Hello, everyone.
Today is Disaster Preparedness Day.
We have a special project called
"In the event of a major power outage, a portable power source with zero remaining power.
Can we survive?
I've conducted a very interesting experiment.
I'd be grateful if you could keep up with me ^^
So let's start the experiment.
All of a sudden, there was a major power outage and the electricity was out.
So I decided to take out the portable power supply I'd been storing
This is the Jackery 1000.
By the way, there's a little bit of a case involved in this one.
I would be grateful if you could watch it without worrying too much about it ^^;
So, let's get right to it.
I was going to use a portable power source, but...
What a luxury, zero battery life!
I accidentally forgot to charge it last time I used it.
You won't be able to use the power supply.
This is a tricky situation.
But I had to buy solar panels for all this to happen.
I hope this panel will help me get through this difficult time ^^
By the way, this is a genuine solar panel from Jackery.
That's a panel that can generate up to 100 watts.
The connection is as simple as this.
I'd like to start charging it right away.
So I set it up like this
This panel has a two-piece opening so it is easy to install.
By the way, it's a beautiful day!
Perfect weather for solar charging ^^!
So, I'm going to try to connect the cable
It's a special solar panel, so all you have to do is stick it in!
And the power generation at this time.
You're generating 70W from a 100W panel ^^.
The power generation efficiency is quite impressive!
Which means that this power supply has a capacity of 1,000 Wh.
1,000Wh/70W will give you a full charge in 14.3 hours^^!
 But even so, you can only charge the battery for about 8 hours a day.
At this rate, it's only going to be half charged.
I don't know if it will be clear again the next day.
You want to make sure you have plenty of charge when the weather is nice, right?
So we'll double the panel.
It's a strategy to generate power with 200W since it's 100W x 2 sheets ^^.
It's still two cards rather than one.
This should charge you fast.
So I thought I'd connect the cable.
The Jackery 1000 has only one charging port
But in anticipation of that, there's a special cable for it.
This time we will use this cable to charge the battery.
This is what the unit looks like.
It's pretty simple to build.
The connection seems to be to the other terminal on the unit.
I'll use the most advanced terminals available.
So I tried to connect to it.
You're showing 120W instead of 70W x 2 = 140W.
That said, this unit has a maximum DC charge of 120W.
It's not designed to be charged at 140W.
So 1000Wh/120W = 8.3, so
It can be fully charged in about 8.3 hours.
By the way, that works out to 12% charge per hour!
This one should be able to charge up pretty well by the evening ^^.
So, it's 9:00 am now.
I'm curious if you can really charge 12% in an hour.
First of all, leave it like this for an hour.
I decided to experiment with it to see how much it would charge.
That's the mission to investigate the performance of this panel.
Let's find out exactly how much it is ^^
So we'll start leaving it alone.
We can do something else in the meantime.
And the other thing is, it's what's in the fridge.
The power is out, and if we don't, the stuff inside will go bad.
But there's nothing in this fridge that can go bad.
The refrigerator side is fine, but...
The problem is the freezer.
A lot of things are being frozen at the moment.
And the refrigerator is an appliance.
You might think you could just plug it into a portable power source.
It's consuming 180 watts of power, which is more than its generating capacity.
This fridge can be quite difficult to use.
So use a refrigerator that runs on a cigarette lighter V.
This is a refrigerator that runs on 12 VDC and about 30 watts ^^.
So, for now, I'm going to transfer the stuff in the freezer.
You've accumulated a lot of experience.
So I brought the fridge to the car...
Exactly one hour had passed.
It's now 10:00.
So I checked the battery level.
A whopping 15% charge in an hour^^!
This is a staggering number, so I'm surprised ^^!
That should give you a full charge in 7 hours.
I knew the power of the sun was great.
That's 150Wh charged by leaving it alone^^!
So let's hook up the fridge, then.
Pass-through capability allows for AC/DC output while charging.
I've set the temperature to -20°C for now.
It's the setting that eats the most power ^^.
And the power consumption at this time was about 30W
I'm grateful for the power savings.
