The school magazines that you are seeing are the magazines I picked out, So that I can analyse them and get some ideas for my actual School magazine which I will be producing later on. I have put a lot of effort into analysing these school magazines, I have looked at the colours used, fonts used, camera angles, pictures and mainly the effect it has on its audience. The reason i have picked the three magazines because one of the magazines are from my sixth form (The BUZZ) and the other two had loads of detail which I could write about while I am trying to analyse it.
The document summarizes the MAB3 project, which aims to produce bioenergy carriers (ethanol, butanol, biogas) and high-value fish feed from macroalgae. The project will optimize cultivation, pretreatment, and conversion processes to produce liquid and gaseous biofuels from 80% of macroalgal sugars while using the remaining solids and sugars to produce protein-rich fish feed supplements. The 3-year, €3 million project involves 12 partners across 5 countries and seeks to demonstrate the technical and economic feasibility of a macroalgal biorefinery approach.
The school magazines that you are seeing are the magazines I picked out, So that I can analyse them and get some ideas for my actual School magazine which I will be producing later on. I have put a lot of effort into analysing these school magazines, I have looked at the colours used, fonts used, camera angles, pictures and mainly the effect it has on its audience. The reason i have picked the three magazines because one of the magazines are from my sixth form (The BUZZ) and the other two had loads of detail which I could write about while I am trying to analyse it.
The document summarizes the MAB3 project, which aims to produce bioenergy carriers (ethanol, butanol, biogas) and high-value fish feed from macroalgae. The project will optimize cultivation, pretreatment, and conversion processes to produce liquid and gaseous biofuels from 80% of macroalgal sugars while using the remaining solids and sugars to produce protein-rich fish feed supplements. The 3-year, €3 million project involves 12 partners across 5 countries and seeks to demonstrate the technical and economic feasibility of a macroalgal biorefinery approach.
