Composting toilet

urine diversion

Clivus Multrum - 1. Humus compartment 2. Ventilation pipe 3. Water closet 4. Urinal 5. Urine collection and dehydration [1]

urine diversion - squatting [2]

It is estimated that the excreta from 80 persons could fertilize a hectare. A single adult eats 250 kg of cereals per year, which may be grown on less than 250 m², fertilised by ~50% of the urine of that person, mixed with the waste water used by that person.[3]

Composting toilets aerobically decompose waste material, by aerobic microorganisms in a highly aerated, warm (32°-49°) and moist (humidity >80%) environment, with ample carbon (sawdust as the sole agent will lead to clogging[4]). Optimally, the volume of the resulting compost may be about 10% of input.[5]

Continuous composting toilets are single container toilets that receive excrement which decomposes as it moves slowly through the container and is removed as compost from the end-product chamber. The container is permanently fitted under the toilet seat, and never has to be fully emptied as the compost can be gradually removed when it reaches the end-product chamber. [6] To make the fresh material move down the slope, the slope needs to be slippery, eg bathroom tiles.

In a non-urine-diverting system, 90% of what goes into a composting toilet is water. Compost piles need to be damp to work well, but most composting toilets suffer from too much water. (ideally 45 to 70% moisture content [7]) Ammonia may evaporate as nitrogen in a gas form, which is vented out along with carbon dioxide and water vapor.[8] Evaporation is the primary way a composting toilet gets rid of excess water. Warmth and air flow through the unit assist the evaporation process. Every composting toilet has a vertical vent pipe to carry off moisture. Air flows across the drying trays, around and through the pile, then up the vent to the outside of the building. In a cold environment, the low-grade heat produced by composting is supposed to provide sufficient updraft to carry vapor up the vent.[9] In tropical conditions, passive solar heating may create an air draft.

If operation conditions for thermophilic composting are adequate (moisture content 50 to 60%, carbon to nitrogen ratio 30 to 35 and mixing with bulking material), the temperature will rise to between 50 and 65 °C (WHO 2006). Such temperatures will effectively inactivate pathogens (WHO 2006).[10] If moisture content is too high, anaerobic organisms will thrive, creating undesirable odors from anaerobic digestion.

Carbon / Nitrogen ratio

Dry material, which contains carbon (such as dry leaves or grasses) increase composting properties. It regulates moisture and the carbon to nitrogen ratio (C/N) and enhances the composting process. The optimal carbon to nitrogen ration for thermophilic composting is 20 to 35 (WHO 2006). The C/N ration of humanure (135 to 270 g / person / day) is about 5 to 10 (5%-7% nitrogen) The C/N ration of grass clippings may be 12-19 and they may contain 2.4% nitrogen. The C/N ration of leaves may be 48 and they may contain 0.9% nitrogen.[11] Thus 200 g humanure plus 225 g leaves may render a combined C/N ration of 30.

Crude protein in the leaves of Giant cane (Arundinaria gigantea) is relatively low in young leaves.[12] The C/N ratio may be 19.4 (2.4% nitrogen and 45.8% carbon).[13] The C/N ratio of softwood may be 640, of hardwood may be 560 and that of sawdust 500, which goes down as it rots (down to 200).[14] That is because the level of carbon (and Na, K) goes down faster than the level of nitrogen (and P).[15] Nitrogen is usually retained until 50% of the carbon remains.[16] For the supply of carbon, one may process wood into sawdust, or one may let the chopped wood decompose naturally (with a lower C/N ratio). Assuming a C/N ratio of 200 in partially decomposed bamboo wood, 200 g humanure + 200 g Giant cane leaves + 63 g partially decomposed bamboo wood yields a combined C/N ratio of 30.

Urine

Excessive ammonia from urine inhibits the microbial processes in the chamber. With urine diversion, less bulking agent is needed and the C/N ratio is naturally enhanced. The C/N ration of urine (1-1.3 L / person / day) is about 0.8 and its nitrogen content is ~15-18%.[17] Urine can contain up to 90 percent of the nitrogen, up to 50 percent of the phosphorus, and up to 70 percent of the potassium present in human excreta.[18] In healthy individuals it is usually pathogen free, although undiluted it may contain inorganic salts and organic compounds at levels toxic to plants.