Vertical farming, the best solution to support an ever growing population or just a scam?
IMHO it has a lot of potential but not being able to grow grains really is something that should be tackled sooner rather than later. But I could see this being used by self sustaining communities to provide lots of food while using very little space. And it’s technically more environmentally friendly than just using vast stretches of land to produce the same amount of food.
I have gone back and forth on vertical farming. There are scams in the field, but there are also some merits (most of them apply to urban farming in general).
The main issue you have with vertical farming is that there is only so much stacking you can do before you get out of light. A pillar like in the illustration projects a shadow, in which you can’t really put plants.
However right now sunlight is not the limiting factor for plants growth. IIRC depending on the plant it is either water or CO2 so you can do some amount of vertical farming. To me, the interest is not to come as a replacement for regular farming (so growing grains is not the issue, you will have a hard time beating the efficiency of a flat field + tractor), the interests are:
- freshness. Having herbs that you can cut as you need them is really a taste changer.
- air cleaning. Some plants do have the ability to fixate some VOCs.
- less transportation. Having the plants grown in the same building block means that the CO2 footprint will be much lower
- more efficient water usage. Careful with this one, in some places water will be more scarce in city than countryside, but water consumption of such systems is generally lower.
- less refrigeration. If the food has less transportation it also requires less refrigeration
- local fruits all year long. Assuming they are put in a controlled environment like a greenhouse, getting food that normally requires a lot of transportation locally becomes possible.
So to sum up, it is less of a solution to make regular agriculture sustainable and more to make sustainable agriculture more enjoyable. Actually one does not need tasty herbs and exotic fruits, but the ability t have them without poisoning the planet is nice and, well, solarpunk.
That is a very interesting perspective, thank you for making me think of things in a slightly different light. But yes I agree any type of advancement in farming from this point in human history and onwards should be attempting to achieve 2 things:
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Dont poison the planet (we kind of need it)
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Make food preferably with some variety
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Depending on how you generate power, you could use LED grow lights in vertical farms. You also have the luxury of working in an environment that you can tightly control; that means you may not need to use pesticides or herbicide at all. If you aren’t working in large fields, you can get away from using heavy diesel farm equipment.
Fundamentally, we need to use less land for farming, we need to use far fewer pesticides and herbicides, and need to reduce the emissions associated with farming. Vertical farming has the potential to help with all of those.
The pest control is true for the short term, though I find that over time even well kept facilities develop some kind of pest problem.
maybe if they kept chickens in the lobby…
You could, for instance, shut down at the end of a cycle and do a thorough cleaning without using pesticides. Using steam, heat, and high-powered ultraviolet light, you should be able to effectively kill any pests or eggs that pests are leaving. Yes, pesticides are certainly less expensive in the short run, but in terms of long-term health for the entire planet, they’re super-bad.
Freshness is such a key thing, the difference is taste is so significant especially with herbs and greens so enabling people to have an easy to manage and small footprint little tower of good food in their garden, balcony, or similar would be really good especially for renters if it could be packed up for transport then resembled in the new location.
An overlooked factor that I have no idea how to quantify is that access to tasty greens may reduce meat consumption.
There’s an organic produce company in Manhattan that uses vertical grow chambers and they get around the lighting problem by illuminating from the center of the cluster and rotating the plant pods occasionally.
They get around energy usage by charging a premium and taking advantage of state agricultural grants.
It’s expensive but you can get city grown butter lettuce year round.
Normally that would be a bit of an heresy, but fun thing: with the good LEDs at the good frequency, you can make a solar panel + LED setup that is actually efficient enough to provide more light to the plant than it would normally receive.
depends extremely heavily on the efficiency of the panels.
You would need to exceed 84% solar to electricity conversion efficiency to make that conversion pay off.
As chlorophyll has an approximate 90% maximum interception of 400nm to 740nm light and your panels would be getting the extra energy from frequencies outside of that range. The energy of a photon is determined by hc/λ, with the result that the energy of a blue photon (400 nm) is 75% greater than that of a red photon (700 nm).
Anything less than that would be a net loss unless there is a significant increase of ultraviolet light in the near future.
Within the 400 to 740nm range chlorophyll has a huge gap: https://cdn.kastatic.org/ka-perseus-images/27c5e928745dbde12550494315ec70253091eee5.png whereas sunlight is strong across all of it. Grow lights usually only provide blue and red wavelengths that are better absorbed. Also, most plants’ growth are not limited by sunlight but usually either by water/nutrients or CO2, so most of them can receive a bit less light than the sun typically provides.