By the way, it generates 120W and consumes 30W.
It should charge about 90 Wh in an hour.
So I'm going to leave it like this for two hours.
I decided to experiment with it to see how long it would charge.
So, the sun has changed direction a bit.
I'm going to change the orientation of the panel as well.
I'd suggest correcting your orientation roughly every two to three hours.
This way, you can charge your batteries without losing power ^^.
I turned it around and it was generating 120 watts of power at its maximum value.
Your current charge is at 16%.
So I'm going to leave it like this.
We'll see how it charges when it's pass-through.
And while we're waiting, I'm going to do one more important thing
Yes, disaster information gathering.
Because in the event of a disaster, the internet may be disrupted.
We're going to need an alternative means of gathering information.
And this phone is a model that's about four years old.
It'll be one segment with a built-in antenna.
This one has a SIM card in it, though.
Even if you don't have it, you can still project the one-segment broadcasting.
You've been reporting on big events on TV.
Japanet will cover the interest charges.
And my phone was low on charge.
I'll charge it while I'm at it.
It's charged with no problems ^^.
It's an old phone, but it works fine.
By the way, you're consuming 46 watts from charging your fridge and your phone.
It's generating about 120 watts.
So that's about 70 watts of charge going around.
So let's leave it till 12:00.
So, it's 12:00.
It's been 2 hours since I charged the panel fridge etc.
So, the charge you're wondering about is up 17%, from 16% to 33%.
That's 170 Wh charged in 2 hours.
A 17% increase while using electricity is great!
That's an increase of 8.5% per hour ^^.
So when the power came back up to 33%, it was lunchtime.
I would like to have lunch with the power of electricity ^^
So, today's lunch will be frozen beef bowl at Matsuya!
In times of disaster, it's quoted as a beef bowl
And I can't eat it as it is.
I'd like to warm you up with a hot water bath, but...
This electric pot is rated at 600W and
It's got good firepower, but...
With a hot water heater, you have to boil the water.
A little bit of energy is wasted in warming it up.
So we'll use the microwave this time.
This is a cheap microwave oven for about $6,000^^.
The microwave oven can cook in a short amount of time.
No more wasted power!
By the way, you can heat it up at 600W for 3 minutes.
With hot water, the water needs to boil for five minutes after it's boiled.
So I'm going to put it on 600W for 3 minutes.
It's a simple range with no unnecessary features.
And the power consumption at this time is about 1160W
It's a good power supply that can run at over 1000W output ^^
By the way, I'm simultaneously outputting AC and DC while charging.
This power supply can be used in such a reckless way ^^.
So that's three minutes of warming up.
It's warmed me up nicely.
And after 3 minutes of warming up, the battery was at 28% remaining.
34% to 28%, so you're consuming 6%.
Six percent in three minutes seems like a lot of consumption.
I don't mind now that I've warmed up ^^.
And let's get the rice warmed up, too.
I'll just keep it warm for two minutes.
The power consumption is about 1130W.
But it's working steadily.
So that's it!
I'm hot and warm.
So, I dinged it for two minutes and the battery was at 24% remaining.
Seems to be a 2% power consumption per minute^^
And by the way, the reason for the low power generation is because of the cloud cover.
I can't blame you for this one ^^;
So let's serve it up.
A bowl of rice from Yoshinoya with Matsuya's ingredients on top
And that's why it's so quick.
I finished the beef bowl...
It's just a regular beef bowl.
You want to make it even better with a little more work, don't you?
So let's add my favorite red ginger!
This is a kilo of red ginger.
By the way, it's naturally colored red ginger.
This is so delicious!
So I'm going to make a pile of red ginger.
If you do it in a beef bowl restaurant, people will look at you white.
So, all that's left to do is give it a good shake of egg and shichimi and...
The special beef bowl is completed!
It looks delicious!
Finally, to make it feel like a gyudon restaurant even in a disaster
Pour the tea into the teacup and finish!
This makes it look like a beef bowl restaurant.
Then let's have it!
Thank you.
