The Western world tends to use water only once and then throw it away. We use as much freshwater as we can and then pollute it. We use water to wash clothes, flush toilets, and water plants. This practice is not sustainable, as we are currently running out of water. The problem will get worse as the population grows and there are too many dams. We pour too much good water into our oceans. Even though the earth only has 1% freshwater, how much will it have if we keep dumping it? Is it possible to live like this? No. Only some people can accomplish this feat. You can visit here for more information.

Rainwater Recycling System

waterRainwater is Earthship’s main source of water. Rainwater can be used for drinking, cooking, and washing. Residual water from these activities is used to water edible houseplants. It filters pollutants as it flows through soils. Indoor toilets are flushed with excess water. The rinse water is poured outside and soaks into the soil, especially for ornamental plants and trees. Nothing is left behind and groundwater is not contaminated. Groundwater is not consumed while waiting for rain.

Solar Water Heating

Because most of the water in a home is used for washing, Earthships can heat water with energy from the sun. The south side of the house receives the sun most of the time. Solar heaters are installed there and heated water is fed to the faucets. For cloudy days, small electric or natural gas auxiliary heater is also installed. All faucets provide water for drinking, food preparation, and washing, with biodegradable soaps. The water that is thrown away is known as “gray water” and is directed to the home’s biological filtration units, which are planters for growing herbs and food. It automatically cleans itself from the soil as it sinks and is sent to pipes to flush toilets.

Sewage Filtration

waterSewage is the water that has been flushed from toilets. This whole house system uses the sewage to flush the toilets. It is then channeled outside, where it is used primarily by small trees and ornamental plants. If homeowners prefer standard treatment, wastewater can be directed to a traditional septic tank. It is heated to increase anaerobic digestion. It then flows into underground trenches where the wastewater seeps into the soil.

Cost Savings in Water Supply and Sanitation

This system could allow the construction of small-scale local utilities to serve only production facilities. Streams could flow naturally to recharge the soil or be diverted for agriculture. To recharge the aquifer, more than half of the dams could be demolished. There would be no need to add chemicals to purify the water that is taken from wells and transported across the country. Transportation of food from one country to another would be reduced as most families would be able to grow their food. Carbon emissions would also decrease. Tensions between countries and communities competing for water and food would decrease to the point where wars could be avoided.

The Economic Impact of Recycling Water

The global economy would have to adapt. The number of large water-related construction projects will decrease, but demand for components for home systems will increase. Employment in-home installation and repair would increase, while utilities would decline. Construction and landscaping practices would change but would continue to thrive. Food transportation would decline, but passenger transportation would likely increase again. The growth of small and medium-sized repair shops and plumbers and electricians would be a blessing. Far fewer people in the world would die of hunger or thirst, which is a fair trade-off.