Theemile wrote:tlb wrote:Municipalities have trouble with sludge, because they have no control over what people are eating or otherwise disposing; that will not be true on a colony ship.
Anything organic in sludge is potential fertilizer for the hydroponic gardens. Anything inorganic needs to be separated and stored for reuse. The main sources of problems in sludge involves heavy metals. Most of these should have been eliminated in the building and loading of the ship. Any heavy metal not absolutely needed to sustain life, should have been purged from the ship before it launched. There may be radioactive materials that build due to bombardment of the ship, but these should be kept away from the living areas.
Note that the people also need to go through a purging process to eliminate any heavy metals that they previously ingested before they board the ship.
Actually, the best ways to sequester heavy metals and process wastes will be biological systems - probably genetically modified in the future, but some exist currently.
2 true stories:
The stepfather of a friend of mine had a tomato processing business (Katsup, canned tomatoes, stewed tomatoes, etc), and the waste from the plant included acidic waste pulps that were entering the sewer system and corroding the pipes. Working with agronomists, he built a catch pond with a specific sawgrass to filter the pulp (and feed the sawgrass). Worked great for 40 years until the EPA shut him down in the early 2000s for polluting a wetland (a wetland which he created specifically for the specific purpose of naturally filtering waste. Sadly, he was forced to close the plant, and sell the land (with the wetland) to Walmart.)
The other story - In college, I was a jr Project Manager on a project to build a new World Headquarters for the Fortune 500 corp I worked at. A politically expedient space on a former industrial site on river lowlands near the Downtown area was selected for the new campus, and construction proceeded. Several areas were found to be extremely polluted with 150 years of industrial waste, including heavy metals. Again, local agronomists were brought in and a stand of Birch trees were planted in the area with the greatest heavy metal content, and selected grasses and plants were introduced that were tolerant of the nature of the soil, and would slowly leach the contaminants from the soil. The plan was to cut down the trees after 30 years and incinerate the wood in a facility with heavy metal catchment hardware. Practically the entire team I was with has left that company or retired, So I have no idea if they still plan on removing the Birch trees.
I've heard of some municipalities creating lowlands for human waste processing (probably after sterilization), so if a generation ship is actually a massive hab, waste processing may include a biological aspect.
Sorry, I was writing this while TLB was posting.
Very interesting Theemile. Biologic solutions are utilized now. But they require a significant amount of time. The turnaround for these can be as high as 90 days, with the average 14 to 45 days. And that brings us right back to my argument of production falling behind consumption.
But your notion of advanced organisms working faster is certainly interesting and highly probable. But even that will have its production limits.
One other thing I failed to mention and Thinksmarkedly is right about. Even today it has been proposed to burn the dried sludge to make electricity. That might happen aboard a generation ship. Can it be done efficiently?