CL Everyone

This is possible in all places, not just Inisfree where we have proven it.

 

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Table of Contents:

1. Introduction
2. Can we really feed everyone?
3. So why do we keep hearing about scarcity and strains on farms?
4. Inisfree’s Food/Farmland-need Calculation
5. Final Remarks
6. Images

 

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Introduction:

Obviously a city foreseen to one day provide services for up to 2,000,000,000 (2B) per year (and some 153-million/+ every month) needs to know how to feet a lot of people.  That is part of what motivated us to do the research and math to determine if it was possible.  What we found is that it is not only possible to feed 2B ourselves, it is possible to feed all ~8B/+ people around the world, all with a very easy change to the way we allot our shelters and arable land.

First, we have to give people enjoyable stable places to stay and call their own; that allows them to stop eating out all the time, and instead to save lots of time, money, and resources by buying and stocking groceries, and cooking for themselves.

Second, we have to show them how much food is wasted, and how they can prevent that much being wasted; how they can find and make use of it.

Third, we have to demonstrate this approach, i.e. that it works as we say; we started doing this with the proof-of-concept called Inisfree.  Since we in Inisfree have proven able to feed everyone even in this most-extreme of Earth’s climate-zones (i.e. polar), you can rest assured that everyone everywhere else can be fed, too.  It is easier than you might think.

 

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Can we really feed everyone?

First of all, we must determine how much space the population of any given city or world needs; how big do most people want and need their living and working areas to be?  A studio-apartment is rarely enough for peace of mind, good sleep, and the maintaining or restoration of full/potential health.  Most people prefer more room to stretch out and be themselves than that, so we plan for at least a full-sized apartment, if not a house with its own yard or greenbelt, for everyone.

Based on that, we will then know how much space is left on the land (or wherever the populations wish to be).  Anyone who’s driven outside the cities knows that 99% of this planet is not covered by cities or highways; it is wide open, often cleared these days, fairly easily farmed.  Even if we doubled how much space we give everyone, we’d still have 98% of the Earth’s land available to make productive –and we can make the lawns/yards, rooftops, and many indoor spaces/rooms productive, too, so that brings us back close to 100%.

Then we calculate how much they like to eat (not the minimum for health or just to sustain life), and how much they typically waste (accidentally or otherwise).  Most people eat food that would require an acre or two of land to grow/produce conventionally; by growing a single layer in soil outdoors during their respective areas’ / climate-zones’ growing seasons.  More than half of all produce and other food that reaches the market, for one reason or another, also gets wasted (usually because it is considered “not pretty enough” for grocery-store shelves; there is nothing wrong with it from a freshness or nutritiousness standpoint).

Now we know how much farmland is needed, and if there is enough arable land to grow traditionally; outdoors and with one level of crops per plot.  Let’s go over those numbers again; based on the fact that almost all the land on the planet is not covered by structures which would prevent growing crops/food, and the fact that more than half of food is regularly wasted/uneaten, we don’t need any more farmland.  Also, when humans no longer use the vast majority of their arable land to feed the animals they slaughter, that frees up the vast majority of their farmland for crops –which they don’t even need right now; there is far more arable land than they need, and their current farmland is all they need, anyway.

What we find with humans here on Earth is that there is more than enough room for 7.5 billion people, even if they aren’t stacked up in condos and skyscrapers, and that there is more than enough arable land to grow all the food they need.  They don’t have to change much if they want to sustain themselves.  Even if they doubled their population and more, they would still have plenty of space and arable land.

In Inisfree, we made sure to set up arable land and indoor crops-growing rooms/facilities from the start, keeping them producing based on projected need (so as not to waste much, if any, of our food), we put in our building codes to include standard in all homes and offices/high-rises grow-rooms (and usually rooftop edible-gardens, making 100% of our properties productive, not just spartan dwellings), we have landscaping which produces more fruit than we need, we teach all our own people (as part of our core curriculum) how to grow all their own food after determining what their individual bodies are designed to digest best, and we offer to teach all that same priceless information to anyone invited to visit us here.  This has allowed us to feed everyone of our people plus many guests, and a growing number each year.  We have calculated that it will allow us to continue providing all the food as many as 2B people will need millennia ahead.