The calculation we had done a few years ago, that gave us the result that a square meter of PV could light up almost 2 square meter of crops, only took these spectra into account.
Since then, I have read really counter intuitive things that may even raise the efficiency higher (and the weirdness of grow boxes even more). People started using LASER LEDs to grow plants. Low power of course, but it turns out that concentrating the light on where the plants and leaves actually are does indeed maximize the number of photons that get absorbed.
Here again, I am not sure this is something desirable or the future that I want, but this is a possibility that is out there.
and how did the experimental test of the calculated results turn out?
I would be quite interested to learn more.
This was just a theoretical discussion, like I said, I am not sure this would be a good idea per se even if possible.
Do you have details on this?
Ah not really, just did the math a while ago with someone. I was arguing that it was inefficient and stupid to put a solar panel somewhere to generate electricity to grow plants with LEDs vs just putting the plants under the sun. We saw that not only was it actually possible energy-wise but if you take the limits of the efficiencies in terms of LEDs and solar panel you could barely stack two levels of plants. It was something like 5 years ago so I guess efficiency has raised since then.
One for one the efficiency improvement is not so great, but it allows extending the time of light availability, which can make a real difference in northern latitudes during winter time.
The notable thing about highrises is a small solar footprint, and you need to have ownership/rights to install on the roof.
If you have that much space for solar panels, then maybe a traditional grow would be better than urban vert farming
I am not saying that this is necessarily a good idea, but it is technically possible to grow more plants with solar panel + LEDs in the same area than through direct sunlight illumination. (IIRC by almost 200%).
The added complexity and manufacturing may not be worth it, but the calculation can be different where your energy is cheap and abundant through other renewable means that have lower footprint (like hydro or wind).
It can also be really good in areas where the climate isn’t great for year round growing, with enough PV you’ll still get enough to power the LEDs which you can put close above the plants and have on for 17 hours where as the natural sun might not be as bright or steady, also if you have like a wall unit inside then you don’t need to worry about frost, slow growth due to cold or hot weather scorching. Having herbs growing inside really improves the quality of a room too, that fresh smell is nice.
@keepthepace @Doctor_olo Do remember that in a city shadows (shade) can be valuable.
Even away from cities, there are conventionally farmed crops that would appreciate the shade that a bunch of photovoltaic panels could offer: Put them higher up and provide sufficient access below.
So I am currently switching careers into vertical farming and have done a lot of work and research on this subject and here is just a bit of my 2 cents.
- Vertical farming can be less water intensive then traditional farming. Combined with an aquaculture system it can have negligible to no water loss which is great for arid climates.
- Hydroponic/Aquaponic systems have a huge upfront cost yet a comparably negligible year over year cost.
- This method has proven perfect for growing certain fruits, vegitables and leafy greens however has shown so far that its not the best for growing things like fruiting trees or staple crops like corn/wheat.
- Financing for vertical farms are virtually non-existant. So generally you have to go to private equity for financing. This is a problem as vertical farms are not the most profitable even after recovering $$ from upfront startup costs.
So it has great potential to seriously change our current food system and allow us to keep producing food in spite of drought. However it has a long way to go as a technology and will need serious federal legislation to create financing programs for this method of agriculture so farmers are not saddled with insane debt and growth projections that they will never be able to meet.
One more advantage: Vertical farming creates it’s own mini ecosystems, thus
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allowing growing of exotic vegetables in your town
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leaving natural ecosystems unoccupied and unaffected by pesticides, if used in the broad.
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This is incredibly insightful as someone who want to get into the business, I agree that as always the governments are like 2 years behind new production methods and I wish that wasn’t the case.
More like 10 to 20.
Come on give them some credit in the Balkans were around 50 that’s good enough if you ask me.
Honestly, this seems like a solution looking for a problem. We already have a lot of agricultural space available and in use. We just use that space very inefficiently to actually produce food. There are huge benefits to be gained from switching to sustainable farming, and probably a largely vegan diet too (just based on Ressource use alone). Once farming is focused on producing food and preserving nature, instead of creating profit we can look to further improvements. Even hydroponics or mixed use gardens are likely a better next step here. There simply isn’t a need to cram our food production onto a wall yet, especially if that requires costly infrastructure made of difficult to recycle materials.
While I generally agree, I think you are over-looking transportation needs and all the externalities associated with that. Vertical farms can be for apartments, what backyard gardening is to less densely populated places.
Vertical suburbs? Less dense cities in turn increase transportation needs again.