How did you get the solar power to heat it up?
How does the beef bowl taste...?
Yes, it's delicious.
This beef bowl is the best ^^!
We were able to recreate the usual flavors in a major power outage!
Thanks for the solar power ^^.
So I'm going to have a quick bite.
We ate it all up in no time.
That was a delicious meal.
Well, it was before 1:00 when I finished eating.
I see the battery is back to 29%.
And the power generation is going great.
As it is, the panel is going to be hidden behind the car.
So I moved the panel to the west side.
It's going to generate power with no problem.
So, if you use the refrigerator.
I found out that I can charge 8.5% in an hour...
If you don't connect any of these things to anything but the panels, they'll generate power.
You're wondering how long you can charge before the sun goes down?
So, from here on out, I'm going to use no DC output.
Let's try a charging experiment ^^
By the way, these ingredients are
I'll put it back in the freezer.
So, between 1pm and sunset.
I'd like to experiment with it to see how long it can be charged.
Then we'll leave it for a while.
See you in a few hours ^^
So it's 5pm.
It's been four hours since the experiment began.
The sun is firmly in the air, and it's about to set.
The sun is shining in the west, isn't it?
And this time the charge was back up to 70%.
It looks like you were able to charge 41% in 4 hours ^^!
I've been able to charge this much on sunlight alone.
This is an amazing ability!
This would be quite useful in a disaster.
I'm amazed that I was able to charge so much after being left alone ^^!
So let's get the panel out of the way.
This one folds in two, so it's easy to clean up.
So, we're going to move on to the evening.
I'd like to conduct a nighttime experiment in the event of a disaster...
It's still light, so leave it like this for now.
I'd like to resume the experiment after dark ^^
So, as it was dark outside
We're back in the car.
This is an LED light.
I'm taking power from the Jackery 1000.
And I'm using the fridge again with
They're setting up to chill the food.
The power consumption at this time is 42W.
700Wh/42W equals about 17 hours of use!
So, in this situation.
I'd like to continue the experiment, but...
It's very dark indeed.
I'll put an interior light on a separate power source ^^;
Now that's a brighter day.
So let's resume the experiment.
So, that's what you want to eat in a disaster.
There seems to be data that shows that it's Okinawan Soki Soba.
Tonight, I'm going to have some soki soba that has been sitting in this freezer for years.
I hope you cook it well.
By the way, this one doesn't require the use of fire.
This is a great soki soba that you can make in the microwave alone ^^!
And this time, I'm not just using the microwave all the time.
There's a good reason...
Anyone can use a microwave oven.
It takes only a short time to cook and...
Portable power supplies are becoming more and more powerful.
As more and more people own power supplies in preparation for a disaster
As the safest cookware.
I'm cooking in the microwave this time ^^
And so it's all warmed up.
You've consumed 10% of it in 4 minutes of rentering ^^;
And now we're going to make soup.
It looks like you need 300 CCs of hot water for this.
So this time, as a bowl of rice with hot water heating
I'd like to use this bowl of ramen noodles.
You can find these at 100-plus stores these days.
It can withstand temperatures of up to 140 degrees Celsius, so it won't melt during cooking.
So, I'm going to let it rinse for two minutes.
Now the water becomes hot water.
It's boiling hot and strong.
By the way, the mountain ridge was 60% to 55%, so
You'll have consumed 5% of it in 2 minutes of rentering.
And then we'll add the soup to this and add the noodles.
Sprinkle with red ginger and you're all set.
I'm here for Soki Soba.
The red ginger is quite scarce.
Speaking of Soki Soba
You want to make sure you have a good coating of red ginger, don't you?
So let's have the red ginger one come back to life!
I'm sure you'll admire the majestic style ^^.
Then, put a lot of this on and it's done!
Then let's have it!
Thank you.
I wonder if it's been aged in the freezer.
How do you like your Soki Soba?
It's great!
Lentil Soki Soba is so delicious!
I can't get enough of the ginger that I put a lot of ginger!
So it's all finished in no time!
That was a delicious meal.
