The research had performed in Tartous county at Alsinaea area and Faculty of Technical Engineering in year 2012 .This investigation had confirmed the possibility of quick dispose of byrene and the possibility of byrene manufacture through byrene pre
ss and producing pieces for heating or producing barbecue charcoal. This products are with little smoke, smell and environment friendly. The results showed the following:
1- Producing pieces of byrene for heating with the possibility of controlling the strength and the press of pieces. With this we can contribule to environment protection and loosen the problem of heating in winter.
2- The comparison of organic fertilizer (Compost) from Byrene with mixture fertilizer from oak, straw and cock waste showed moral differences for nitrogen and kalium and no moral differences for organic substance, ashes, phosphourus and PH. The compost contains a little of Poly Phenolic. The SHETIANZY number for compost was with cold and hot water 0.277, 8.22, respectively and for mixture fertilizer 10, 16.
3- It was no moral differences between the specific heat and heat of combustion. The less moral difference was for both 0.430, 1.054, respectively. The barbecue charcoal from Dakka was with little smoke, smell and quick combustion. The producing cost of 1 kg was 5 syrian pounds
The programming interface presented in this research makes it possible
to manipulate them easily and flexibly by all specialist users, as well as
the possibility of managing, displaying, searching, amending and saving
these plans through the appro
ved programming interface which was
applied to more than one real estate area. It is considered the foundation
in the future comprehensive automation process of the Real Estate
Department. In this research, the same real estate plotting approved by
the General Real Estate Department was adopted ( real estate areas
names and numbers) when manipulating them, using the ARC GIS 9
program.
In this study, we focused on the interpolation methods for the
derivation of digital elevation models, based on field gridding
observations with different spacing.