Tag Archives: electricity

How To Prep For An Imminent EMP Attack

There you have it… from Dr. Peter Vincent Pry himself, director of the EMP Task Force on National and Homeland Security… An electromagnetic pulse (EMP for short) would literally send an entire country back in the 1800’s in a matter of seconds, by frying everyone’s electronics and leaving us in the dark.

Here’s Ben Carson explaining EMPs…

Mainstream media has been silent about this for the last decade.  And now folks are finally starting to see the truth…I believe an electromagnetic pulse is imminent and  I want to show you how to make this cheap set-up that can shield any device against an EMP.

Let me give you a few shocking stats and facts that have scared the daylights out of some top US politicians.

Wired Magazine said there was a 12% chance the Sun would blast a Coronal Mass Ejection (or CME) at 300 miles per second towards Earth by 20201.   

Now as far as we know 😉 that didn’t happen. But it seems mathematically certain to happen in the very near future.

A Space Weather study quoted by Gizmodo2 estimates it would cost the US $41.5bn / day, and it would take months if not years for the power grid to be replaced and for things to get back to some sort of normal.

Given that it produces an average of 3 CMEs EVERY SINGLE DAY3, the Sun is nothing but a ticking time bomb waiting to “explode”, destroy the grid and any device that’s plugged in, and ultimately paralyze society…

Then you’ve got nations such as Russia, China, North Korea and Iran, playing with high-altitude HEMP bombs, which can be even MORE devastating, because they can even fry electronics that are not connected to the grid, such as phones and flashlights.

In fact, Russia sold such devices to North Korea in 2014 4 5 and here’s why:

If you’re still skeptical about N. Korea’s abilities, keep in mind that they now have two satellites orbiting the Earth at low altitude, the KMS-3 launched in 2012 and the KMS-4 launched in 2016.6

…and guess what? They both hover over the United States7!

And let’s not forget ISIS, who’ve been planning grid attacks for a long time, are extremely self-motivated.

So what happens if any of these scenarios come true? Total collapse.

The large power transformers (that are keeping the power grid alive) will be completely fried, turning entire countries into a veritable electronics graveyard. Trucks will come to a screeching halt, and will stop delivering food, water, and medicine to stores across the nation.

People will be hungry and scared, turning against their fellow men in desperate attempts to feed their families. Looting will be the new national sport, and disease the new biggest killer… That’s when the real “fun” starts…

Law enforcement will be paralyzed and unable to communicate to keep things under control. And what will you eat when all of this happens?

EMP rehearsals

I like to call blackouts “EMP rehearsals”… because they too can leave entire cities in the dark for days or even weeks on end, and scare millions of people…Like this woman, for instance… who got trapped in an elevator during a blackout. If that were an EMP, she’d most likely experience a deadly free fall:

The aging US power grid is hit every FOUR DAYS on average by either a cyber or a physical ATTACK9… 225,000 Ukrainian households were left in the dark in 2015, after the power grid was hacked10.

The number of power outages doubles every 5 years11, mostly because of our increased energy needs, but also due to storms, earthquakes, tornadoes and even heat waves. And what will happen when millions of electric cars owners will plug their vehicles into the grid every night, all at once, and let them charge over night for 8 or 9 hours?

Look no further than 3rd world countries such as India to see what that would look like. In 2002, 700 MILLION souls were left in the dark… It was horrible… According to The Guardian13, “electric crematoriums stopped operating, some with bodies left half burnt before wood was brought in to stoke the furnaces”

In 2014, the entire country of Yemen was left without power for an entire week after al-Qaeda attacked it14. It wasn’t the first time, either…

Still, it’s hard to imagine what happens when an electromagnetic tsunami completely fries the aging power grid, phones, laptops, medical equipment such as pacemakers, fridges (keeping anything from food to insulin cold), and even some cars. The cost of replacing everything is unimaginable. Plus, even if your car does survive, remember gas pumps also run on electricity…

So what can you do to protect your electronics? All you need is this one weird box you can make at home called a “Faraday cage”, with simple materials lying around in your kitchen or garage right now that, if done right, will guarantee that all the electronics inside will survive.

