Advertising on the portal

How to calculate volume calculator. How to calculate cubic meters

How to calculate the volume of a room in m3

  • If the room is rectangular, without niches or protrusions, then everything is simple: measure the length, width and height of the room and multiply all three numbers. To get the volume in cubic meters, you need to measure it in meters.
  • For standard everyday tasks, centimeter accuracy is sufficient. The result can be rounded to two decimal places. For example: a room has a length of 5.20 m, a width of 3.43 m and a height of 2.40. Multiply 5.2 x 3.43 x 2.4 = 42.8064. The number can be safely rounded to two decimal places. We get the volume of the room 42.81 cubic meters.
  • It's even easier if you already know the area of ​​the room. Then it is enough to measure only its height and multiply it by a figure known to you. Likewise you can calculate the volume of any rectangular parallelepiped, even a matchbox, even a refrigerator.

How to calculate the volume in m3 if it is not a parallelepiped?

  • If the room has niches, ledges or the room itself complex shape, then the task becomes more complicated. You need to divide the space into several parallelepipeds, calculate the volume of each, and then add them up.

By the way: if you know the area of ​​the room, then there will be no complication. Because when calculating the area, everything is already taken into account. So just multiply it by the height of the ceiling.

  • In general, you can measure the approximate volume of any object, even the most non-trivial shape, by dividing into simple rectangular shapes. We measure each separately, calculate the volume for the parts and add up the results. It is clear that such a result will not be very accurate. And the more complex the subject, the greater the error.


What if I want to know the exact volume in m3?

There is a way to find out the volume of any object with high accuracy. But it will only suit you if this thing is not afraid of water and you have a bath suitable size. The fact is that, according to Archimedes' law, a body completely immersed in water will displace an amount of water equal to its volume. That is, it is enough to take a full bath of water, immerse an object in it, collect all the water that spills over the edges and measure its volume using any in an accessible way. For example, using a measuring cup.


Measuring volume with high accuracy is a rather non-trivial engineering task. But high accuracy in ordinary life rarely necessary. And to get an approximate result, you only need a ruler and a calculator.

It is often necessary to calculate volumes various substances or objects in cubic meters. This is easy to do if we're talking about, say, about bricks or boards. It is enough to measure their three spatial dimensions - length, width and height. But the situation becomes much more complicated when calculating liquids or regarding liquid substances(cement, water, etc.), for which it is impossible to use linear measuring instruments. In this case, the calculation can be carried out using the formula.

You will need

  • a calculator, a sheet of paper and a pen if you don’t have one.

Instructions

1. Determine which product you need to translate. If this is an object that can be measured with a meter, then there will be no problems in determining cubic meters. It is worth primitively multiplying the length, width and height, measured in meters, by each other. Let's say length - 3 meters, height - 1 meter, width - 15 meters. An example of a calculation is to multiply 1 by 15 and by 3. The product of quantities is 45 cubic meters (or cubic meters).

2. Please note that you can only know the mass of a substance, for example, concrete. In this case, it is worth paying attention to the density of the substance when calculating the number of its cubic meters.

3. Carry out the following calculations when determining the volume. It is known that all matter has its own specific gravity, one that corresponds to the weight of one cubic decimeter or one liter (for liquids). So water has a specific gravity of 1.0 kg/dm3. This means that 1000 liters equals one cubic meter. Thus, to determine the number of cubic meters based on the available weight, it is necessary to know the specific gravity of this substance.

4. One more person is allowed to measure the cubic volume simple method. To do this, immerse the object whose volume in cubic meters you need to find out in water. The volume of displaced water will be equal to the volume of the object. Because the specific gravity of water, which was discussed above, is 1.0 kg/dm3, then you can calculate the volume quite quickly.

Meter V cube, cubic meter or cubic meter is a standard unit of measurement of volume. These units are used to calculate the volume of premises, as well as the consumption of water and gas. They often indicate the number of certain building materials, say, boards. IN cubic meters Other non-system units of volume measurement are also translated - liters, cubic decimeters and centimeters.

