.728
Jingying FU: based on the based on the system we establish the model of the energy efficiency analysis. And we use the net energy, good and perimeter, to to evaluate if the input audit is is

243
00:39:58.959 --> 00:40:02.551
Jingying FU: if we can have a good a effect.

244
00:40:03.620 --> 00:40:14.159
Jingying FU: and this is the spatial distribution of the energy or the atnet energy potential of different, of different

245
00:40:14.220 --> 00:40:15.660
Jingying FU: energy plans.

246
00:40:15.970 --> 00:40:18.440
Jingying FU: And this is the

247
00:40:19.360 --> 00:40:20.869
Jingying FU: and we we.

248
00:40:21.270 --> 00:40:24.179
Jingying FU: the case study in the

249
00:40:24.330 --> 00:40:38.926
Jingying FU: shantong doing. And we also did the environmental impact analysis according to the Iso princess. And if and also the

250
00:40:40.240 --> 00:40:41.690
Jingying FU: the carbon

251
00:40:42.512 --> 00:40:47.090
Jingying FU: carbon oxygen balance model.

252
00:40:47.240 --> 00:40:55.120
Jingying FU: And this is the distribution, the distribution of the net energy and the carbon emissions.

253
00:40:55.220 --> 00:41:02.239
Jingying FU: and also the E environmental effects I didn't find present. The maps

254
00:41:02.360 --> 00:41:03.240
Jingying FU: are.

255
00:41:03.490 --> 00:41:15.399
Jingying FU: The third section is the water footprint of the Bellefuel within the the Lc. A. O Belle fuel system. We

256
00:41:16.240 --> 00:41:24.270
Jingying FU: analysis the water use in the stage of energy crop growth and the transport.

257
00:41:24.310 --> 00:41:25.400
Jingying FU: and

258
00:41:26.020 --> 00:41:30.219
Jingying FU: the production, the production space and the

259
00:41:30.350 --> 00:41:35.339
Jingying FU: the production transportation and the utilization stage.

260
00:41:35.480 --> 00:41:37.339
Jingying FU: We use the

261
00:41:38.560 --> 00:41:56.790
Jingying FU: we use the Pn and to measure the the supply under the month we. This is the total water requirement a day of feel as no from the sweet telecom. And we we

262
00:41:57.470 --> 00:42:01.660
Jingying FU: evaluates the total water, the total water

263
00:42:03.240 --> 00:42:06.990
Jingying FU: supply and the requirement requirement.

264
00:42:07.010 --> 00:42:11.379
Jingying FU: and we also evaluate the in the

265
00:42:14.540 --> 00:42:33.640
Jingying FU: reverbations within the rear vision we evaluate the the water, the water supply, and the water requirement during the Angi plant production, and and also the

266
00:42:33.730 --> 00:42:36.299
Jingying FU: water requirements of the

267
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Jingying FU: good.

268
00:42:39.870 --> 00:42:41.510
Jingying FU: the

269
00:42:42.202 --> 00:42:49.120
Jingying FU: the the requirement of the local use, such as the industry and the

270
00:42:50.540 --> 00:42:51.520
Jingying FU: Levi.

271
00:42:52.610 --> 00:43:00.750
Jingying FU: so we, from the results we can find that in the the red one, the red point.

272
00:43:01.265 --> 00:43:23.434
Jingying FU: The what the p is 0 in less than 0, which means the water demand is higher than the participation in those areas, especially in the this is a high high River and the low Leo River and

273
00:43:24.380 --> 00:43:26.990
Jingying FU: Yah River, and this is the

274
00:43:27.180 --> 00:43:36.129
Jingying FU: northwestern China River. Visions which are not suitable for energy prompt, which will stretch in the

275
00:43:37.170 --> 00:43:38.030
Jingying FU: water

276
00:43:38.520 --> 00:43:41.490
Jingying FU: safety in the local areas.

277
00:43:43.210 --> 00:43:49.960
Jingying FU: On the last part. The first part is the application of well, mass.

278
00:43:51.590 --> 00:43:59.969
Jingying FU: I want to share 3 applications. We have this use, the

279
00:44:00.890 --> 00:44:08.800
Jingying FU: study basics, we we, we date in less than a few years

280
00:44:09.490 --> 00:44:21.809
Jingying FU: the first one is the benefit analyst or multi approach bell, mass. Hungary utilization. Now, this is the comprehensive bionet biology

281
00:44:23.021 --> 00:44:28.230
Jingying FU: accounting model. In this study, we

282
00:44:28.420 --> 00:44:31.899
Jingying FU: and and analyzes the all the

283
00:44:31.930 --> 00:44:39.480
Jingying FU: bell mass resources. In the left side we can see the

284
00:44:40.550 --> 00:44:45.000
Jingying FU: organic organic beast and the

285
00:44:45.050 --> 00:45:10.829
Jingying FU: energy plans. And this is the bell mass resources. And we consider the the different using method of the biomass, such as from from mentation and the combustion and the bell Energy and electric and the

286
00:45:11.020 --> 00:45:20.570
Jingying FU: bell gas different method that we can be can use. And the red side is the

287
00:45:22.061 --> 00:45:41.579
Jingying FU: final products. Products. We think just at the bell, electric bell gas the solid bell fields, liquid bell fuels belt, and we. This is a comprehensive handset beyond accounting model.