I also think transportation is a rather insignificant part of food production, based on the stats and graphs I’ve seen.
Why would they be less dense? The entire point of vertical farms is that they can be fit into places without decreasing density of housing.
The just in time delivery transport needs and related food-waste is quite significant for the type of highly perishable produce these vertical farms can provide. I think the stats you saw are for the entire food sector.
Why would they be less dense? The entire point of vertical farms is that they can be fit into places without decreasing density of housing.
As I understand the concept, it is basically farms between houses, in houses. There’s an opportunity cost: You could also have people living in that space.
I believe housing people is better than housing crops, for social reasons (housing prices high), but also due to economies of scale. A denser urban area makes all utilities and public transport more efficient.
Walkable cities are worth striving for. Some things like living, working, social activities cannot be outsourced without breaking that concept. Delivery with goods can be outsourced.
Does the farm have to be within town, is it more important than other things which could be in the same place? A truck can drive quite a distance in a few hours, which is short enough for perishable goods.
The type of vertical farms most people are talking about are under-ground or on roof-tops and occupy next to no space that could otherwise be used for housing.
The roads required for trucks take up more space in cities than those vertical farms would.
I see your point, but I do still think that vertical farming has its place in a solarpunk future maybe not in the sense of mass production but more personal like a veg garden or something similar.
Sidenote better than hydroponics is aquaponics providing more and better quality food.
Once farming is focused on producing food and preserving nature, instead of creating profit we can look to further improvements.
I think it’s a good way to grow specialty crops (berries etc), and a great idea in space limited countries (Singapore mentioned).
I also think the inputs are pretty big, but you can control things better.
I don’t think it’s the solution to our food issues, but I think it can be used to build robustness into our system and decrease chemical inputs (mostly)
Also it looks cool af which is a point not to be neglected.
I think space efficiency is not really a big factor. As others have said, every tower casts a shadow, so the sunlight is not being used.
However, it is good for indoor planting, because under a roof, space efficiency is necessary. So, we could have some sort of climate controlled greenhouses, and they would surround a vertical farm. The greenhouse “shadow” would be outside, and it means your plants are safely indoors, protected from heat and cold.
This is a hard one for me because I love technology and especially plant-related technology. However, I’m also a big advocate of appropriate technology. Vertical farming seems, to me, to be a niche technology, not a total solution. Vertical will be a part of total food production, but only for specific crops in specific circumstances.
A crop needs to have certain properties to be a candidate for vertical. I’ve seen close up two examples of crops that seem very well suited to vertical: leafy greens (with numerous exceptions and caveats) and saffron. Peppers and tomatoes and other watery fruit crops are also good candidates.
Leafy greens fit the profile for a crop that is better to grow near to the consumer, for reasons of wastage. The really savvy lettuce growers have coupled their indoor facility design with plant breeding programs to optimize the plant for indoor conditions and even improve the nutritional value of the greens. The potential for optimizing the crop is immense. Being such a uniform product, efficiency gains from automation are already possible, too.
Saffron is a very high value spice produced from the male flower parts of a crocus. There is now commercial production of saffron in vertical farms. Individual crocus plants are very short, so the planting density is very high, because the shelves can be very close together and still be reachable by workers. Saffron is almost the opposite of leafy greens as a crop. It is value-dense (about $50 an ounce) and nutrient-dense. It also has a longer shelf life and is vastly more economical to ship.
Vertical farming is inherently capital intensive. Each crop is somewhat unique, enough so that a dedicated R&D effort is required for every new crop. Once some of these early ventures weather the current capital drought and the whole capital lifecycle of vertical farming is better understood, I hope to see continued capital investment bringing a greater variety of crops to vertical production.
We already know so much about how to make good soil and farm outside well and sustainably. There’s still a role for concentrated capital in dirt farming, too. I’m most familiar with the case of automation in farming, like laser weeders. For us to make real progress in improving dirt farming, the innovations will need to be social and political, a much harder row to hoe.
I think even more important than saving space is making the food more local so they don’t need to be shipped so far.
I actually did a big project on this and we basically found that for people in flats wanting to grow small plants they’re amazing, but there’s very little point for actual farming
It got a bit of a bad rep lately because of some venture capital funded start ups trying to dominate the space, but in general the technology has its niche for growing easily perishable vegetables near or inside population centres.
Yes, I think this technology works best to fill a niche in denser cities, just not to provide for the food needs of a whole city. They would also improve the quality of life in the city.
I agree it’s all about where we apply the growing methods that makes a difference
It’s not exactly VC startups dominating the space that is the problem. It’s the lying scammers doing it.
