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Photographer's Note

ab anbar vazir near city yazd
An āb anbār آب انبار is a traditional reservoir of drinking water in Persian antiquity. The Persian phrase literally translates as "water reserve".

The architectural elements making up an ab anbar are presented in this article.
To withstand the pressure the water exerts on the containers of the storage tank, the storage itself was built below ground level. One important aspect to consider here is their resistance to earthquakes. Many cities in Iran lie in a region that have been struck with massive earthquakes. However, since almost all ab anbars are subterranean structures capped barely above ground level, they inherently possess stable structures.

The construction material used for ab anbars were very tough and extensively used a special mortar called sarooj made of sand, clay, egg whites, lime, goat hair, and ash in specific proportions, depending on location and climate of the city. This mixture was thought to be completely water impenetrable. The walls of the storage were often 2 meters thick, and special bricks had to be used. These bricks were especially baked for ab anbars and were called Ajor Ab anbari. Some ab anbars were so big that they would be built underneath caravanserais such as the ab anbar of Haj Agha Ali in Kerman. Sometimes they would also be built under mosques, such as the ab anbar of Vazir near Isfahan.

The bottom of the storage tanks were often filled with heavy metals for various structural reasons. The 18th century monarch Agha Muhammad Khan, is said to have extracted the metals from the bottom of the Ganjali Khan public baths to make bullets for a battle.


The storage tank

Ab anbar of Sardar-i Bozorg, in Qazvin, is the largest single domed ab anbar in Iran.

Some ab anbars had storage space tanks that were rectangular in design, such as in Qazvin, as opposed to cylindrical designs in Yazd . There were several designs for the arched roof of the storage spaces of each ab anbar, namely ahang, kalanbu, kazhāveh, or combinations of these depending on the features of the storage space.

In the particular example of Sardar-e Bozorg ab anbar in Qazvin, the storage space was built so large that it became known as the largest single domed ab anbar of Iran . Doming the square plan was not an easy task, yet dome construction was not something new to these architects as is evident from the numerous domed masterpieces such as Soltaniyeh.

Some sources indicate that the architects would first construct the storage space and then fill it up with hay and straw all the way up to where they could start constructing the dome. After finishing the dome, the straw would be set on fire, hence clearing the space inside. However holes can be seen in the walls of many storage spaces where scaffolding perhaps may have been used.

A storage space with a rectangular plan is much harder to dome than a cylindrical one. It is not known why architects in particular places chose perpendicular plans or cylindrical ones, considering that cylindrical spaces were easier to cover, and were deemed more hygienic for water storage due to lack of any corners in the space. . Cylindrical tanks also had the advantage of containing a homogeneous pressure, as opposed to the rectangular designs. Rectangular plans however may have had the advantage of employing larger spaces. The Zananeh Bazaar ab anbar of Qazvin e.g. uses 4 columns inside its storage tank. The Seyed Esmail ab anbar in Tehran for example, is said to have had 40 columns.

Some ab anbars such as the Sardar-e Bozorg ab anbar in Qazvin by Sardar Hosein Qoli Khan Qajar and his brother Hasan Khan Qajar employed a square plan. Others are rectangular in plan. Some required columns to be built inside the storage space. The Sardar e Kuchak ab anbar in Qazvin for example, uses a massive column in the center that splits the space up into four 8.5 X 8.5 meter contiguous spaces, each separately domed.


Accessing the ab anbars

In order to access the water, one would go through the entrance (sar-dar) which would always be open, traverse a stairway and reach the bottom where there would be faucets to access the water in the storage. Next to the faucet would be a built-in seat or platform, a water drain for disposing water from the faucet, and ventilation shafts. Depending on where (i.e. what depth) the faucets would be, the water would be colder or warmer. Some storages would have multiple faucets located at intervals along the stairway. Thus nobody had access to the body of water itself, hence minimizing possible contamination. The storage is completely isolated from the outside except for ventilation shafts or windcatchers. To further minimize contamination, the storage tank’s interior was scattered with a salty compound that would form a surface on top of the water. The storage tank would then be monitored year round to ensure that the surface had not been disturbed. The water of course would be drawn from the bottom using the pasheer.

The sar-dar of the ab anbar of Haj Kazem in Qazvin, as sketched by French explorer Dieulafoy in the mid 1800s.

In some ab anbars, such as in Qazvin, the stairway and storage would be constructed adjacently alongside each other, whereas in Yazd the storage and stairway often had no structural connections to each other and the stairway was positioned independently.

The number of steps would depend on the capacity of the storage. The Sardar-e Bozorg ab anbar, for example, has 50 steps that would take the user to a depth of 17 m below grade. Nabi mosque ab anbar had 36 steps, Haj Kazem 38 steps, Jame’ mosque 35 steps, and Zabideh Khatun with 20 steps (all these are in Qazvin). To provide a brief relief when traversing the steps, there would be one to three landings built midway into the stairway. All stairways are linear.

The person responsible for filling the ab anbars (both private and public) was someone called a meerab. In effect, he was responsible for distributing the kariz network at various times. If a house wanted its ab anbar filled, they would ask the meerab to open up the kariz to their ab anbar. An overnight appointment would be enough to fill a typical house ab anbar. The ab anbar would also have to be cleaned once a year from settled sediments.


The Sar-dar

The Sardar (سردر) is an arched entrance that descends down into the ab anbar. It contains platforms built-in for pedestrians and a resting area after ascending out of the stairway. It is decorated and has inscriptions with poetry and the date of construction.


The windcatchers

Ab anbars in Iran are known to have used anywhere from one to six windcatchers. Qazvin’s ab anbars however, do not frequently use windcatchers like in other parts of Iran, perhaps because of climatic conditions; Qazvin has very cold winters and mild summers, unlike Yazd. Most of Qazvin’s ab anbars are only equipped with ventilation shafts or semi-windcatchers. Ab anbars in Yazd, Kashan, Naeen, and other hot climate cities of Iran on the other hand extensively use windcathcers for cooling and ventilation purposes.

The way windcatchers work is that the moving air masses (wind, breeze, etc) at the top of windcatchers create a pressure gradient between the top of the windcatcher and its base, inside, at the bottom of the shaft. This pressure gradient sucks out rising hot air from inside the shaft while the colder dense air remains. The superb heat resistant material of the walls of the ab anbar further create an insulating effect that tends to lower the temperature inside an ab anbar, similar to a cave. The ventilating effect of the windcatchers prevent any stagnant air and hence any dew or humidity from forming inside, and the overall effect is pure, clean, cold water all year round.

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Photo Information
  • Copyright: saeid movahedi (movahedi) (44)
  • Genre: 风景
  • Medium: 彩色
  • Date Taken: 2005-01-10
  • Categories: Architecture
  • Exposure: f/5.6, 1/500 seconds
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  • Photo Version: Original Version
  • Date Submitted: 2008-12-20 1:10
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