288
00:45:41.590 --> 00:45:43.920
Jingying FU: and on the way

289
00:45:44.080 --> 00:45:45.580
Jingying FU: use the

290
00:45:45.630 --> 00:45:46.930
Jingying FU: spatial

291
00:45:47.070 --> 00:45:48.620
Jingying FU: and even

292
00:45:48.710 --> 00:46:00.640
Jingying FU: spatial information technology, the life cycle assessment and the multi path analysis. And then we

293
00:46:00.800 --> 00:46:02.919
Jingying FU: evaluate all the

294
00:46:03.080 --> 00:46:04.770
Jingying FU: stages

295
00:46:04.840 --> 00:46:05.860
Jingying FU: and the

296
00:46:07.690 --> 00:46:08.565
Jingying FU: comprehensive

297
00:46:09.880 --> 00:46:11.620
Jingying FU: carbon emission

298
00:46:13.320 --> 00:46:14.420
Jingying FU: removal.

299
00:46:14.860 --> 00:46:16.640
Jingying FU: the potential.

300
00:46:17.790 --> 00:46:20.740
Jingying FU: the potential of all the

301
00:46:20.830 --> 00:46:22.350
Jingying FU: all the

302
00:46:22.760 --> 00:46:24.960
Jingying FU: uses. Massers.

303
00:46:27.090 --> 00:46:37.050
Jingying FU: this. This is the different production that can be obtained from the different bell mass of different areas

304
00:46:38.006 --> 00:46:44.793
Jingying FU: including the bell, electricity, bell gas bell Diesel, ethno, and

305
00:46:46.250 --> 00:46:53.865
Jingying FU: that's that's fair solid bell, fuel, hydrogen, and belcha. And this is the different

306
00:46:54.720 --> 00:46:59.020
Jingying FU: the structure in different areas.

307
00:47:03.120 --> 00:47:10.540
Jingying FU: On the second, a, the second application is about Cb, U Ccs. Maybe the

308
00:47:14.200 --> 00:47:20.850
Jingying FU: you hear about Ccs more, and the bill is the

309
00:47:20.890 --> 00:47:33.050
Jingying FU: we use the bell mass to combine with the Ccs system Cb Ccs. As the brief of the

310
00:47:33.070 --> 00:47:38.459
Jingying FU: cobalt mass Co. Firing power plants with retrieve

311
00:47:38.630 --> 00:47:45.220
Jingying FU: retrofit carbon capture and the storage. We!

312
00:47:45.320 --> 00:47:47.699
Jingying FU: This is the

313
00:47:47.840 --> 00:47:53.610
Jingying FU: comprehensive assessment framework of the Cb. Css. System.

314
00:47:58.700 --> 00:48:07.180
Jingying FU: in this frame the first part is the bell mass resulted potential assessment. In this.

315
00:48:07.280 --> 00:48:23.460
Jingying FU: In this model model we evaluate the bell mass production and the the land resources and the initial bell mass production and the initial field.

316
00:48:25.231 --> 00:48:34.610
Jingying FU: We focused the the data from 2,020 to 2,000 2,060

317
00:48:35.207 --> 00:48:38.042
Jingying FU: and we use the avenue

318
00:48:38.920 --> 00:48:44.000
Jingying FU: data to simulation the whole, the whole process.

319
00:48:44.050 --> 00:48:45.260
Jingying FU: And and

320
00:48:45.690 --> 00:48:56.360
Jingying FU: we use the biomass resources as a basis. And we use the G as method to match

321
00:48:57.160 --> 00:49:06.419
Jingying FU: the first step. We use the the bell mass to match with the existing Co. Firing power plants.

322
00:49:08.950 --> 00:49:11.480
Jingying FU: and in order to

323
00:49:11.680 --> 00:49:13.250
Jingying FU: reduce the

324
00:49:13.340 --> 00:49:21.066
Jingying FU: carbon, the carbon oxygen emission in coal fare, coal fired power plants.

325
00:49:21.900 --> 00:49:23.920
Jingying FU: 55,

326
00:49:24.130 --> 00:49:32.409
Jingying FU: 15% of the bell mass can be add to the co-founded power plants.