 

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So why do we keep hearing about scarcity and strains on farms?

1. A huge percentage of water is wasted by spraying it into the open air sloppily over uneven fields.
2. A huge percentage of water is used for growing crops meant only to feed cattle raised for slaughter.
3. A huge percentage of land is reserved for that cattle.
4. The vast majority of farms grow food primitively, inefficiently, and vulnerably.
5. Inclement weather and other events regularly damage and destroy crops.  (That ‘bad’ weather is also caused by people, technologically (by weather-engineering) or otherwise, even if most of them don’t realize it or refuse to accept the evidence.)
6. Outdoor farms require soil & fertilizer (or, at least, most people are brainwashed by propaganda to assume that and fear the alternative), which require devoted major industries and costly shipping.
7. Growth-based governments and economies put sales and repeat-business above all else, sometimes engineering crops which die every year, forcing farmers to buy more each planting season, and result in costly lawsuits against proprietary seeds accidentally reaching other farms, keeping the agriculture community on poverty’s edge.
8. Until all farms are placed in shipping containers off arable land (utilizing the caves, cliffs, deserts, mountains, tundra, and other previously challenging biomes), and until the demand for farmed meat & fish lowers, there will always be this completely unnecessary and illogical strain on the arable land.  Even though there is plenty of arable land and food, artificial weather and chemicals are being used to coax/pressure most land to produce more than it naturally would, destabilizing it a little more each year, leading to an inevitable 2nd (and 3rd and so on) Dust Bowl.  Container-/indoor-/vertical-farming is one of the only ways to mitigate that strain until humans stop wasting so much, and live in balance with what the land naturally produces on its own.

Here in our city, you won’t hear about such a strain.  We simply won’t allow our land to be worn out that way.  We also won’t ever allow more people to come here than our land can naturally provide for.

 

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Inisfree’s Food/Farmland-need Calculation:

2B guests/residents “at capacity” millennia in the future (~23000 A.D. and beyond), and each of them returning for ~1 month of a visit or visits annually, means Inisfree will need to have enough food for ~153,846,154 people at all times (at capacity).

When farming conventionally/traditionally (outdoors, on a single layer of soil), each person needs ~1-2 acres of productive farmland to live off of indefinitely.  153,846,154 people x 1.5 acres = 230,769,231 acres.

1 square mile = 640 acres

230,769,231 acres = 360,576.9234375 square miles (a 600 mile x 600 mile area)

Inisfree’s main/commercial farm is 2-3 square miles (3 if you include the biodomes, etc.); that leaves 360,574 square miles.

~Half of Inisfree’s 100 square miles within the Perimeter Wall have edible crops growing on them; 360,574 – 50 = 360,524 square miles left to set up as productive land somewhere in our city.

40,000 silo-clusters beneath the surface of our city means 40,000 of those 360,000 silos are devoted to container-farms for indoor-growing.  40,000 food-producing silos x 10 floors per silo x at least 4 shipping-container annexes per silo-floor = 1,600,000 FreightFarm-like aeroponic/hydroponic crop-growing devices x ~7-20x the output of the same square-footage of normal farmland; producing what ~3,456,000,000 sq.ft. of farmland would (in /on 256,000,000 sq.ft.); ~79,338.8 acres worth of produce each harvest; the food you could grow on ~124 square miles of arable land; an ~11×11 mile farm; bigger than most major cities.  360,524 – 11 = 360,513 square miles left.

