There are a variety of options when considering a power supply for a Grinding mill.
1. Electricity - the grid. Commonly, where the mill is sufficiently near a grid electricity supply, advantage will be taken of this facility. Most mills will be sold with an electric drive motor fitted as standard and connection is merely a case of "plugging in". Many developing countries suffer problems with regular interruptions in the electricity supply and insufficient capacity to deal with demand. This should be considered when thinking about the power supply for a milling operation. If occasional unpredictable stoppages can be tolerated then this is usually the cheapest option.
2. Independent power supply. In situations where no grid connection is possible or where the local supply is not sufficiently dependable, an independent or "stand-alone" power supply will need to be considered. There are various options available, the most common being a diesel engine. This can be used as part of a diesel generator set to provide an electricity supply or can be used to provide a direct shaft drive for the plant. Other option include the construction of a dedicated power supply from a renewable energy source, such as a small-scale hydro-power plant (either generating electricity of providing direct shaft power). Careful analysis of the options and correct selction of power supply can provide great savings in running costs.
3. Animal power. In certain circumstance animal power can be harnessed to provide power for a milling process. Animal traction is widely used in developing countries for providing power for a range of applications, usually requiring rotary shaft power. Where the milling process is in the small scale range, this is one possible solution to providing a cheap renewable power supply.
4. Human power. Where very small scale milling is required the power can be provided by humans. Many small hand (or foot) operated mills have been developed in many areas of the world for small grinding operations. Over short periods of time humans can provide a significant amount of power (eg 250 Watts for a few minutes), but this tails off over time. The most efficient way of harnessing human power is to convert it to rotary motion.