327
00:49:32.470 --> 00:49:37.720
Jingying FU: And this is the first, the first step we we

328
00:49:38.010 --> 00:49:46.489
Jingying FU: when the biomass mixed with the coal, fared Powerpoint, and we

329
00:49:47.162 --> 00:49:50.419
Jingying FU: the second is, we match the

330
00:49:51.661 --> 00:49:56.770
Jingying FU: the left car carbon, oxygen emissions.

331
00:49:56.780 --> 00:49:58.610
Jingying FU: We used the

332
00:49:59.120 --> 00:50:01.939
Jingying FU: we used the the

333
00:50:02.140 --> 00:50:04.240
Jingying FU: sourcing and

334
00:50:04.400 --> 00:50:15.360
Jingying FU: the sauce think that can storage, and the capture and storage to the emissions. So we.

335
00:50:15.730 --> 00:50:19.239
Jingying FU: the second step is the

336
00:50:20.992 --> 00:50:36.930
Jingying FU: the the carbon oxygen emissions with to match the the sourcing areas. This is the geographic geographical

337
00:50:37.200 --> 00:50:38.630
Jingying FU: locals.

338
00:50:41.430 --> 00:50:43.360
Jingying FU: before they

339
00:50:43.690 --> 00:50:49.272
Jingying FU: hmm. Besides this, we use the CE model to

340
00:50:50.180 --> 00:50:51.240
Jingying FU: to

341
00:50:52.300 --> 00:51:02.650
Jingying FU: and to focus the carbon emissions on the power consumption, the energy consumption and the mitigations cost

342
00:51:03.381 --> 00:51:10.500
Jingying FU: this can be added to the power system optimization model.

343
00:51:10.990 --> 00:51:14.010
Jingying FU: And in this model we can

344
00:51:14.791 --> 00:51:24.050
Jingying FU: we can analyze the the cost and the the capsic, the capsule of the

345
00:51:24.925 --> 00:51:25.770
Jingying FU: the

346
00:51:31.490 --> 00:51:33.940
Jingying FU: the cavity, and the

347
00:51:34.910 --> 00:51:35.950
Jingying FU: the

348
00:51:36.830 --> 00:51:38.250
Jingying FU: all the

349
00:51:38.510 --> 00:51:47.784
Jingying FU: different different cost of the of the whole system, and we add the cost to the

350
00:51:48.370 --> 00:51:52.343
Jingying FU: frame of the cbee Ccs. And this is

351
00:51:54.076 --> 00:51:56.463
Jingying FU: the whole, the whole

352
00:51:57.110 --> 00:51:58.290
Jingying FU: framework.

353
00:51:58.330 --> 00:52:03.079
Jingying FU: and it does it. This is the first step the

354
00:52:03.100 --> 00:52:15.219
Jingying FU: the bell mass resources we saw to evaluate. How much how much bell mice can be available for for

355
00:52:16.960 --> 00:52:20.709
Jingying FU: For mixed or match. This is the

356
00:52:21.357 --> 00:52:25.122
Jingying FU: distribution of the bell mass

357
00:52:26.950 --> 00:52:33.269
Jingying FU: including the agriculture, residue, forest residue and energy crops

358
00:52:33.450 --> 00:52:41.019
Jingying FU: and the green points are the CD plants that can be matched

359
00:52:41.482 --> 00:52:45.100
Jingying FU: with the bell mass and the power, the

360
00:52:45.120 --> 00:52:46.340
Jingying FU: coal Fab

361
00:52:46.630 --> 00:52:48.189
Jingying FU: power plans.

362
00:52:50.570 --> 00:52:51.970
Jingying FU: the

363
00:52:52.140 --> 00:53:01.089
Jingying FU: gray points are the Co. Fare power plans which can't be matched. This is the

364
00:53:01.200 --> 00:53:02.530
Jingying FU: and

365
00:53:02.930 --> 00:53:13.987
Jingying FU: the shadow. The shadow is the places that can be inject the the inject, the carbon oxygen

366
00:53:15.550 --> 00:53:21.670
Jingying FU: So so we used. So we need to match the bell mass

367
00:53:22.200 --> 00:53:27.120
Jingying FU: and the Co. Fare plan and power plans and the

368
00:53:27.130 --> 00:53:35.580
Jingying FU: in chat places that can be used at the storage places.

369
00:53:43.238 --> 00:53:51.410
Jingying FU: this is the the map, the figure that we can see how we can, how we match the

370
00:53:51.430 --> 00:53:57.720
Jingying FU: the bell mess with the co-found power plants on the

371
00:53:57.780 --> 00:53:58.840
Jingying FU: the

372
00:53:59.960 --> 00:54:09.789
Jingying FU: dark gray bar is the total number of the power pound power plants.

373
00:54:09.860 --> 00:54:16.270
Jingying FU: and we only considered the installed cap setting

374
00:54:17.480 --> 00:54:20.896
Jingying FU: Larger than 300 tower.

