2.6 waste heat recovery Several of

2.6 waste heat recovery
Several of the proposed industries in the Choctaw EIP would produce waste heat.
This waste heat could be used to generate steam for heating in various uses around the industrial park, for example, aquaculture, greenhouses, residential heating;
or could be used for co-generation.

An article in the journal of Engineering for Gas
Turbines and Power (Seyedan et al., 1996) empha sized the wide
use of heat recovery systems in industries across the world. Thi process takes waste heat and produces steam which power turbines, producing electricity.
The article is technical, but it reveals that heat recovery systems come in an array of sizes and capacities, that can be customs made or retrofit for an existing industry.
Further research revealed the temperatures needed for this process range from 2400 to 3000 EF(Ganapathy, 1996).
Temperatures that high would probably be reached by only one industry (to be discussed later).The other types of manufacturing this project proposes would produce temperatures less than 1000 EF.
It may be more practical to use this heat for heat cascading (Lowe ew al., 1995)is, using low temperature heat (150E and higher) to heat greenhouses in the off-peak growing season.

2.7 Water cascading
Most of the books dealing with sustainable development addressed the issue of water cascading. It involves utilizing gray water, or treated effluent for a variety of non-potable water needs.
Inthis manner,graywater or treated effluent is no longer a waste to be thrown away, but a resource. Graywater can be used to support agriculture, and or, aquaculture(Lyle, 1994).
Water cascading would be of particula use in industrail systems as process/cooling water (IUCN/UNEP/WWF, 1991). Agian, the literature addreses this subject in theory, but there is liitle in the way of design infomation