“If done right” is key here, because there’s a lot of confusion on making them… Many folks are convinced that things like cars and microwaves will work, but they’re completely wrong.

I cringe every time I hear this, because I know that if the shield is not fully enclosed, the electromagnetic pulse will go right through and fry everything inside… Many Faraday cages have holes in them14 and are useless in front of a powerful EMP. What you need is a fully-enclosed shield.

There’s a simple 30 second test you can do right now, to see for yourself. Place your phone and a portable radio inside a microwave, trashcan, or anything else you think would work as a shield. Turn both devices on, and make sure your radio is tuned in to an AM station.

Now try calling your phone. Is it ringing? What about your radio, are you getting anything? If the answer to any of these questions is “yes”, then that is not a Faraday shield and it will fail you.

Why does the test work? Because EMP pulses hit on a very wide frequency range that those used by cell phones and radios.

Now, to make a real Faraday cage, there are two simple rules you need to follow…

Rule #1: the gadgets inside should not touch the outer metal casing…

And rule #2, the metal container must not have any holes or cracks in it, no matter how small.

A box full of working gadgets won’t cover your basic survival needs, so it’s critical that you get over your addiction to electricity. Just like a drug, you’re dependent on it because it makes everything so much easier… And when it’s gone, when you can’t use your phone or laptop, you feel totally helpless.

You gotta learn to live without it, because most people won’t…

Modern life made everyone soft, people can’t even change a tire these days. They can’t fix their house, cook on an open fire or grow their own food, heck, most can’t even change a tire…

The other thing we need to talk about is generating your own electricity post-EMP with parts kept safe inside these Faraday cages. You’ll then be able to run electric tools and appliances such as chainsaws, pressure cookers and washing machines. This is actually something you can do today to slash your electric bill…

To recap, the 3 layers of EMP preparedness are:

Layer #1: Faraday shields

Layer #2: living without electricity

and Layer #3: free energy…

Don’t worry, though, because we’ve already done all the hard work for you. Me and my amazing prepper writers at Survival Sullivan have once again outdone ourselves and came up with hands-down the best course for surviving blackouts and EMPs anyone ever made:

*This product is digital. The image is for information purposes.
We call it: “EMP Protocol”

…and I’m excited to give you a taste of what’s inside:

● Step-by-step videos and pictures on how to make these 3 Faraday boxes types that will protect your devices against even the strongest EMP. You don’t have to pay $30,000 for a copper chamber, or even $30 for Faraday cages advertised on various websites. We’ll show you how to make them for less than $5usd  each… You get the exact materials for every type of box, plus step-by-step instructions. Plus, one of these types of cages is small and light enough to fit in your bug out bag…

● What to do the moment an EMP happens. Whether you live in the city or on a farm, whether you’re bugging in or out, we’ll tell you how to move fast, stay safe and protect yourself and your family.

● The 3 best ways to safely generate electricity post-collapse. Just keep the spare parts in Faraday shields, and you’ll have light for years to come.

● 12 electronics you need to salvage in Faraday cages. Yes, flashlights and emergency radios are on the list, but if you truly want to be prepared for a long-term disaster, you definitely need the others.

● How to hide the fact that you have electricity… If someone sees light in your window, or if your kid is playing outside with a flashlight, they’ll instantly know you have it. These stealth tactics are what you need to make sure no neighbor or even the law enforcement will take your devices.

● How to prepare your vehicle for an EMP. Plus, a list of cars models that are sure to survive it.

● How to make bug out bags, get home bags and everyday carry kits for you and your family, that work not just in EMPs, but in any kind of emergency. We’re going deep down the rabbit hole, covering every possible aspect, making sure all the items inside are protected against shocks, water, puncturing by sharp objects, and even theft.

● How to bug out on foot. If your car won’t work, you’ll have no choice but to leave it behind. The roads could be dangerous, but fear not because we’ll tell you how to get to your bug out location safely and in record time.

● Last but not least, we’re going to have a conversation about how to survive without electricity  in the long hard years following an EMP event. Nothing is left out, including food and water procurement, hygiene and sanitation, alternative communication methods, and even things that are often overlooked such as home schooling

We really went out of our way to weed out the bad information about EMPs. Best of all, these things will help you survive and thrive in almost any other disaster or emergency, such as social unrest, hurricanes and an economic collapse. Click here to receive your EMP Survival guide.  For the Silo, Dan F. Sullivan.