375
00:54:21.930 --> 00:54:23.160
Jingying FU: joa

376
00:54:23.760 --> 00:54:24.670
Jingying FU: day

377
00:54:25.853 --> 00:54:27.060
Jingying FU: and the

378
00:54:27.500 --> 00:54:30.440
Jingying FU: so this is the the

379
00:54:30.510 --> 00:54:34.819
Jingying FU: the total number we can use, though, is only

380
00:54:35.410 --> 00:54:40.550
Jingying FU: 5, 598.

381
00:54:42.160 --> 00:54:56.570
Jingying FU: And this is the We. We have the conditions conditions that the rest, your life of the power plants should be larger than 15 years. So, and

382
00:54:56.600 --> 00:54:57.640
Jingying FU: file

383
00:54:57.810 --> 00:55:02.449
Jingying FU: power plant will be removed. And we

384
00:55:03.020 --> 00:55:05.390
Jingying FU: we need to.

385
00:55:05.440 --> 00:55:10.249
Jingying FU: We need the power. Power plans can be matched with the

386
00:55:10.260 --> 00:55:16.459
Jingying FU: bell mass. If they can't be matched with the bell. Mass. Hmm!

387
00:55:17.120 --> 00:55:18.870
Jingying FU: The 46,

388
00:55:19.610 --> 00:55:25.960
Jingying FU: 46 power plans will be removed and the sorry

389
00:55:26.616 --> 00:55:27.123
Jingying FU: the

390
00:55:30.710 --> 00:55:39.520
Jingying FU: this is the accessible storage. Assess. The story set is the shadow areas and the

391
00:55:39.560 --> 00:55:41.073
Jingying FU: the transport.

392
00:55:41.910 --> 00:55:52.330
Jingying FU: pipeline, the the distance will is within 2,250 kilometer. So

393
00:55:53.130 --> 00:56:02.092
Jingying FU: 102 power plans will be removed, and this is with the pipeline network. If the

394
00:56:02.660 --> 00:56:04.590
Jingying FU: the cost of the

395
00:56:05.600 --> 00:56:13.010
Jingying FU: traffic is much, we can use the pipeline network. If the

396
00:56:13.170 --> 00:56:18.499
Jingying FU: pipeline network can't be used, it will be removed. So

397
00:56:18.550 --> 00:56:23.229
Jingying FU: there's there's 100 and

398
00:56:23.870 --> 00:56:28.799
Jingying FU: well sorry. 1,000 832

399
00:56:29.686 --> 00:56:44.710
Jingying FU: power prompt in total. Finally, 250 file power prompts can be used for the Cb Cbe Ccs frame. So this is in

400
00:56:44.870 --> 00:56:55.289
Jingying FU: this is the number in 2,000 and 25 and 260, 77 in

401
00:56:55.390 --> 00:56:57.900
Jingying FU: 2,030.

402
00:56:59.590 --> 00:57:00.490
Jingying FU: And

403
00:57:01.040 --> 00:57:01.970
Jingying FU: so

404
00:57:02.400 --> 00:57:09.030
Jingying FU: so the the final results we we we

405
00:57:09.220 --> 00:57:13.720
Jingying FU: calculated is the the purple brass.

406
00:57:14.680 --> 00:57:21.449
Jingying FU: the the potential of the purple bus that we calculate. We calculate it

407
00:57:21.590 --> 00:57:31.330
Jingying FU: so from the result. The funding we call. We can see it with various deployment scenarios.

408
00:57:33.108 --> 00:57:48.460
Jingying FU: We can attribute our annual carbon, oxygen emission reduction potential of 0 point 1 4 7 9 4 3 to 1.1 3 gt. Per year

409
00:57:50.175 --> 00:57:50.910
Jingying FU: I

410
00:57:51.210 --> 00:57:52.360
Jingying FU: Sd.

411
00:57:54.430 --> 00:57:57.340
Jingying FU: At the total

412
00:57:57.390 --> 00:57:58.440
Jingying FU: come

413
00:57:58.540 --> 00:58:00.400
Jingying FU: contributions

414
00:58:00.690 --> 00:58:01.940
Jingying FU: a.

415
00:58:02.390 --> 00:58:05.390
Jingying FU: It will. The

416
00:58:05.750 --> 00:58:11.130
Jingying FU: the kind, the total contributions is as large. E, 2.

417
00:58:12.180 --> 00:58:15.020
Jingying FU: To achieve the

418
00:58:15.230 --> 00:58:20.940
Jingying FU: net emission in the cofiring section

419
00:58:21.703 --> 00:58:39.199
Jingying FU: the mix. The mixed ratio here is the 15%. If the upper bile mass mixing result is increased to 30% and additional 113

420
00:58:39.400 --> 00:58:46.730
Jingying FU: empty per year of the supply and will be achieved.