But I suspect we’re talking about the same, heavily TikTok-present company.
we already produce enough food to feed the entire planet (industrial food waste seriously hampers that effort) – add in several claims that US could double food production just by breaking up factory farms and converting to family farms
one of the solarpunk short stories (forget which collection) posited a competition set up on separate islands, one group with industrial farming, one group with permaculture, one group with vertical farming – obviously for the story, the permaculture group did best (worked with what was in place and what actually grew there), industrial farming required too much input (importing expensive fertilizers, pesticides, herbicides), and vertical farming required too much technical maintenance
the technical aspect is what I see as the biggest issue – I could see vertical farming being a great solution in a sterile environment (ie. a space station or an arctic greenhouse), but in everyday practice having a stable power supply for water pumps and constant maintenance (clogging from nutrients and fertilizers, filtering hard water to prevent calcium build up, roots binding up emitters) and having to compensate for the lack of soil microbiology would all take its toll
How do you think factory farms and family farms differ?
Most farms are family owned corporations. Anything else is either stupid accounting, or Low productivity (the Amish is the most obvious example of low productivity farms that are generally not corporate)
We misuse/underutilize a lot of the farm land we already have. I dont think the issue is lack of space.
We’re doing some vertical farming in our backyard. I think it’s a good way of moving food production more locally to urban centers and reducing transport costs (and thereby related emissions). I don’t think they’re the solution for everything, and I do think using our current farmlands more efficiently is critical. In certain ways, I think vertical farming might be able to provide some of the improved green spaces in urban areas that Garden Cities were meant to before it turned out that Garden Cities deepened the divides between classes and races in urban centers.
Overall, I think we need not think of vertical farming as “How do we solve the food crisis” and instead as “How do we provide people without land the opportunity to experience the joys of gardening their own food”
Totally agree lots of potential to lighten the load for the average Joe or Jane when it comes to groceries
I would vote for more efficient means by removing highly inefficient food “production” - aka meat. That would free up a lot of potential. Vertical farming can probably be used sustainably in some cases but I feel it should not be used on a bigger scale.
A cow can pasture on marginal soils that are not well suited to other crops. While I agree that the vast majority of current meat production and especially feedlots and other Concentrated Animal Feed Operations ard a large waste of resources, there is SOME space for meat production, and it CAN be better to have a small baseline amount of pastured meat than to eat exclusively vegan.
While I totally agree with you, that cows have a slim potential to generate a calorie plus by eating exclusively from otherwise unsuitable land, I would argue that it will be unnecessary in most cases.
From an ethical standpoint, I must disagree with you as there is no justification to exploit animals if there are alternatives.
Agricultural researcher here, working in this field (hydroponics, aquaponics, vertical farming) for approx nine years.
Here is my TLDR:
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The comparison “traditional agriculture vs vertical farming” is misleading. Water saving and many other benefits come from hydroponics and crop protection (CEA - Controlled Environment Agriculture aka greenhouse). So a more accurate comparison has to be “CEA vs vertical farming”.
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Plants consume light. Seven photons for one photosynthesis reaction (one sugar molecule). One Mol photons (or more) for one gram dry biomass. Artificial light is very space inefficient compared to just using natural light for the plants. 23% efficiency for photovoltaic cells, 50% efficiency for LED light and some losses for transformation and transportation of electricity. In total when lighting the growbeds with electricity from photovoltaics for each square meter of growbed, ten square meters of PV-modules is needed somewhere else. I fail to see the space efficiency argument of vertical farming unless we are using nuclear for generating the electricity. Total efficiency losses of artificial lighting are >80% compared to using natural light, leading to a huge carbon contribution. This alone is not sustainable.
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In CEA, and thus in vertical farming also, we are mainly producing leafy greens, herbs and other vegetables. This is known as horticulture. Taking a look at statistics of the products of agriculture it can easily be seen, that the staple crops, grains and tubers, are by far (!) the major products. These can not be replaced by CEA production. And these are actually supplying the calories to feed the people. The amounts of agricultural area dedicated to these crops dwarf the horticultural production.
My takeway: VF is by no means a solution of the challenges we are facing in agriculture. Energy demand of the plants for lighting can not be optimized away, and thus will remain a major cost driver. IMHO the vertical farming industry is creating a hype aiming to harvest and burn venture capital. Recently Aerofarm filed for chapter 11 and also the company Infarm is broke. These were the poster childs of this industry.
Except for very specific niche applications to me VF does not make sense.
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Looks like a lot of plastic.