It's worth mentioning that the facebook forums for hydroponics farming are full of people trying to sell these things second hand with no explanation 'why'.

People have been making flood and drain systems for years, controlled by a super-reliable mechanical system. The downside is that these are typically much larger and heavier. The ones I've seen have a bed of gravel as the grow medium. It also has many gallons of water in the system, and no doubt that evaporation is more of a concern.

Wouldn't something like Minecraft Vertical Farms be more effective, specially because you could just have a basin a top of another basin, and have the water drip from the top one to the ones below, thus requiring only one pump to pump the water that collects at the very bottom back up to the top. Of course, having aditional pump to add more water to the system would be helpful but not necessary. The only problem that I've faced with such a design is the amount of mass that all together would have and the required flood strength to support such a weight. That being said, having smaller such systems for room like enviroments shouldn't have many problems.

I want to get my feet wet with hydroponics because my daughter loves fresh produce and I love the idea growing her favorite fruits and veggies. Do you now how Zipgrow compares to Aerogarden (the "farm" size one).

I should clarify that the problems I experience are probably not specific to ZipGrow, but would happen to any vertical hydroponics that require functioning system to keep roots damp.

Soil is an amazing technology.

There's an entire community building these makeshift "space buckets" for growing plants indoors.

https://www.spacebuckets.com/

https://old.reddit.com/r/SpaceBuckets/

It's generally not feasible to reuse, not to mention if it's not done properly then you put the next crop cycle at risk.

I think the goal here is going distributed so that by moving the end produce closer to you, you save on packaging, logistics, and other expenses. Plus growing something gives you joy.

Doing that in schools teaches kids about farming, about food, and how it gets on their table. I'm doing the same at home to teach my children the same.

Also in the times of the crisis you reduce the pressure to producers and shops by consuming your own instead of going to the shop.

Having built a system in my basement to grow basil, spinach, and lettuce, there's a whole lot more to it than $25 in plastic.

First, you should use food grade plastic, then there are lights, a pump, shelving, growing medium, fertilizer, ph adjustment, extension cords, timers, cups, air tubing, and air stone, and a bunch of other stuff.

Then you have to get it all home, double and triple check you are doing it correctly.

I don't think I spent $500, but no way anyone can put together an equivalent system for $25. Like most things, there's a lot more complexity than people realize.

Every time one of these vertical/rotating indoor farms comes onto the market (usually via crowdfunding), it has roughly the same level of cost inflation. Haven't quite figured out who they are conning into buying these setups.

This is reminiscent of the people who ask, "Why would anyone buy a pre-loaded Linux laptop, Dell's Developer Editions, when you can already install it on an older Thinkpad?"

Service, support, ease of use and setup, and, in the case of something that might be visible in a readily trafficked area, aesthetics.

If those things are not valuable to you (and they may not be) then you are not the target audience.

Square vinyl fence post or large diameter PVC pipe are commonly used with Nutrient Film Technique aka NFT. Both super cheap at Home Depot as well.

Sibling is correct. Plenty Ag acquired Bright Agrotech for people and IP. Bright was profitable but faced a difficult time scaling. It’s business model depended on individuals getting enough capital to start a farm. Many farms were profitable, but not all, and it’s difficult finding lots of people wanting to take out loans to start farms and banks didn’t understand the idea of indoor farms. Plenty Ag raised $200 million (largely from SoftBank) and needed to get a jumpstart on working tech and experts in the field. I’m still hopeful that once indoor farming tech keeps improving (based partly on large investment in the Plenty’s of the world) and banks accept indoor farms that individuals will be able to easily run indoor farms. A big part of that would be more labor automation. Plus if an asteroid ever hits Earth knowing how to grow indoor food would be valuable. ;) More realistically (hopefully!) indoor farming will be critical for colonizing Mars or asteroids. Long term, indoor farming and vertical farming will be critical technology for humanity to perfect, IMHO. An example (and fun) tech innovation was Bright’s invention of “water cooled LED towers”. That’s an early “Google style” innovation akin to using trays of cheap servers. Regardless hardware innovation takes massive amounts of capital. I’m hoping the Plenty Ag people are able to make fresh produce “a thing”! Edit: link to water cooled led’s https://info.brightagrotech.com/hubfs/Downloadable_Guides/Co...

They were bought out by a company from Cali. Bright Agrotech started in Laramie Wyoming.

Their first "major" greenhouses were behind the building that my company was in. Really interesting people.

Hydroponics would be the alternative to aeroponics, I think? Aquaponics usually means a hydroponics system in a loop with fish tanks.

Sibling is correct. Aquaponics is a (partially) closed loop system where fish provide nitrogen for the roots, and the plants clean the water for the fish. You still need to feed the fish and sometimes balance the water pH.

I've experimented with both. Aeroponics is a LOT more complicated- you really need a high-pressure system if you want good results (fogponics with an ultrasonic humidifier doesn't work well enough). And a high pressure system has to worry about clogs in the nozzles, and it has more moving parts, and some of those parts need to be well sealed.... vs. hydroponics which can be as complicated as turning on and off an aquarium pump.

