Quote from: lamontagne on 05/08/2023 02:04 pmGreenhouses would reduce this by some significant fraction,Only if there aren't additional energy costs elsewhere, due to thermal issues (for example). Or additional infrastructure costs to solve those issues (such as day/night counter-cycling heat-sinks, deployable insulating night covers, etc) that add to the ISRU-materials and energy-of-production demands on the early settlement.Given the alien environment, and lack of reasonable analogies on Earth, IMO people should take the numbers from fully artificial grow-rooms (as you did) and assume that's the minimum for any ag on Mars. (The reasoning being, as I said earlier, if your numbers don't work without assuming near-free agriculture, then your margins are too slim for the unexpected realities of Mars.)Quote from: lamontagne on 05/08/2023 02:04 pmGrow rooms with staged growing patterns might allow for a nearly constant demandYou'll almost certainly need supplemental lighting in greenhouses -- even if you're not trying to maximise productivity, you will still need to mimic natural seasonal variation to trigger key stages of growth (such as flowering/fruiting). In which case, you can have staged growing in greenhouses just as you can in grow-rooms. It's not a "trade" between the two.
Greenhouses would reduce this by some significant fraction,
Grow rooms with staged growing patterns might allow for a nearly constant demand
Taking LMTs numbers in the image 100 kWh/day for 2500 kg per day feeds about 2.5 persons per day if they eat only wheat. 100 kWh/day divided by 2.5 = an average power of 40 kW per person.Most foods hold less power than wheat.
Quote from: lamontagne on 05/08/2023 02:04 pmTaking LMTs numbers in the image 100 kWh/day for 2500 kg per day feeds about 2.5 persons per day if they eat only wheat. 100 kWh/day divided by 2.5 = an average power of 40 kW per person.Most foods hold less power than wheat. Maybe calorie density per pound of food, but per growing area wheat is actually rather poor as staple crops go.There's a reason Andy Weir picked potatoes...
Quote from: Vultur on 05/10/2023 06:40 pm...per growing area wheat is actually rather poor as staple crops go.There's a reason Andy Weir picked potatoes...All here: https://marspedia.org/Food
...per growing area wheat is actually rather poor as staple crops go.There's a reason Andy Weir picked potatoes...
The values are high but remain below record yields...
Most foods hold less power than wheat. However, there are biological reactors that have higher yields.
Quote from: lamontagne on 05/10/2023 06:56 pmQuote from: Vultur on 05/10/2023 06:40 pm...per growing area wheat is actually rather poor as staple crops go.There's a reason Andy Weir picked potatoes...All here: https://marspedia.org/FoodQuoteThe values are high but remain below record yields...Your table actually states the record yield for wheat, from Bugbee & Salisbury. That's not "theoretical" or "below record", but the achieved record, with calorie density an order of magnitude beyond potatoes, in your table.Quote from: lamontagne on 05/08/2023 02:04 pmMost foods hold less power than wheat. However, there are biological reactors that have higher yields.Calories = energy. Do any reactors truly have higher yields? What are the facts? They should be in your article.
Quote from: LMT on 05/10/2023 09:13 pmQuote from: lamontagne on 05/10/2023 06:56 pmAll here: https://marspedia.org/FoodQuoteThe values are high but remain below record yields...Your table actually states the record yield for wheat, from Bugbee & Salisbury. That's not "theoretical" or "below record", but the achieved record, with calorie density an order of magnitude beyond potatoes, in your table.Quote from: lamontagne on 05/08/2023 02:04 pmMost foods hold less power than wheat. However, there are biological reactors that have higher yields.Calories = energy. Do any reactors truly have higher yields? What are the facts? They should be in your article.they achieved those numbers with a lot of lighting and multiple trays. the tables are mostly for single layer growth, unless otherwise stated...
Quote from: lamontagne on 05/10/2023 06:56 pmAll here: https://marspedia.org/FoodQuoteThe values are high but remain below record yields...Your table actually states the record yield for wheat, from Bugbee & Salisbury. That's not "theoretical" or "below record", but the achieved record, with calorie density an order of magnitude beyond potatoes, in your table.Quote from: lamontagne on 05/08/2023 02:04 pmMost foods hold less power than wheat. However, there are biological reactors that have higher yields.Calories = energy. Do any reactors truly have higher yields? What are the facts? They should be in your article.
All here: https://marspedia.org/Food
The reactors seems to be able to use thermal energy to produce food, so they are quite efficient. I have the paper but I haven't used it for a few years.
"A lot of people doubted that these materials could ever be strong enough to deal with the harsh environment of space," McMillon-Brown said. "Not only do they survive, but in some ways, they thrived. I love thinking of the applications of our research and that we're going to be able to meet the power needs of missions that are not feasible with current solar technologies."
The reactors seems to be able to use thermal energy to produce food, so they are quite efficient.
Quote from: docmordrid on 04/14/2018 03:47 pmSome thermites are used for metal refining and welding. My dad used thermite to weld a cracked tractor engine block, a method he picked up during WW-2 to repair Jeep & aircraft engines, and I guarantee you it's hot enough 😨The oxide he used was iron oxide, rust, and I believe Mars is awash in it. Fuel: powdered aluminum. Fe2O3 + 2 Al → 2 Fe + Al2O3Liquid iron, on the half-shell, with gobs of residual heat for other uses.Historically this was SOP for railroad welding repairs. Of course the problem is where you get the raw Aluminum powder from in the first place, which is even more energy intensive than Iron, and can't be reduced using coke.
Some thermites are used for metal refining and welding. My dad used thermite to weld a cracked tractor engine block, a method he picked up during WW-2 to repair Jeep & aircraft engines, and I guarantee you it's hot enough 😨The oxide he used was iron oxide, rust, and I believe Mars is awash in it. Fuel: powdered aluminum. Fe2O3 + 2 Al → 2 Fe + Al2O3Liquid iron, on the half-shell, with gobs of residual heat for other uses.
Quote from: Barley on 12/20/2019 12:29 amBorosilicate glass is more resistant to thermal shock, but soda lime glass Pyrex(tm) casseroles routinely go from a 225C oven to a 20C room so it has some resistance to thermal shock.Air is a lousy heat conductor, particularly when it's still (still air is basically an insulator). If you remove a baking dish from the oven it doesn't cool down that rapidly so it's not being over-stressed, and also any food/liquids in the dish are absorbing some heat so that regulates the temperature a bit. On the other hand, water is an extremely good heat conductor so if you took the dish right out of a hot oven and dumped it in a sink full of cold water, it will fracture. That's why ice cubes crack when put in a glass of water but not when you remove an ice cube tray from the freezer and just set it on the kitchen table at room temperature. They will gradually thaw and melt, but do not crack as the temperature change is much less sharp.That's why standing outside on a 65F day feels perfectly nice and comfortable but you would not enjoy swimming in 65F water very much. Air doesn't conduct heat that much, water does.
Borosilicate glass is more resistant to thermal shock, but soda lime glass Pyrex(tm) casseroles routinely go from a 225C oven to a 20C room so it has some resistance to thermal shock.