Higher Oxygen Transfer
Higher Oxygen Transfer
Oxybooster in combination with Landy-7
The next step in surface aeration
Oxybooster in combination with Landy-7
The next step in surface aeration
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In order to improve the efficiency of a surface aerator an oxybooster can be installed in the aeration basin. This oxybooster consists of a number of baffles which are positioned in the lower part of the basin, but higher than usual, resulting in a higher oxygen transfer.
This Oxybooster has already proved its existence in praxis.
Landustries R&D department is continuously searching for ways to optimise her products, of which the Oxybooster is the latest result.
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| Press contact |
| Reny Bergsma |
| Phone: +31 515 486 851 |
| E-Mail: r.bergsma@landustrie.nl |
| Internet: www.landustrie.nl |
Savings without investment
Savings without investment
Energy savings upto 30%
Slow speed surface aerators can often be much more effective and can save a substantial amount of energy when the operation of the aerator is based on the real load and not on the original design parameters of a sewage treatment plant
Energy savings upto 30%Slow speed surface aerators can often be much more effective and can save a substantial amount of energy when the operation of the aerator is based on the real load and not on the original design parameters of a sewage treatment plant
This conclusion if very important because 80% of the power at a waste water treatment plant is consumped by aeration.
Surface aerators can be much more effective and efficient. At the design stage of a waste water treatment plant the calculations are based on the maximum load of the plant, including a projection of growth for the lifetime of the plant (the number of aerators and sizing is based on those parameters).
But what happens when the load is much less than anticipated and the circumstances are quite different then originally assumed?
By adapting the installation to the actual loading one can improve the efficiency and the process considerably and thus save a substantial amount of energy.
Landustrie has developed a toolbox for checking the functioning of the surface aerators in relation to the actual load. the goal of this aeration scan is to optimise the aeration, thus improving the efficiency and durability. The savings can be as much as 30%.
Lower energy costs for screw pumps
Lower energy costs for screw pumps
New drive techniques and screw pump sizing reduce energy consumption
Until today most archimedean screw pumps are executed with V-belt transmission. This traditional application however is outdated. If a direct drive is applied the energy consuming V-belt transmission is no longer necessary. This results in a saving of approx. 5%
New drive techniques and screw pump sizing reduce energy consumptionUntil today most archimedean screw pumps are executed with V-belt transmission. This traditional application however is outdated. If a direct drive is applied the energy consuming V-belt transmission is no longer necessary. This results in a saving of approx. 5%.
The direct coupled drive-unit, in combination with a frequency convertor, can be much easier fine-tuned to the actual supply of the treatment plant. In other words, no more energy than strictly necessary will be used. On top of that other advantages will be accomplished by fine-tuning the screw pump capacity to the supply of the plant, such as a much better process control.
Furthermore Landustrie uses a new erection method for screw pumps, also leading to energy savings. Nowadays a casting mould is used for realisation of the concrete screw trough. With this new method a higher wear resistance is achieved and a clearance between screw and trough is fixed for lifetime. Increasing leak losses will be a matter of the past. This new casting method results in a high efficient screw pump.
Cleaning equipment •
Mechanical equipment •
Oxidation processes •
Activation plants (systems) •
Aeration equipment •
Denitrification •
Sludge stirrers •
Equipment for gravity consolidators •
Worm gear pumps •
Landustrie's basis was laid around 1913. The company was active in the agricultural market sector and involved with polder drainage at an early stage.
As early as 1916 electrically driven pumping stations were installed with Archimedean screw pumps, together with the countless pumping stations with so-called wind motors.
After some time, in addition to the polder drainage pumps, pumps for handling sewage were developed. By the 1950's this advance opened the way to waste water purification units being used widely and efficiently.
With almost 90 years of world-wide experience Landustrie has become a leading company in the field of sewage and waste water treatment.
The present organization mainly consists of two product groups:
Pumps & Pumping Stations
and
Sewage Works
These groups are completely responsible for the acquisition, sales, engineering and project management within their own market section, all over the world.
