Science Articles & Inventions Online

REVERSE OSMOSIS CREATES DRINKING WATER

REVERSE OSMOSIS PLANT

In some regions of the world, the lack of a primary source such as water, could become a determining factor for economic and political instability whereas nearly 40% of the world’s population relies on river systems that cross two or more countries.
The increasing awareness towards the issue of water, as a precious and irreplaceable wealth, encourages some countries to make enormous investments to increase its availability of drinking water. The fact that the largest source of available water lies in the sea favours the research and investment in the realisation of efficient desalination plants.

FLOATING ON SEA WATER

In this period of impending crisis it’s up to technology to propose solutions that are reliable, feasible, with low environmental impact and with sustainable costs for the economies of the poorest areas of the globe.
The technologies used for the desalination of seawater are based on membrane processes, where the “heart” of the system is represented by Reverse Osmosis. BONO Artes has made some innovation in these technologies through the construction of plants capable of producing drinking water with reduced energy consumption.

Through the experience gained over the years, BONO Artes has provided a plant for the desalination of seawater for the “Peru LNG” project, the largest ever undertaken in Peru and all of South America for the production of liquefied natural gas (LNG), developed by the US company, CB&I, leader in the realisation of industrial complexes in the energy and natural resources field.
The BONO Artes supply is an innovative system capable of obtaining both pure water, to be employed for industrial purposes and pure drinking water meeting the standards of the World Health Organization (WHO) for human consumption.

The process occurs through two phases:
- The first stage consists of pre-treatment with two multilayer filters that allow the removal of suspended solids from water
- The second stage allows the production of deionized water through double step reverse osmosis.

At this point, part of the deionized water is used for feeding the boiler, while the remainder is further treated and made drinkable for human consumption at the nearby field site.

PURE DRINKING WATER

To cope with the energy necessary for the operation of the plant, BONO Artes has adopted a system that allows a turbine to recover energy from the residual pressure of the reverse osmosis concentrate in order to significantly reduce operation costs.
Another critical factor for this contract was the choice of materials since the plant was to be installed in the desert region of Peru. So, in the choice of materials, both the high salinity of seawater and the extreme conditions of operation imposed by the arid regions of South America, had to be taken into consideration.

Right now the plant is running at full speed with excellent results, both from the point of view of water quality, and cost efficiency. This success highlights the ability of BONO Artes to find solutions to deal with any type of water, even in extreme conditions, anywhere in the world.

Sourced and published by Henry Sapiecha 20th March 2009

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20,000 HECTARES OF OILSEED IS NEEDED

TO PRODUCE 20,000 TONNES OF BIO-DIESEL

The french company Societe Robbe, the oils and fats specialists  has been funded by European Community Cash and Picardy regional government to build a bio-diesel plant in Compiegne just north of Paris.

Regarded as a pilot plant, it will set the way to build plants of 120,000 tonne capacity or more.

Cost efficiency of the product is yet to be improved and could be more effective in the marketplace when taxes on fuels are reconstructed to promote the bio-diesel for ite less polluting qualities.

Compared with the traditional fuel it contains little or no sulphur, the carbon dioxide levels are the same or slightly reduced, there is less than half of the soot, 66% less carbon monoxide and 12% less of the damaging aromatic hydrocarbons.

BIO-DIESEL FUEL AT THE PUMP

One slight disadvantage is the small increase of the nitrous oxide emitted of around 3%.

Tests with buses and public transport with mixtures of bio-diesel and standard fuels have proved very effective and successfull

Sourced from the Australian Farm Journal

and published by Henry Sapiecha Feb 2009

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This byproduct of mineral treatments has many uses

metals treatment for slag

But this is not the only slag to be produced during the production of steel. In an integrated steel plant the molten iron from the blast furnace is combined with steel scrap in a ratio of typically four parts molten iron to one part scrap. Lime is also added and oxygen is blasted through the resultant mixture. This process results in the production of steel and basic oxygen steelmaking (BOS) slag. Apart from the chemical differences, BOS slag is about 50 per cent more dense than its blast furnace counterpart.

Copper smelting also produces copper slag and coal slag is produced from coal fired power generation plants – so where does all this “man made mineral” end up? Blast furnace slag has a myriad of uses of which perhaps the most intriguing is for the production of mineral wool. It’s difficult to believe that a lump of dense slag can be turned into a low density material with a high insulating capacity. However the process for this is familiar on any fairground.

fibre glass wool-slag by-product

Just as candyfloss (cotton candy in North America or barbe à papa in French speaking parts of the world) is made by melting and spinning sugar, mineral wool is made by melting and spinning mixtures of basalt rock and slag (or slag on its own). This material is then processed into the low density wadding used in roofing to reduce energy consumption.

slag in raod surfacing

Have you looked at an asphalt surfaced road and wondered how such a smooth looking surface can react so well with your car’s tyres when you hit the brakes as the car in front slows down unexpectedly? You were able to brake safely because the wearing course of the asphalt contained steel slag – and it’s also very likely that the subsurface also contains the same material. Steel slag adheres to asphalt enhancing the overall performance of the road in spite of rain, sun or applied salt.

Have you heard the term pozzolan? Granulated blast furnace slag is a pozzolan and when this is further ground down it produces a fine powder that has cement-like properties when mixed with water.

Sourced and published by Henry Sapiecha Feb 2009

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Construction of Cellulosic-Ethanol Plant underway

BIO FUEL PLANT

Range Fuels has broken ground on the first commercial scale plant designed to produce bioethanol from cellulosic biomass. The company received $76 million in funding from the U.S. Department of Energy for construction. Located in Georgia, the plant may be operational as soon as 2008-2009 and initially will produce 20 million gallons per year. Its process involves a two-step thermochemical conversion of wood chips and other biomass into a mix of alcohols via syngas.

Company officials claim that a new proprietary catalyst and improvements in the design and engineering of the plant make its process competitive with the one for producing Ethanol from corn. Some question whether or not the process will work on a large scale based on previous research on thermochemical methods. Others wonder whether the plant can be commercially viable since it must rely so heavily on government funding rather than private investors.

BIO FUEL AT BOWSER

Sourced and published by Henry Sapiecha Feb 2009

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Biotech Plant May Receive Approval for Cultivation

O-BASF Chemical company

GE Modified Potatoes

Currently, only GMO seeds have received approval for planting by governments around the world. The European Union may soon change that situation. It is considering approval of the Amflora potato from BASF AG for cultivation. This GM product is designed for use as an industrial starch. BASF has partnered with Monsanto to develop additional biotech products that it plans to bring to market that have better output-traits, including higher yields, unsaturated fatty acids and starch content.

Sourced and published by Henry Sapiecha Feb 2009

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