You will need

  • - calculator;
  • – table of density of substances;
  • - computer.

Instructions

1. In order to calculate the number of cubic meters, if the volume is known, but is given in submultiples, multiples or non-system units, then multiply it by the required indicator. Let's say, in order to calculate the number of meters in cube for cubic decimeters (liters), multiply their number by 0.001. To convert cubic centimeters and cubic millimeters to cubic meters, multiply their number by 0.000001 and 0.000000001, respectively.

2. Example: calculate how many cubic meters of water are contained in one bucket. Solution: the volume of an ordinary bucket is 10 liters. Multiply this number by one thousandth: 10 * 0.001 = 0.01 m?. Result: the volume of water in the bucket is 0.01 cubic meters.

3. If the body mass is given, then in order to calculate the number of meters in cube, multiply it by the density. Convert the mass into kilograms in advance, and the density into kg/m?. The density of a substance can be easily found on the Internet or in relevant reference books. If the name of the substance is unfamiliar or the body consists of a mixture (alloy) of several substances in an unfamiliar proportion, then measure the density yourself. If the problem involves low-concentrated solutions, then their density can be taken equal to the density of water - 1000 kilograms (ton) per meter in cube .

4. It is often possible to calculate the number of cubic meters based on the shape and size of the body (container, room). Let's say, if a body is similar to a rectangular parallelepiped, then its volume is equal to the product of length, width and height (height can mean thickness or depth).

5. If the base of the body has difficult form and continuous height (prisms and cylinders), then multiply the area of ​​the base of the body by its height. So, say, for a round cylinder, the area of ​​the base is equal to ?r?, where r is the radius of the circle located at the base of the cylinder.

Video on the topic

It is impossible to build a house or build another structure without having a plan that takes into account everything, including the consumption of materials, and in particular, the required volume of concrete.

You will need

  • – initial data;
  • - calculator.

Instructions

1. Before starting to calculate the required volume concrete, determine the type of base (it can be columnar, slab or strip), as well as its configuration. The choice of the type of foundation and its configuration is determined by the bearing capacity of the soil on which the construction of the facility is planned.

2. In order to calculate the tile base, you need to know the thickness of the slab and the surface area, as well as the presence of such additions as stiffeners, and, of course, their sizes. The minimum thickness of the tile base is 10 centimeters. Let’s assume that the area of ​​the building being built is 36 m2 (6x6), which means that to fill a slab base with a minimum thickness you will need 36 m2 x 0.1 m = 3.6 m3.

3. By analogy with previous steps, you can calculate the required volume concrete, if the thickness of the fill layer is, say, 20 cm or 30 cm. This indicator considers only pouring a smooth slab, however, in order for the base to be more rigid, it is also necessary to make stiffening ribs that will give the slab stability to deformation.

4. To calculate flow concrete For stiffeners, it is necessary to know the length of this structural element and the cross-sectional area of ​​the stiffeners. For example, if the ribs are made every three meters, then in the foundation of the building being built (6x6) there will be six of them, that is, three ribs along and three ribs across. The length of each edge is 6 meters, and the total length will be 36 m (6 m x 6). The thickness of the ribs corresponds to 0.8-1 of the height of the base. Thus, the cross-sectional area of ​​the rib with a slab thickness of 10 cm will be 0.008 m2 (0.1 m x 0.08 m). In this case, it will take 0.288 m3 (0.008 m2 x 36 m) to fill the stiffeners. Add volume concrete, required for pouring the slab base, and the volume that will be needed for the stiffeners: the resulting value is the final consumption indicator concrete .

5. In order to calculate the columnar base, you need to know the number of columns, as well as their height and diameter. Find the cross-sectional area of ​​the post using the formula S = 3.14 x R2, where R is the radius. After this, find the volume concrete required to fill one column: multiply the cross-sectional area by the height of the column. After this, determine the total consumption concrete for the construction of a columnar base, multiplying the volume concrete per column per number of columns.