A 20′ x 8′ container-farm = 160 sq.ft., but also 7/+ levels, as it is based on vertical-farming, not just indoor-farming.
160 x 7 = 1,120 sq.ft. of productive space in the volume (inside) of a container-farm (at least; could be nearly 3x that, if “dialed in” expertly).
1 acre = 43,560 sq.ft.
If 1 person needs 1.5 acres, that’s 65,340 sq.ft.
65,340 / 1,120 = ~58 container-farms; 1 person might need dozens of container-farms to provide all their food.
However, many of our residences/properties use their entire lawn/yard + their rooftop + one of their silo-basements to grow their own food, and 1 grow-silo alone is 40 to 80 container-farms.
Averaged, we can say 60 container-farms per grow-silo, x 40,000 grow-silos under/in our city, means 2,400,000 container-farms down there as part of our silos network.
2,400,000 container-farms / 58 = producing enough food for ~41,380 people.
However, container-farms dramatically increase 1) harvests per year, and 2) produce per harvest (i.e. none lost to weather, pests, etc.), thus it only takes a few container-farms to feed 1 person, so 2,400,000 / 3 = an actual ability for our underground container-farms to feed closer to 800,000 people.

All of our restaurants grow a lot of their own ingredients.  ~450 restaurants x 1 rooftop-garden and 1 food-growing silo (sub-basement; a basement below the basement) = another 405,000 sq.ft. (of roof space) producing food.

All of our residences grow a lot of their own food.  Millions of homes (ranging in size from apartments up to mansions and even castles) x [the sum of the space of their lawns/yards + some of their rooftops if they have one (apartments and skyscraper-suites being the obvious exceptions) + their indoor grow-rooms + their silos grow-rooms] = several dozen more square-miles of productive land.  360,513 – 65 = 360,448 square miles left.

Even all of our skyscrapers and other buildings grow a lot of the food their workers/visitors request/need during their visits and lunch-hours.
1,618 skyscrapers x multiple entire floors growing crops/food = more square-miles of arable/productive land.
Most of our skyscrapers range in base-diameter from 20′ to 205′; with an average diameter, then, of 185′, their average floorspace is 26,880.25 sq.ft..
Most of our skyscrapers range in height/floors from 14 to 204 floors; with an average number of floors, then, of 95, and every 16th floor used as a food-growing space, 95/16 = 5.9375 (the average number of grow-floors per skyscraper in our realm), and 5.9375 x 1,618 skyscrapers = 9,606.875 grow-floors, total.
26,880.25 sq.ft. x 9,606.875 grow-floors = 258,235,201.71875 sq.ft.
1 square mile = 27,878,400 sq.ft.
258,235,201.71875 / 27,878,400 = 9.2629132847921688475665748393021 square miles of productive land
360,448 – ~9.26 = ~360,438.74 square miles left.

All our larger ships also have the ability to grow a lot of food within them.
For example, our rectangular-prism Spacecraft, called a WarShip (WS) spans 10,500′ x 5,200′ (54,600,000 sq.ft., perhaps ~10% taken up by walls, etc., leaving ~49,140,000 sq.ft. per floor), and is 113 floors from bottom to top, with all 12 of its Command-group floors largely being available to grow food, and up to 8 of its 9 Docking-group floors also being able to grow food.
20 floors x 49,140,000 sq.ft. = up to 982,800,000 sq.ft. which can be used by container-farms.
982,800,000 sq.ft. x the 128 WSs docked in the lower-hemisphere of Inisfree = 125,798,400,000 sq.ft.
125,798,400,000 / 27,878,400 =4,512.3966942148760330578512396694 square miles
(and this doesn’t include the grow-space in their ColonyPods or DropShips, or in the ColonyPods and their own DropShips docked in our Main Womb)
360,438.74 – ~4,512.4 = ~355,926.34 square miles left.

Sounds like we are short by hundreds of thousands of miles of necessary arable/farm-land to provide all the nutrition needed by our distant-future projected ~2B annual/returning residents and guests?  Then keep in mind these three main things:

1. Every home in our realm has an edible garden + a productive roof + a grow-room + a silo devoted to growing food.
2. All our big ships grow enough food to feed thousands, if not millions, of people indefinitely.
3. Some of our residents and guests don’t need as much food as normal humans/Outlanders; some are actual Angels and deities.