And by the time I got going, it was around 10pm.
I think it's time for me to get some rest.
So I put a mattress in the car.
I tried to get some rest, but...
The temperature in the car is over 30 degrees and it's very hot.
I have the windows open and the mosquito nets up, but it's hot in the car.
So, if you're staying in a normal car.
I'm sleeping in the heat as it is...
This time in the midst of a major power outage.
We're forced to stay in the car in the middle of an emergency.
So tonight, start the engine.
I'm going to sleep with the air conditioner on.
By the way, we have a stop-idling ordinance in normal times.
I don't run the engine when I'm in the car.
In a disaster, it's important to put life first.
I recommend that you all start your engines and go to sleep ^^.
So, I didn't want to start the engine and then just go to bed.
At the same time, I'll be charging the power from the cigarette lighter.
That's 80 watts of charge from a cigarette lighter.
I've got the fridge on, and it seems to consume an average of 15 watts of power.
So it charges 65 watts per hour.
With 450Wh/65W remaining, it's going to take about 7 hours to charge the battery.
That means we'll have a full charge by morning.
Now you can sleep while you cool & recharge your batteries ^^!
So in a disaster, you can take full advantage of your car like this.
Let me recommend that you rest comfortably ^^.
So I didn't actually go to bed with this.
Let's pretend you slept and face the morning ^^;
Good morning, everyone.
We were able to stay comfortable in the cool car last night.
It's just before 10:00.
It's hot in the morning with a temperature of 36 degrees.
So, I was (I think) charging the power supply overnight last night.
You're charged to 100% after 12 hours of charging ^^.
I'm sure that a power supply capable of running and charging will do this.
So let's turn off the engine.
Thank you for a night's work ^^.
So we're going to go from 0% portable power in a disaster to
I was able to get it charged to 100%.
This is where we'll be staying in the car for this disaster.
I thought I'd close this up...
We have a problem here.
To my surprise, the engine has stopped working!
That's because I left the air conditioner on all night last night.
It looks like a weak battery has been discharged.
This is a common occurrence in times of disaster.
With a car in this condition, it's a matter of life and death.
So we need to revive this battery.
Here's something interesting for you to look at.
That's what this cable is for.
A cable to charge batteries from a portable power source.
You can connect it to the battery like this
This can be used with any power source ^^
Charging time is 15-20 minutes for small ones
The big ones are ready to charge in 30-40 minutes.
That's all that's inside.
The pluses and minuses are clearly stated.
I plugged it in and it charged like this.
It looks like you're charging at 45W at this present time^^.
So, just leave it like this for 20 minutes and you're good to go!
It's pretty easy ^^.
 So, 20 minutes have passed.
I'll put it back in the car.
So I put the battery back in.
When I start it up...
The engine is running.
The battery is back on ^^.
So, with this cable and a portable power supply.
I can recharge the battery when it's up...
One thing you have to be careful about.
On the power supply's 12 VDC output...
This power supply has a 13.2V DC output of 12V.
It's possible to charge the batteries.
Some of the power supplies are only about 10V and can't be charged.
Just make sure you keep that in mind ^^
The Jackery 1000 is a solid power supply, by the way.
Don't worry about AC or DC output ^^
So, this is a special "Disaster Prevention Day" video.
How did you like it?
This time using the power on the way to 9am.
I was able to charge it until 5pm and get it to 70%.
I've been charging since about 7 a.m.
I'm pretty sure I could have charged it to 100%.
So, you can buy a portable power supply for disaster preparedness.
I'm sure many of you are considering it.
With a 1000W class one, you don't have to worry about capacity or output.
All the appliances in the house worked fine.
Some things can be microwaved.
Personally, I would recommend that you choose a high-powered power supply ^^
Incidentally, Jackery's portable power supply is
It's an inexpensive, high output, and very easy to use power supply.
When you purchase a power supply, you will need to
Please consider Jackery products as well ^^
Jackery's power supplies have been working without failure so far.
I think the reliability of the power supply is awesome ^^.
So that's it for this one.
Thank you for watching.
