00:00In our lab, we are in the Renovable Energetic Laboratory.
00:03We are working on renewable energy production from municipal waste and food waste.
00:11We are working on bio-CMG production from municipal waste and food waste.
00:15We are working on organic waste and natural gas, bio-natural gas we are making.
00:29We are working at the pilot level on how to connect food waste and municipal solid waste to bio-CMG
00:43that is one product we are working.
00:45Second product we are working on the mining of rare earth elements from mild waste.
00:50So, we have taken and we analysed and we are using the fungi, bacteria, algae, phototraps and plants to extract
01:03rare earth elements from the mild waste.
01:06This is a CSR mission mode product which we are working.
01:08Third product we are working on carbon capture.
01:12Mixed carbon.
01:13Yeah, third product we are working on carbon capture through algae and other cyanobacteria.
01:21This is a new development we have designed, fabricated, and commissioned at the NCS.
01:29This is a new data that is a new and a new detection one.
01:34This is a new market market which is a new material that has been applied to make corruption.
01:48This is a new model that is new.
01:52It is a new product called smart algae liquid.
01:53It is a motile reactor.
01:55The other way you can use ECV.
01:58The aesthetic value is so good.
02:00It gives very pleasant to the eyes,
02:03as a color, as a green.
02:05And also, this motile reactor is also heavy air filter.
02:09So, if you observe your CO2,
02:11just to reduce your CO2,
02:12just to reduce your CO2.
02:14This is also low maintenance and low cost.
02:16There is also sitting space.
02:18There are mobile chakras,
02:20where you can use the CO2,
02:24where you can use the CO2,
02:25where you can use the CO2,
02:27where you can use the CO2,
02:28where you can use the CO2,
02:29where you can use the CO2.
02:31The production is much higher level.
02:35And it is fast growing,
02:37this liquid tree.
02:39And the advantage is that
02:41there is no maintenance.
02:42So, in 5 months,
02:45we have installed it.
02:47It is a successful project for this.
02:50So, so far,
02:51our institute,
02:52Renewable Energy,
02:53has a project-related
02:5425 different areas
02:56I have worked at a filet scale.
02:58For example,
02:59we have worked on
03:00ethanol production
03:01in the municipal
03:02solid-based and food-based.
03:04So, we have said,
03:06how to use CO2
03:08the CO2
03:10Confer绷
03:10of the alcohol.
03:13CO2
03:14Co2
03:16Co2
03:17Co2
03:18Co2
03:19Co2
03:19Co2
03:19Co2
03:20Co3
03:20Co2
03:21Co2
03:21Co2
03:21Co2
03:21Co2
03:22Co2
03:22Co2
03:36Co2
03:37and other things then apart from that right now we are working on
03:43artificial photosynthesis and how to make a carbon capture for 24 hours
03:49uh already we have completed the pilot scale work at 100 meter cube for co-tech capture using
03:57right groups these are the municipal food products yes sir this is a food waste
04:13which is truly like vegetable waste market waste
04:24municipal waste, degradable waste, agnosellulosic biomass, agricultural waste, organic waste, forest history, these are all the things which is easy
04:33to be degraded.
04:37In this case, we have been able to develop a pilot scale set up of 40,000 litre and also
04:433,000 litre capacity.
04:45In this case, we are isolating anaerobic bacteria. From the past 15 years, we found out how fungi and bacteria
04:55can be used for this degradation as well as the natural gas production.
05:00In this case, we found out that we have isolated anaerobic bacteria from the underground coal mine, archaeobacteria, which identified
05:07it here.
05:07So, we are adding, we are enhancing the methane production during this waste.
05:15So, the main advantage is that this waste is converted into the useful form of gas.
05:22This gas can be used as electricity and electricity.
05:29So, this is a lot more area. We are working in advance on how to separate CO2.
05:36CO2 and the methane, these are all areas.
05:40So, in the coming days, we can be able to use this as well as it is better?
05:46Yes, definitely. This gas demand, it can fulfill for commercial oil and high-scale.
05:52So, what will it be able to use as well as a tank?
05:56All that is being used as a mining research institute and we work in alternative fuel.
06:04So, how will it be used for waste?
06:07We work with waste.
06:11We have only one different waste we have screened or analysed in and around
06:15So mainly food waste, municipal solid waste, kitchen waste, market waste, vegetable waste
06:21We have to segregate it and process it
06:24We have to treat it from the foundation
06:26Then we have to convert that waste into a useful form of natural waste
06:31So it is compressed and enriched
06:33Then we are producing bio CNG
06:36Where is the bio CNG?
06:40Yes, it is in India
06:41So we also have to try and quickly produce
06:47How novel organisms can be used as a catalyst
06:51Then we also have to bring it to us
06:54So we are doing research now?
06:59Yes
07:00How many years do we research?
07:02Sir, we have already done one year
07:04And after that, there is an archaeo-dactory isolation
07:08Which we have already done for five years
07:11Yes
07:11Bio gas production from the oil, waste, other organic waste
07:17Now we are working from bio gas to bio CNG
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