421
00:58:47.890 --> 00:58:50.809
Jingying FU: So this is the the

422
00:58:51.230 --> 00:58:58.009
Jingying FU: regards. And we published a paper paper A on the Ncc.

423
00:58:58.692 --> 00:59:06.537
Jingying FU: The third one is the third. One of the Upc. Application is the update migration

424
00:59:07.240 --> 00:59:10.590
Jingying FU: supply chain for biology production.

425
00:59:10.680 --> 00:59:11.700
Jingying FU: On

426
00:59:11.940 --> 00:59:15.850
Jingying FU: in this frame. We we

427
00:59:16.570 --> 00:59:18.944
Jingying FU: we did the walk to

428
00:59:19.490 --> 00:59:22.929
Jingying FU: because we we

429
00:59:23.690 --> 00:59:31.780
Jingying FU: we did a lot of work on the simulation of the crop. Yield, and

430
00:59:31.840 --> 00:59:34.569
Jingying FU: hmm! We didn't. We used a

431
00:59:34.900 --> 00:59:46.320
Jingying FU: We. We use the bell field. We should. We should use the supply chain. If it is a if

432
00:59:47.892 --> 00:59:58.430
Jingying FU: the cost or the angry, or the environmental effect is good enough. So we

433
00:59:58.900 --> 01:00:10.419
Jingying FU: we develop a method to to evaluate the effect of the whole supply chain. The first step we

434
01:00:10.580 --> 01:00:13.020
Jingying FU: we start we

435
01:00:13.170 --> 01:00:14.639
Jingying FU: does does

436
01:00:14.780 --> 01:00:30.818
Jingying FU: special distribution of the crop. The yield of the angry crop was simulation and simulated, and we based on the distribution of the yield. We

437
01:00:32.400 --> 01:00:43.219
Jingying FU: selected the raw material pursuit procurement stations, and then we select. We selected the

438
01:00:43.700 --> 01:00:50.540
Jingying FU: the. It's the asthma processing plan set, and finally, we

439
01:00:51.806 --> 01:00:53.639
Jingying FU: can't we

440
01:00:53.730 --> 01:01:01.833
Jingying FU: evaluate the benefits of the supply the supply chain the first step we use the

441
01:01:02.330 --> 01:01:06.230
Jingying FU: decide model, and the gis to

442
01:01:06.540 --> 01:01:10.929
Jingying FU: is to is is tape.

443
01:01:11.110 --> 01:01:15.849
Jingying FU: Estimate the visual distribution of sweet Salcom yield.

444
01:01:17.070 --> 01:01:19.980
Jingying FU: and then we use the the Tyson

445
01:01:20.510 --> 01:01:31.411
Jingying FU: poly college polygon segment segmentation to selected the raw material procurement stations.

446
01:01:32.800 --> 01:01:36.009
Jingying FU: And we also did the sensitive analysis.

447
01:01:36.472 --> 01:01:41.120
Jingying FU: And we found that this is the number, all the the

448
01:01:41.280 --> 01:01:45.980
Jingying FU: fit. The station is 100,

449
01:01:46.610 --> 01:01:51.639
Jingying FU: when the station number is 100, and the

450
01:01:51.920 --> 01:01:56.059
Jingying FU: cost and carbon emissions will will low.

451
01:01:59.950 --> 01:02:05.729
Jingying FU: And when we got the real material station, then we

452
01:02:05.870 --> 01:02:13.849
Jingying FU: selected the ethanol processing prolonged site. In this step we consider the

453
01:02:14.230 --> 01:02:16.070
Jingying FU: on the

454
01:02:16.330 --> 01:02:20.479
Jingying FU: conditions, such as the existing plans

455
01:02:20.560 --> 01:02:34.091
Jingying FU: and the bell mass distribution and other conditions. And this is the candidate candidate locations of the asthma processing plans.

456
01:02:36.530 --> 01:02:38.910
Jingying FU: And at the last we

457
01:02:39.290 --> 01:02:44.309
Jingying FU: he! We is teammate and simulate the

458
01:02:45.190 --> 01:02:49.759
Jingying FU: the cost, the cost, and the carbon

459
01:02:51.510 --> 01:02:53.709
Jingying FU: carbon, oxygen, emission

460
01:02:54.450 --> 01:03:00.959
Jingying FU: potential during the the whole whole supply chain.

461
01:03:01.518 --> 01:03:05.010
Jingying FU: We found that the OP, the optimal.

462
01:03:05.450 --> 01:03:16.390
Jingying FU: This is the optimal optimal supply network from the raw material purchasing station to the to the asthma processing plant.