References

1. https://www.wired.com/2012/02/massive-solar-flare

2. http://gizmodo.com/a-monster-solar-storm-could-cost-the-us-40-billion-dai-1791379797

3. https://en.wikipedia.org/wiki/Coronal_mass_ejection

4. http://www.tokyotimes.com/n-korea-buys-russian-electromagnetic-pulse-weaponry-develops-its-own

5. https://www.extremetech.com/extreme/170563-north-korea-emp

6. http://www.wnd.com/2016/04/emp-alert-2-n-korean-satellites-now-orbit-over-u-s

7. http://www.washingtontimes.com/news/2017/feb/14/north-korea-missile-strike-remains-a-real-threat

8. https://en.wikipedia.org/wiki/Alleged_Saudi_role_in_September_11_attacks

9. http://time.com/3757513/electricity-power-grid-attack-energy-security/

10. https://www.wired.com/2016/03/inside-cunning-unprecedented-hack-ukraines-power-grid

11. http://insideenergy.org/2014/08/18/power-outages-on-the-rise-across-the-u-s/

12. http://www.electricity-today.com/state-of-industry/how-utilities-can-improve-aging-infrastructure

13. https://www.theguardian.com/world/2012/jul/31/india-blackout-electricity-power-cuts

14. http://www.aljazeera.com/news/middleeast/2014/06/power-line-assault-plunge-yemen-into-darkness-201461164559672523.html

15. https://www.theguardian.com/science/2015/jul/28/uk-can-expect-just-12-hours-warning-damaging-solar-storm-space-weather

Renewable Energy Housing Why & How To Do It

Every year, the public is swarmed with a range of statistics, estimates and consequences of their energy consumption. On average, most households go through their energy supply for similar things, and despite some inconsistencies, could resolve most of their consumption issues with the same line of measures.

The use of renewable energy sources has been key to making private residential buildings all the more sustainable. It not only regulates their consumption, but also provides a clearer overview of how much energy is necessary to keep the household going, and ultimately allows homeowners to reduce their carbon footprint.

With so much research and preparation made against exploitation of limited resources, it is important to keep informed on the main reasons leading to this practice that concern each individual homeowner, as well as the key ways to get started with renewable energy generation.

What is Renewable Energy?

In order to get started with your housing energy improvements, it is important to know what kind of process you are dealing with. Renewable energy, specifically, is the process of generating energy from renewable sources like the sun, wind, soil, which are largely available in nature.

If done properly, this practice can be rather sustainable, meaning it will help homeowners regulate consumption, reduce expenses and contribute to a healthier environment.

Main Reasons for Renewable Energy Housing

As noted so far, this practice resolves some of the major concerns homeowners have, both on the micro and macro level. Ana from safeatlast.co has done the work for us, distinguishing a few top priorities that cause people to turn to renewable energy:

· Cost – Energy price soars, as well as additional expenses appearing over the years have had detrimental effects on homeowners’ budgets;

· Climate change – Greater awareness of the greenhouse effect has made people more concerned about their home’s carbon footprint;

· Control – People are alarmed by the realization that they have no idea how much energy they need to meet their everyday needs;

· The current state of the home – Construction characteristics, underground waters, insulation and other features could cause major problems, calling for a more permanent solution.

Top Ways to Achieve Renewable Energy Housing

Nowadays, there is a range of equipment, construction material and entire systems that can be installed into your existing homes in order to achieve greater energy conservation. Most of these make use of the natural, renewable sources of energy to improve the overall quality of life.

While they may be somewhat expensive as an investment, subsidiary programs and initiatives, as well as the long-term payout have gotten many homeowners interested in the following options:

1. Solar power systems – Solar panels placed on rooftops allow homeowners to use the sun’s heat to generate heating power for water, space heating, or electric power generation, alternatively;

2. Biomass boilers – Burning natural residues, these boilers help homeowners get rid of waste and keep their homes warm at the same time, all the while controlling their carbon emissions;

3. Insulation – Proper insulation is just as crucial as the systems listed above, with cavity wall, external and internal wall insulation, as well as high performance doors being the top picks among homeowners.