6. To calculate the tape base, you need to know the width of the tape, its laying depth and its total length. Typically, the width of the tape varies from 20 to 40 centimeters, and its height is 40-50 centimeters. The total length of the tape base is defined as the perimeter of the external walls, to which is added the length of the tape located under the internal walls. Multiply the indicators: the result is the required volume concrete for filling this tape base.

Pay attention!
Do not make an arithmetic error when calculating the volume of concrete!

Useful advice
The thicker the base, the greater the load it can bear.

Video on the topic

Pay attention!
When converting one value to another, it is worth paying attention first of all to the density of the substance, because its specific gravity can be used in calculations. In addition, it is not necessary to use measuring instruments to take measurements. Standard improvised means can also be used. Let's say a thing whose length you know correctly. If you come across the concept “linear meter”, then this means an ordinary meter, defined in length.

Useful advice
Note that it is not necessarily straightforward to calculate cubic volume. Sometimes it is not enough to know only linear (or linear) dimensions. To determine the cubic volume of a homogeneous substance without gaps, it may be enough to take measurements. And to determine the volume of heterogeneous objects, between which, due to their condition or nature, there may be gaps (firewood, metal objects, parts, etc.), it is worth resorting to more difficult calculations: through the specific gravity or density of the substance, as well as its weight .

Cardboard boxes are popular containers for packaging goods and various items for the purpose of their transportation or storage. The corrugated packaging market includes both consumer, individual packaging, and transport packaging. This type of packaging is ergonomic and environmentally friendly.

The production of cardboard packaging using high-tech equipment makes it possible to produce containers of various sizes and designs. For example, a well-known supplier of cardboard and paper boxes is the company “Container for Goods”, which successfully sells its products throughout Russia.

To correctly determine the capacity and required container dimensions for cargo, you should calculate the volume of the box.

Cutting line :)

How to calculate the volume of a box in M3

When packing and transporting goods, entrepreneurs wonder how to do it correctly in order to save time and money. Calculation of container volume is important point in delivery. Having studied all the nuances, you can choose the required box size.

Use it to calculate the volume of a box in the shape of a cube or parallelepiped. It will help speed up the settlement process.

The cargo that needs to be placed in the container can be of a simple or complex configuration. The dimensions of the box should be 8-10 mm larger than the most protruding points of the load. This is necessary so that the item fits into the container without difficulty.

External dimensions are used when calculating the volume of boxes in order to correctly fill the space in the back of a vehicle for transportation. They are also needed to calculate the area and volume of the warehouse required to store them.

First, measure the length (a) and width (b) of the box. To do this, we will use a tape measure or ruler. The result can be recorded and converted into meters. We will use the international measurement system SI. According to it, the volume of the container is calculated in cubic meters (m3). For containers whose sides are less than a meter, it is more convenient to take measurements in centimeters or millimeters. It must be taken into account that the dimensions of the cargo and the box must be in the same units of measurement. For square boxes, the length is equal to the width.

Then we will measure the height (h) of the existing container ─ the distance from the bottom flap of the box to the top.

If you made measurements in millimeters, and the result must be obtained in m3, we convert each number into m. For example, there is data:

  • a=300 mm;
  • b=250 mm;
  • h=150 mm.

Considering that 1 m = 1000 m, let’s convert these values ​​into meters and then substitute them into the formula.

  • a=300/1000=0.3 m;
  • b=250/1000=0.25 m;
  • h=150/1000=0.15 m.

Formulas

  • V=a*b*h, where:
  • a – base length (m),
  • b – base width (m),
  • h – height (m),
  • V - volume (m3).

Using the formula for calculating the volume of a box we get:

V=a*b*h =0.3*0.25*0.15=0.0112 m 3.

This method can be used when calculating the volume of a parallelepiped, that is, for rectangular and square boxes.

Calculating the volume of a box in liters

When transporting small or bulk goods, they are also packed in boxes. Considering that such items and materials occupy the entire volume of the container, you need to know their quantity in liters. If you are interested in how to calculate the volume of a box in liters, determine the displacement as follows:

we find the cubic capacity V=a*b*h =0.3*0.25*0.15=0.0112 m 3 ;

knowing the equality: 1 m 3 = 1000 l, we convert the resulting value into liters: V = 0.0112 * 1000 = 1.2 l.