463
01:03:17.110 --> 01:03:19.690
Jingying FU: This is under the

464
01:03:19.870 --> 01:03:26.750
Jingying FU: economic optimization, and this is the supply chain from the

465
01:03:27.920 --> 01:03:38.229
Jingying FU: as no processing plant to the to the distribution center, then this also under the economic update of the

466
01:03:38.500 --> 01:03:42.680
Jingying FU: musician. And the this is the

467
01:03:43.690 --> 01:03:47.540
Jingying FU: this is under the optimization

468
01:03:47.560 --> 01:03:50.640
Jingying FU: of environmental, and this

469
01:03:50.710 --> 01:03:57.522
Jingying FU: from raw material to as no processing prompt. And this is the

470
01:04:00.184 --> 01:04:09.436
Jingying FU: the as no processing plans to the distribution center and the use stage under the environmental optimization.

471
01:04:13.022 --> 01:04:24.760
Jingying FU: During the whole process we use a multi objective mixed, integral, linear programming model

472
01:04:25.550 --> 01:04:34.370
Jingying FU: based on the minimum minimization of the cost and the minimal minimization of

473
01:04:36.630 --> 01:04:44.250
Jingying FU: environmental impacts. And in the touch path states, we call, we consider the

474
01:04:44.340 --> 01:04:46.070
Jingying FU: wrote all the

475
01:04:46.250 --> 01:04:48.730
Jingying FU: train transport method

476
01:04:53.284 --> 01:05:01.910
Jingying FU: this is the incentive analysis of the raw material at the no demand and the transportation mode

477
01:05:04.060 --> 01:05:05.200
Jingying FU: the

478
01:05:05.450 --> 01:05:08.600
Jingying FU: the research we published a

479
01:05:08.860 --> 01:05:10.539
Jingying FU: and not Parker, you know.

480
01:05:11.626 --> 01:05:12.839
Jingying FU: Maybe later

481
01:05:13.100 --> 01:05:17.600
Jingying FU: on, the innovation, energy. And

482
01:05:17.690 --> 01:05:21.280
Jingying FU: and this this is also a new.

483
01:05:21.330 --> 01:05:22.590
Jingying FU: I'm journal.

484
01:05:22.810 --> 01:05:26.389
Jingying FU: Welcome other publications.

485
01:05:28.140 --> 01:05:35.996
Jingying FU: I don't speak English frequently so. I'm really sorry for my speaking English, and

486
01:05:37.860 --> 01:05:41.829
Jingying FU: that's my sharing. Thank you.

487
01:05:43.400 --> 01:05:50.719
Jun Li-CUMTB: Oh, thank you, Professor Fu, thank you very much for this excellent presentation.

488
01:05:51.130 --> 01:05:55.179
Jun Li-CUMTB: No, we come to a Q&A session.

489
01:05:55.370 --> 01:06:00.620
Jun Li-CUMTB: So just unmute yourself and raise your questions.

490
01:06:04.970 --> 01:06:06.830
Jun Li-CUMTB: Is there any question

491
01:06:07.670 --> 01:06:08.830
Jun Li-CUMTB: anybody.

492
01:06:11.190 --> 01:06:12.839
Xuelian Meng: Maybe I will ask one.

493
01:06:14.310 --> 01:06:15.460
Xuelian Meng: Hello! Can you hear me?

494
01:06:15.560 --> 01:06:16.529
Jingying FU: Oh, hello! Again!

495
01:06:16.530 --> 01:06:17.939
Jun Li-CUMTB: Yeah. Yeah. Philadelphia.

496
01:06:17.940 --> 01:06:18.370
Jingying FU: Thank you.

497
01:06:18.370 --> 01:06:24.649
Xuelian Meng: Okay. First, I'm not. Thanks for your presentation. And I'm not in your field.

498
01:06:25.010 --> 01:06:37.189
Xuelian Meng: So may not be that much familiar with the specific methods. And so I saw you have a lot of large scale mapping so in general, how how in your field

499
01:06:38.000 --> 01:06:43.590
Xuelian Meng: how do people deal with verification of the accuracy of the mapping or prediction.

500
01:06:48.290 --> 01:06:53.819
Xuelian Meng: Cause. My background is in remote sensing. So a lot of time, we we need to do

501
01:06:54.100 --> 01:06:55.570
Xuelian Meng: accuracy assessment.

502
01:06:55.610 --> 01:06:59.479
Xuelian Meng: So in your field, how people handle that part.

503
01:07:05.225 --> 01:07:09.950
Jingying FU: Sorry I didn't got got your your

504
01:07:10.340 --> 01:07:12.980
Jingying FU: part and use.

505
01:07:14.270 --> 01:07:15.450
Jingying FU: You've said.

506
01:07:15.785 --> 01:07:17.125
Xuelian Meng: Okay? So what I?

507
01:07:18.290 --> 01:07:24.360
Xuelian Meng: So my question is that I saw you have a lot of accent mapping for very large scale.