A lot more maintenance issues with aeroponics

This is a false choice. Urban agriculture doesn't need to mean indoor agriculture / relying on excessive electricity / complex equipment etc.

Cities can be plenty dense while still having enough space for people to grow potatoes for themselves and their neighbors.

Source?

AFAIK traditional artificial light sources do indeed dissipate much more energy for the same amount of 'useful light', and also produce so much heat that they cannot be placed near the plant.

Is artificial light mandatory in urban farming? Aren't some (non fiber-optics-based) "light tubes" able to transmit light along with the necessary UV?

These arguments are often lost shen people believe in something blindly. Tomato grown in Spain and flown to England will end up costing our earth less than the smae tomato grown in England because of additional energy to keep it worm required.

I entirely agree, this would be great. I don't see why it has to be done in cities though. Farmers in smaller co-ops can provide a similar decentralisation.

The grocery stores are low on stock because of selfish people panic buying, not because there's not enough food. The supply chain is still functioning normally.

The system looks pretty damn robust given that we've just shut the global economy down and the food still keeps coming in. Maybe with some hiccups but that's complaining at a high level.

The reason decentralization doesn't make a lot of sense is because we need to produce food cheap and at scale to feed the world. Putting thousands of dollars into vertical farming equipment that doesn't fit into the apartments of most people on the planet is kind of silly.

There's also simply division of labour at work here. It's uneconomical for large portions of the population to spend their time farming.

It's essentially just a recreational hobby for wealthy people or maybe reasonable on a Mars Colony, but here it does not make much sense.

Until you genetically engineer a more efficient plant and your back to a net loss even assuming absolutely free panels and LED’s etc.

Vertical farming only really works as either artistic preference for maximum visual appeal or the kind of science fiction where you assume only a small handful of technology advanced.

> As far as the urban agriculture crowd goes, they're concerned about the length of their logistics lines to their tables. Raspberries grown half a mile down the street in winter is better for the environment than flying them in from another hemisphere.

Aside from environmental effects, it’s also just a more secure logistics chain. A person needs water, food, and shelter to survive. Sometimes it feels strange to me that the trend of the past centuries has been to increase the distance between a person and those sources — to introduce more points of failure between you and the things you need in order to survive.

Unless you do pull out fusion, you will always have too huge loss between solar panels and LEDs. As efficient as LEDs are now, and I know because I just built 1200 watts of the latest and most efficient LEDs that are available, they are nowhere near cost effective in comparison tot he sun. Plants are not nearly as inefficient as people believe, especially when you consider the fact that solar panels themselves can also only absorb a small fraction of the light spectrum.

That 1200 watts is only really covering a 6 by 6 foot square worth of growth area at about 35 watts a square foot at 200 lumens per watts. It could be slightly larger but only if you want most plants to grow extremely slow or be really weak, and you can go up to 50 watts per square foot before requiring supplemental CO2 but not all plants like that amount of light.

Converting that to 1 acre worth of coverage, which is what is about what is needed to feed a single human for one year, you are looking at about 1,500,000 watts running 12-18 hours per day. That is a ridiculous amount of energy. Even assuming you can get away with 1/3 of that area by super careful and efficient growth year round that is still a half million watts in lighting costs alone. Not to mention all the other work and costs.

I don't see indoor farms being good for anything other than extreme specialty plants or extremely fragile plants until we can pull essentially limitless energy out for far cheaper than we can get even with fossil fuels.

Indoor you could surround the plant with mirrors so more light gets input into the plant. Also no wasted water.

This is true to an extent, but I certainly wouldn't say it's the case for most. From my observation working in the field it was really only a thing between 2013-2015.

Most of the pollution from food production comes from actually producing the food. Things like tractors and stuff use a lot of fuel.

Furthermore, putting farms in urban buildings means that some urban businesses or residences will ha e to be moved further out, increasing pollution. In reality, this would move the pollution to the urban areas, and not reduce it.

Lastly, I can’t think of a reason that you’d know more about farming practices if it happens in an urban environment than in a rural environment

>They have no land and one of the largest agricultural producers in the world.

That's a bit of a misconception. Most people get the impression from the headlines that they produce a lot of food, but that is not really the case. The Netherlands is the world's second largest EXPORTER of "agricultural products", by dollar value. 10% of that is consulting and equipment. Another 10% is flowers. Those are not food. Even in the remaining 80%, it is mainly products that are high in monetary value, but low in land efficiency, like cheese and flavorless hydroponic tomatoes. The Netherlands actually only produces 50% of the calories needs of their population, and exports away a good chunk of that. They rely on importing staples to feed their population.

>More efficient, cheaper, better for the environment

The Netherlands model is none of those things. It is just used as a propaganda tool for a corporate greenwashing campaign to convince people that spending lots of money on environmentally destructive and wasteful technology is good for the environment, when it is actually being done because it is good for the bank accounts of a small minority of wealthy people.

In Japan there are also some pertinents operations.

Mirai ( http://miraigroup.jp/en/ ) states some benefits.

Typo for 'solar'?

I it was intended to be solar roads.