Box base area

The above formulas are used to calculate the volume of containers in the shape of a parallelepiped. For non-standard shapes, the area and volume of the box is calculated using the formula:

  • V=S*h, where:
  • S – base area (m2)
  • h – height (m),
  • V - volume (m3).

The formula for the area S of the base of the box (container) must be changed depending on the shape of the container.

S=a*b; S=a 2 =a*a we take it in the case when we have a rectangular or square-shaped cardboard product.

Some goods that require transportation have special parameters.

In such cases, it is necessary to pack the goods in cardboard containers of complex configuration, which have a non-standard shape and an exclusive design that can distinguish its contents from similar products. To do this, you need to know how to calculate the area of ​​a box of a different configuration. We will use formulas to find the area of ​​a polygon: triangle, hexagon and octagon.

S=1/2*a*h

This formula can be used to calculate the area of ​​the base of your container if it has the shape of a triangle. By multiplying the resulting value by the height, you get the volume of the prism-shaped box.

In other cases, look at what shape is at the base of a particular box, take the formula to find its area, and then multiply the result by the height.

Concrete solutions are used to construct the foundation, erect walls and fill the floor. Before the start of activities, it is important to choose the design of the foundation base, correctly calculate general level costs and determine the required quantity building materials. Knowing how to calculate the volume of concrete, you can determine the estimated cost of construction activities, accurately plan the duration of concrete work and avoid unexpected costs. Let us dwell in detail on the methodology for performing calculations for various structures, as well as walls and floors.

Strip foundation diagram

What methods can you use to calculate the volume of concrete?

Implementation construction work precedes the development of the project. At this stage, the type of foundation base is determined, and the volume of concrete solution required for the construction of the foundation is calculated. At the design stage, the need for mortar for pouring monolithic walls and concrete floors is calculated. Determination of cubic capacity concrete mixture required to carry out the work is carried out according to the volume of the building structures being concreted.

Various methods are used to perform calculations:

  • manual. It is based on calculating the volumes of the foundation, main walls and floor. The calculation is made using a regular calculator using school formulas for calculating volume and does not take into account the shrinkage coefficient of concrete. The resulting value differs slightly from the results of calculations using software;
  • program. The initial data entered into the program about the type of foundation, its dimensions, design features and grade of concrete are quickly processed. As a result, a fairly accurate result is produced, which can be used as a guide when purchasing building materials for constructing a foundation base, building walls or pouring a floor.

Features when calculating the volume of concrete

To receive exact result It is not enough to take into account only the internal size of the formwork. The second method is more accurate, since the online calculator takes into account all the data: type of foundation, cross-section of the foundation base, presence of reinforcement cage and brand of mortar.

Getting ready to determine the volume of concrete - how to calculate without errors

When preparing to perform calculations, you should remember that the need for a concrete mixture is determined in cubic meters, and not in kilograms, tons or liters. As a result of manual or software calculations, the volume of the binder solution will be determined, and not its mass. One of the main mistakes that novice developers make is performing calculations before the type of foundation has been determined.

The decision on the foundation design is made after completing the following work:

  • carrying out geodetic measures to determine the properties of the soil, the level of freezing and the location of aquifers;
  • calculations of the load capacity of the base. It is determined based on weight, design features structure and natural factors.

How to calculate the amount (volume) of concrete mixture
  • type of foundation being constructed;
  • dimensions of the foundation, its configuration;
  • brand of mixture used for concreting;
  • depth of soil freezing.

The accuracy with which the volume of concrete is calculated depends on the data used for the calculation.

They are different for each type of foundation:

  • when calculating the strip base, its dimensions and shape are taken into account;
  • for a columnar base, it is important to know the number of concrete columns and their sizes;
  • You can calculate a cube of concrete for a solid slab based on its thickness and dimensions.

The accuracy of the result depends on the completeness of the data used for calculation.