508
01:07:25.540 --> 01:07:26.510
Xuelian Meng: How.

509
01:07:26.510 --> 01:07:27.140
Jingying FU: Yeah.

510
01:07:28.652 --> 01:07:34.000
Xuelian Meng: So that's the result of the mapping or the modeling. But then, how?

511
01:07:35.780 --> 01:07:42.789
Xuelian Meng: How do we know how reliable is the result? So in your field? Are there usually certain

512
01:07:43.110 --> 01:07:44.450
Xuelian Meng: assessment.

513
01:07:45.450 --> 01:07:48.200
Jingying FU: To. Okay. Okay. I forgot.

514
01:07:48.423 --> 01:07:48.646
Xuelian Meng: Too!

515
01:07:49.456 --> 01:07:50.043
Jingying FU: Kaiser.

516
01:07:51.600 --> 01:07:53.630
Jingying FU: oh, okay.

517
01:07:55.745 --> 01:07:59.899
Jingying FU: I, I will take this slide as a example.

518
01:08:00.330 --> 01:08:23.380
Jingying FU: And G epic model is also a set model and some some people they set work in a specific set or area. And if we want to, we want to. Use the model to in our last area, we through to we.

519
01:08:23.399 --> 01:08:25.600
Jingying FU: We use the method like,

520
01:08:26.439 --> 01:08:27.630
Jingying FU: a beep

521
01:08:28.100 --> 01:08:30.490
Jingying FU: in you, you, you, you.

522
01:08:30.500 --> 01:08:35.029
Jingying FU: you in the research of a remote sensing. You know the raster

523
01:08:35.620 --> 01:08:36.665
Jingying FU: raster

524
01:08:37.830 --> 01:08:40.400
Jingying FU: at the grid. We

525
01:08:40.420 --> 01:08:49.239
Jingying FU: we use the method. And like we, we take our reset as one line or one. Hmm.

526
01:08:49.850 --> 01:08:59.909
Jingying FU: pine. We we use the night we are on that of the one kilometer or 5 kilometer.

527
01:08:59.930 --> 01:09:09.410
Jingying FU: We one grade we can take one grade as the as the set. So we we

528
01:09:09.550 --> 01:09:11.183
Jingying FU: process the

529
01:09:12.500 --> 01:09:22.310
Jingying FU: the input data to the restaurant, the restaurant format. And we. We

530
01:09:22.740 --> 01:09:26.169
Jingying FU: use the the set model

531
01:09:26.300 --> 01:09:29.319
Jingying FU: in every in every grade.

532
01:09:31.790 --> 01:09:35.889
Jingying FU: This is the method that we realized the process.

533
01:09:36.290 --> 01:09:38.381
Jingying FU: I I I don't know if you

534
01:09:38.950 --> 01:09:40.160
Jingying FU: that's why.

535
01:09:42.520 --> 01:09:58.650
Jun Li-CUMTB: Okay, I think, to, the time is limited. So if you have any other questions that we can to get contact later under. I I saw that there is another question from Musa, or

536
01:09:58.850 --> 01:10:00.910
Jun Li-CUMTB: is, is is that you.

537
01:10:04.510 --> 01:10:05.730
Musa Kamara: And says, Hello.

538
01:10:06.070 --> 01:10:08.370
Jun Li-CUMTB: Oh, okay. Okay. Thank you.

539
01:10:10.060 --> 01:10:13.997
Musa Kamara: Yeah. My name is Musa.

540
01:10:18.150 --> 01:10:22.179
Musa Kamara: I am a student, a master student of

541
01:10:22.270 --> 01:10:26.880
Musa Kamara: and Women's science at Stanji University

542
01:10:27.020 --> 01:10:35.600
Musa Kamara: in Shanghai. I want to thank the Professor for a wonderful and relance presentation.

543
01:10:36.514 --> 01:10:54.440
Musa Kamara: As I have an interest in this field in Geographica information systems or science. So I want to know. She made mention of the Marina land. So I want to know the impact of the marina land

544
01:10:54.490 --> 01:10:58.300
Musa Kamara: in China to us by European.

545
01:11:00.030 --> 01:11:01.140
Jingying FU: Marginal, land.

546
01:11:03.910 --> 01:11:05.080
Musa Kamara: Saloon. Professor.

547
01:11:05.540 --> 01:11:06.330
Musa Kamara: Yeah.

548
01:11:06.690 --> 01:11:07.680
Musa Kamara: Yes.

549
01:11:07.890 --> 01:11:08.990
Jingying FU: Imagine a man.

550
01:11:09.350 --> 01:11:10.859
Musa Kamara: Land, yes.

551
01:11:11.260 --> 01:11:11.870
Jingying FU: A.

552
01:11:12.150 --> 01:11:14.860
Jingying FU: So what's your what? Your question is?

553
01:11:15.000 --> 01:11:15.570
Jingying FU: And yeah.