We also have millennia to adjust and otherwise prepare for that many guests; 2B won’t be showing up for a very long time.  Right now, all we have to feed are ~100,000 (how many show up monthly / for 1 month in 2022).  We certainly have the means to feed all of them and then some; at present, it is very easy for us to feed everyone who comes to our realm.

And, for the grand finale, we have terraformed 205 planets in our own private solar-system, all of them able to produce so much food that we will never run out, no matter how many people visit us.  Each of those worlds has 1,000 Inisfree-like cities on it; we have 205,000 Inisfree-like cities, so multiply Inisfree’s food-producing ability by that number.  Then add all the cosmic-scale Spacecraft we also have staged in that solar-system; we’ll never have a farmland-strain or food-shortage.

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2023 December, and 2024 January, calculations:

• 2B/6 (because it was recently estimated that 1/6 of an acre is needed to feet 1 avg. human on a vegan diet) = 333,333,333.3 acres to feed that many at once.
• Our cropland is ~1,320 acres.
• Counting all the edible-yard, crop-room, and silo-annex container-farms in Inisfree, we have ~64,000 acres.
• Multiply 64K by 219,001 cities in our civilization (Inisfree + those in SSA) = 14,016,064,000 acres; >42x what we need
  –and that doesn’t factor in the fact that only ~1/13 of those 2B approved to visit our realm are usu. the most in it at any time,
  or the fact many of them don’t need to eat (e.g. Angels and Nymphs).
• The farms of those 219,000 Inisfree-like cities won’t be started until 2088 A.D.,
  thus only partially productive (producing harvestable crops) by 2089,
  and only fully productive by the mid-2090s,
  and Inisfree’s guest-population which eats and drinks (requires edible sustenance) will only be ~4.5M (of ~5,000,000 total annual guests) by 2100 A.D.,
  thus a need for ~750,000 acres of farmed land/surfaces (~12x what Inisfree has) if they all showed up at once,
  but they usually only come/visit briefly once a year,
  so we will not need to grow more food (than on our ~64K acres’ worth of farmed surfaces) in our larger ships, or harvest some from the Outlands.
• 64,000 acres x 6 people fed per acre = 384,000 individuals we can feed at a time,
  now x13 to get that year’s total annual guests (since most only come ~once a year, for ~one of our 13 months at a time); 4,992,000 individuals,
  and remember that only ~90% of those who come to our realm ever need/choose to eat/drink at all; ~5,546,667 would be 100% if 4,992,000 was 90%,
  means the year our total annual guest-population is ~5.5M individuals (which is projected/forecast to be right after 2100 A.D.),
  only then would we have needed to supplement Inisfree’s farmland with container-farming in our fleet-ships, and/or with harvesting from farms or other productive lands/spots in the Outlands,
  thus meaning we will never near the capacity of our land / city/ies to provide food for us.

 

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Final Remarks:

Showing People How to Get Established:  By teaching people how they can grow anything anywhere anytime, and by making myself available to travel out to them or even temporarily relocate to wherever their building or retrofitting operations are, I can say with certainty, yes, we absolutely can feed and house everyone.  We can do it for low or even no cost in most cases, too.  Most people only need a small space in or around their house to grow all the food they could ever want or need –including for those who have families living with them.  Most material discarded as trash actually is not trash at all; it’s still perfectly good, useful, and safe for construction and many other purposes.  The vast majority of construction materials and other resources actually go unused; scarcity is a big myth if you know where to look and who to talk to about taking ‘trash’ off people’s hands.

Free Already-completed Homes:  Another thing to keep in mind is that there are more than enough vacant homes (foreclosed on by banks) to give six houses to every homeless person in the country.  Even in China and India, where there are more than a billion citizens, all housing and food needs can easily be met once we allow these overflowing unused resources to be tapped into once again.  There are so many more options still available to us than people are told about, and I can help you find them all.