Sugar Battery Set To Power Phones, Tablets And Other Devices

Catalyzing Commercialization Sugar could some day be used to power smartphones, tablets, and other electronic devices thanks to a recent breakthrough by Blacksburg, VA-based Cell-Free BioInnovations, Inc. It might seem strange to use an ingredient found in cupcakes and cookies as an energy source, but it’s not, as most living cells break down sugar to produce energy. And, interestingly, the energy density of sugar is significantly higher than that of current lithium-ion batteries.

Working under a Small Business Innovation Research (SBIR) grant from the National Science Foundation, a research team led by Y-H Percival Zhang, Chief Science Officer of Cell- Free BioInnovations and an associate professor of biological systems engineering at Virginia Tech, has successfully demonstrated the concept of a sugar biobattery that can completely convert the chemical energy in sugar substrates into electricity.

As reported in the January 2014 issue of Nature Communications, this breakthrough in sugar-powered biobattery can achieve an energy-storage density of about 596 A-h/kg — an order of magnitude higher than the 42 A-h/kg energy density of a typical lithium-ion battery.

A sugar biobattery with such a high energy density could last at least ten times longer than existing lithium-ion batteries of the same weight, drastically reducing how often users need to recharge their electronic devices. This nature-inspired biobattery is a type of enzymatic fuel cell (EFC)— an electrobiochemical device that converts chemical energy from fuels such as starch and glycogen into electricity.

While EFCs operate under the same general principles as traditional fuel cells, they use enzymes instead of noble metal catalysts to oxidize the fuel. Enzymes allow for the use of more-complex fuels (e.g. glucose), and these more-complex fuels are what give EFCs their superior energy density. For example, the complex sugar hexose can release 24 electrons per glucose molecule during oxidation, whereas hydrogen (a fuel used in traditional fuel cells) releases only two electrons. Until now, however, EFCs have been limited by incomplete oxidation, releasing just two to four electrons per glucose molecule.

“We are not the first who proposed using sugar as the fuel in the biobattery,” says Zhiguang Zhu, a senior scientist at Cell-Free BioInnovations. “However, we are the first to demonstrate the complete oxidation of the sugar in the biobattery, enabling our technology to have a near-theoretical energy conversion yield that no one has ever reported.”

Zhang and his team constructed a synthetic catabolic pathway (a series of metabolic reactions that break down complex organic molecules) containing 13 enzymes to completely oxidize the glucose units of maltodextrin, yielding nearly 24 electrons per glucose molecule.

We put specific thermostable enzymes into one vessel to constitute a synthetic enzymatic pathway that can perform a cascade of biological reactions the sugar, converting it into carbon dioxide, Zhang says. Unlike natural catabolic pathways for the oxidation of glucose in cells, the designed synthetic pathway does not require costly and unstable cofactors, such as adenosine triphosphate (ATP), coenzyme A, or a labile cellular membrane. The researchers used two redox enzymes that generate reduced nicotinamide adenine dinucleotide (NADH) from sugar metabolites. NADH, a reducing agent involved in redox reactions, is a natural electron mediator that carries electrons from one molecule to another. They also used ten other enzymes responsible for sustaining metabolic cycles and an additional enzyme that transfers electrons from NADH to the electrode.

This new synthetic pathway enables the biobattery to extract the theoretical number of electrons per glucose unit and thereby use all the chemical energy in the sugar. This, the team reports, represents a significant breakthrough.

In addition to its superior energy density, the sugar biobattery is also less costly than the Li-ion battery, refillable, environmentally friendly, and nonflammable. While researchers  continue to work on extending the lifetime, increasing the power density, and reducing the cost of electrode materials for such a battery, they hope that the rapidly growing appetite for powering portable electronic devices could well be met with this energy dense sugar biobattery in the future. For the Silo, Zhiguang Zhu, chief scientist at”The Sweet Battery Project”.

This technology was funded through the America’s NSF Small Business Innovation Research Program.