554
01:11:15.570 --> 01:11:21.899
Musa Kamara: Yeah. My question is, I want to know the impact of the low marginal land

555
01:11:21.990 --> 01:11:25.610
Musa Kamara: in China towards the production of

556
01:11:25.750 --> 01:11:28.750
Musa Kamara: by you by your fear.

557
01:11:32.280 --> 01:11:36.644
Jun Li-CUMTB: He's asking, What what is the impact of margin.

558
01:11:37.310 --> 01:11:37.790
Musa Kamara: Lance.

559
01:11:37.790 --> 01:11:38.890
Jingying FU: Pass

560
01:11:39.140 --> 01:11:40.340
Jingying FU: the impact.

561
01:11:41.459 --> 01:11:47.450
Jingying FU: We just use the marginal land. That is hmm! We called Westland.

562
01:11:48.153 --> 01:11:51.320
Jingying FU: We don't use the farmland

563
01:11:51.340 --> 01:11:52.750
Jingying FU: are the

564
01:11:52.990 --> 01:11:55.760
Jingying FU: ecological production.

565
01:11:56.080 --> 01:11:58.000
Jingying FU: And hmm.

566
01:11:59.870 --> 01:12:05.809
Jingying FU: so we we. We have some limitations of the marginal land selection.

567
01:12:06.530 --> 01:12:07.560
Musa Kamara: Okay.

568
01:12:12.160 --> 01:12:13.165
Jun Li-CUMTB: Okay.

569
01:12:14.180 --> 01:12:26.750
Jun Li-CUMTB: A, actually, I have for quite a few questions to want to discuss with you, Professor Full, since I'm also doing some research in the field of allergy.

570
01:12:26.910 --> 01:12:31.819
Jun Li-CUMTB: especially in the fossil allergy, like the Coal Allergy.

571
01:12:31.980 --> 01:12:45.539
Jun Li-CUMTB: But I think the time has run up loud today. So everybody, if you have other questions, and, like me, you you can contact with full by email or other.

572
01:12:46.705 --> 01:12:47.360
Jun Li-CUMTB: Approaching.

573
01:12:47.400 --> 01:12:49.870
Jun Li-CUMTB: So today, we

574
01:12:49.910 --> 01:12:51.040
Jun Li-CUMTB: a

575
01:12:51.050 --> 01:12:52.558
Jun Li-CUMTB: I'm very pleased with you

576
01:12:53.660 --> 01:13:00.430
Jun Li-CUMTB: presentation. Thank our speak today. And I thank all our audience today.

577
01:13:02.150 --> 01:13:03.170
Musa Kamara: Fine.

578
01:13:03.170 --> 01:13:03.972
Jingying FU: Nice. Thank you.

579
01:13:04.240 --> 01:13:04.670
Jun Li-CUMTB: Good night.

580
01:13:04.670 --> 01:13:05.490
Jingying FU: My lunch.

581
01:13:05.490 --> 01:13:06.410
Xuelian Meng: Thank you.

582
01:13:09.050 --> 01:13:13.028
Jun Li-CUMTB: Professor 4. Can you share your email in the chat box?

583
01:13:13.390 --> 01:13:14.170
Jingying FU: Is here.

584
01:13:14.880 --> 01:13:19.949
Jingying FU: and this is my tale, and also the Vchat number.

585
01:13:20.330 --> 01:13:21.300
Jingying FU: Okay.

586
01:13:21.520 --> 01:13:23.209
Jun Li-CUMTB: Booza! Can you see that.

587
01:13:23.210 --> 01:13:24.956
Musa Kamara: Yeah. Art.

588
01:13:28.490 --> 01:13:32.130
Musa Kamara: No, no, no, I'm Gannon.

589
01:13:32.330 --> 01:13:35.060
Musa Kamara: Yeah, you do that again.

590
01:13:36.350 --> 01:13:36.760
Jun Li-CUMTB: You have.

591
01:13:36.760 --> 01:13:37.930
Musa Kamara: Messy dreams.

592
01:13:37.930 --> 01:13:39.090
Jun Li-CUMTB: Can you see this slide

593
01:13:39.720 --> 01:13:40.790
Jun Li-CUMTB: on the screen.

594
01:13:42.680 --> 01:13:44.230
Musa Kamara: Alright. Okay.

595
01:13:44.230 --> 01:13:44.559
Jun Li-CUMTB: Okay.

596
01:13:47.590 --> 01:13:47.975
Musa Kamara: Ok.

597
01:13:49.340 --> 01:13:50.240
Musa Kamara: alright, just.

598
01:13:50.690 --> 01:13:53.170
Jun Li-CUMTB: Yeah, we can leave the

599
01:13:53.750 --> 01:13:55.150
Jun Li-CUMTB: the chatting room now.