Plenty of 3D-printers:  It is estimated that 100,000,000 people around the world are homeless, and another 1,600,000,000 lack adequate housing.  Half a million of those are homeless in the USA, but we could solve that problem literally overnight by simply giving them the keys to just 1/6 of all homes confiscated by the banks.  It turns out we can give homes to all the other 1.7 billion homeless and inadequately housed, too; it only takes one day to 3D-print an entire house, and there are tens of thousands of 3D-printers on the market and around the world already, and many major corporations using the biggest and most advanced ones.  Committing them to printing houses and other building components, such as walls and ceilings, or even furniture and appliances, could reduce that 1.7 billion number down by millions each year (imagine each of 20,000/+ house-printing 3D-printers making 1 house per day; 20,000 x 365 = 7,300,000/year), eliminating homelessness within this very decade (especially if we have some of those 3D-printers printing other 3D-printers which will then be added to the housing effort).
(10 years x 7,300,000 new houses printed each year = 73,000,000 new houses every decade, all costing less than $20,000 –and this is before factoring in the possibly-exponential increase in the number of house-printing 3D-printers)

The Tiniest and Nonexistent Budgets:  For those who have no money at all, or even anything to trade with, there are companies who can 3D-print (automated construction) entire houses for less than $50. Yes, just fifty dollars. There are other companies that are finding ways to set up mobile farms and community centers in modified shipping containers, too. In short, there’s always a way.

Increased Speed and Flexibility:  We are at the point where we can 3D-print everything we need, and at a rate more than 100 times faster than conventional construction.  (It takes 7 months, on average, to build most houses; compared to 1 day to 3D-print a house, that’s 210 times faster.)
We have learned exactly what every plant on the planet prefers, and how to artificially create and maintain those conditions.  (We can grow any food anywhere now; we are no longer dependent on climate-zones or even arable land.)
We can build entire neighborhoods and cities within days now because of this, and have them feeding themselves by the end of the season.  (Anyone who needs shelter can be given good shelter within hours, and their eating-out and even their grocery bills can be reduced, if not completely eliminated, within months, sometimes weeks.)

Huge Accomplishments Proving We Can Do This:  Companies in multiple countries have already built man-made islands, floating cities, skyscrapers which dwarf some of our own, cities with no traffic, underground cities (of which we have 130 like NORAD, and counting), and communities with farms in some of the most remote places on Earth.  We are expanding the amount of land we have available to work with, and learning how to establish cities out on the oceans.  And the state-sized islands of trash floating out in the middle of each ocean?  There are projects underway right now (such as The Ocean Cleanup Project) which are collecting every last piece, cleaning it all back up again, with the vast majority of it becoming useful as endless free building supplies.  There is little we can’t do and aren’t doing.  Take a look.

Easy Math:  Now a look at some more of the numbers; 98% of land is undeveloped (only 2% of all land has our cities and roads on it), 50-90% of most countries is still land no one lives on at all, 95% of the oceans are still unexplored, 100% of the oceans are still open for development as living space, 99% of the Earth’s crust and caves remains unexplored and undeveloped, 99% of Earth’s atmosphere and orbital Space remains undeveloped.  There are also as many as 1,000 giant container ships and oil tankers scrapped each year which we could be converting into floating farms and communities –with hundreds of times the output of traditional farms (because they stack container-farms up to 16 high, each of which can produce 7-20 times as much as the same area of farmland; 7 x 16 = 112 times more productive, and 20 x 16 = 320 times more productive).  When we start to build on and farm in just 1% of these spaces, we will never have any food or water shortages again.  Earth is capable of comfortably housing trillions of us, not just several billion.  There is room for us all out there (I have seen it), and we can all live like kings.  All it takes is making more-intelligent use of the vast space we still have.

In Short:  So, yes, we can definitely feed and house every single man, woman, and child on our planet.  We can do it in record time.  We should.  We will.  I will continue to help by providing this information and offering my consulting services to everyone with good intentions, desiring to learn and try this life-changing stuff out.

 

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