The One Cleaning Solution to NEVER Use On Your Garden Fountains

The One Cleaning Solution to NEVER Use On Your Garden Fountains It is important to carefully maintain water fountains for them to function optimally. A typical problem with fountains is that they tend to collect dirt and debris, so it is essential that you keep it free from this. Additionally, anywhere light from the sun mixes with still water, algae can appear. One Cleaning Solution NEVER Use Garden Fountains 68408481321.jpg

One Cleaning Solution NEVER Use Garden Fountains 68408481321.jpg

To avoid this, take vinegar, hydrogen peroxide, or sea salt and add right into the water. There are those who prefer to use bleach, but that is dangerous to any animals that might drink or bathe in the water - so should therefore be avoided.

Every 3-4 months, garden fountains should have a good cleaning. Prior to cleaning, all of the water must be taken out. As soon as it is empty, wash inside the reservoir with a mild cleanser. A good tip is to use a toothbrush if there are little hard-to-reach spots. Any soap residue that remains on your fountain can damage it, so be sure it is all rinsed off.

It is highly recommended taking the pump apart to better clean the inside and get rid of any plankton or calcium. To make it less difficult, soak it in vinegar for several hours before cleaning. Build-up can be a big hassle, so use mineral or rain water over tap water, when possible, to prevent this dilemma.

Finally, be sure to have a quick look at your fountain every day and add water if you see that the level is too low. Low water levels can damage the pump - and you don't want that!

The Results of the Norman Invasion on Anglo-Saxon Landscaping

The Results of the Norman Invasion on Anglo-Saxon Landscaping The Anglo-Saxon way of life was dramatically changed by the arrival of the Normans in the later eleventh century. Results Norman Invasion Anglo-Saxon Landscaping 797786894477522401.jpg

Results Norman Invasion Anglo-Saxon Landscaping 797786894477522401.jpg

Architecture and gardening were attributes that the Normans excelled in, trumping that of the Anglo-Saxons at the time of the occupation. But before centering on home-life or having the occasion to think about domestic architecture or decoration, the Normans had to subjugate an entire society. Because of this, castles were cruder buildings than monasteries: Monasteries were usually important stone buildings set in the biggest and most fertile valleys, while castles were built on windy crests where their citizens dedicated time and space to projects for offense and defense. The bare fortresses did not provide for the calm avocation of horticulture. Berkeley Castle is probably the most unchanged model in existence nowadays of the early Anglo-Norman form of architecture. The keep is said to date from William the Conqueror's time period. An enormous terrace encompasses the building, serving as an impediment to assailants attempting to excavate under the castle walls. One of these terraces, a charming bowling green, is covered grass and flanked by an aged yew hedge cut into the form of crude battlements.

Water-lifting System by Camillo Agrippa

Water-lifting System by Camillo Agrippa Although the machine made by Agrippa for raising water gained the esteem of Andrea Bacci in 1588, it appeared to vanish not very long after. It might have turned out to be dated once the Villa Medici was set to get water from the Acqua Felice, the early contemporary aqueduct, in 1592. Although it is more very likely that it was simply disposed of when Ferdinando relinquished his cardinalship and returned back to Florence, protecting his place as the Grand Duke of Tuscany, after the death of his brother, Francesco di Medici, in 1588. Even though there were various other relevant water-driven concepts either projected or built during the later part of the sixteenth century, like scenographic water presentations, giochi d’acqua or water caprices, and melodious water features, not one were fed by water like Agrippa’s technology.

Hydro-Statics & Outdoor Fountains: The Fundamentals

Hydro-Statics & Outdoor Fountains: The Fundamentals When in equilibrium, liquid delivers power to its container or any other material it comes in contact with. There are two forms, hydrostatic load or external forces. When pushing against a level wall, the fluid applies equal force at various points on the wall. Liquid in equilibrium will employ vertical pressure at every point of an object’s exterior when that subject is fully submerged in the liquid. We refer to this concept as Archimedes’ principle, which deals with the forces of buoyancy. Hydrostatic pressure is formed by hydrostatic force, when the force exerts itself on a point of liquid. A city’s water supply system, fountains, and artesian wells are all samples of the application of these principles on containers.