How to calculate concrete in cubes for a foundation

For all types of foundations, the need for concrete is determined by a formula that takes into account the total volume of foundation structures being erected. At the same time, in mandatory The part of the foundation poured into the ground is also taken into account. To perform calculations, you should be guided by the dimensions specified in the design documentation.

  • columnar;
  • grillage

Determining the need for concrete mortar for each type of foundation has its own characteristics.

How to calculate a cube of concrete for a strip base


Strip foundation calculator

The tape type base is quite popular. It is used for the construction of private houses, outbuildings and country houses. The structure is a solid ribbon of concrete reinforced with steel rods. The monolithic tape follows the contour of the building, including internal partitions.


Table of composition and proportions of concrete mixture

The volume of concrete for a monolithic strip foundation is calculated using the simple formula V = AxBxP. Let's decipher it:

  • V – the need for concrete solution, expressed in cubic meters;
  • A – thickness of the foundation tape;
  • B – height of the belt base, including the underground part;
  • P – perimeter of the formed strip contour.

By multiplying these parameters together, we calculate the total cubic capacity of the concrete solution.

Let's consider the calculation algorithm for a strip base with dimensions 6x8 m, thickness 0.5 m and height 1.2 m. Perform the calculation using the following algorithm:

  1. Calculate the perimeter by doubling the length of the sides 2x(6+8)=28 m.
  2. Calculate the cross-sectional area by multiplying the thickness and height of the tape 0.5x1.2=0.6 m2.
  3. Determine the volume by multiplying the perimeter by the cross-sectional area 28x0.6 = 16.8 m 3.

The obtained result has a small error due to the fact that reinforced concrete reinforcement and shrinkage of the mixture during vibration compaction are not taken into account.


Strip foundation diagram

How to calculate a cube of concrete for a pile-type foundation

The base in the form of concrete columns is one of the simplest. It consists of reinforced concrete supports evenly spaced along the contour of the building, including at the corners of the structure, as well as at the intersection of internal partitions with walls. Some of the supporting elements are located in the ground and transfer the load from the mass of the structure to the soil. The calculation algorithm involves determining the total need for concrete by multiplying the volume of individual columns by their number.

For calculations, use the formula – V=Sхn, which is deciphered as follows:

  • V – amount of solution for filling columns;
  • S – cross-sectional area of ​​the support element;
  • n – total number of pile columns.

Using the example of the requirements of a project involving the installation of 40 piles with a diameter of 0.3 m and a total length of 1.8 m, we calculate the required amount of concrete:

  1. Calculate the area of ​​the pile by multiplying the coefficient 3.14 by the square of the radius - 3.14x0.15x0.15=0.07065 m2.
  2. Calculate the volume of one support by multiplying its area by its length - 0.07065x1.8=0.127 m3.
  3. Determine the required amount of mixture by multiplying the volume of one pile by total quantity supports 0.127x40=5.08 m3.

How to calculate a cube of concrete

At rectangular section support columns, to calculate the cross section it is necessary to multiply the width and thickness of the element.

How to calculate concrete for a columnar base with a reinforced concrete grillage

To increase the strength characteristics of the columnar base, the protruding parts of the supports are combined with a reinforced concrete structure, which is called a grillage. It is made in the form of a solid reinforced concrete strip or slab in which the column heads are concreted.


How to calculate the volume of concrete for the construction of strip foundations and piles
  1. Determine the cross-sectional area of ​​the grillage by multiplying its thickness by its height;
  2. Calculate the volume of the grillage by multiplying the cross-sectional area by the length of the structure.

The obtained value corresponds to the need for concrete mixture for concreting the grillage base.

We calculate the volume of concrete for a foundation in the form of a solid slab

Slab-type foundations are used on difficult soils with high moisture concentrations. Buildings without a basement are erected on it. This design allows you to evenly distribute the load from the mass of the structure on the soil and ensure increased rigidity and stability of the object being built. The use of reinforcement can increase the strength of a slab foundation. The structure is a reinforced concrete slab in the shape of a rectangular parallelepiped.


How to calculate the volume of concrete

Explanation of symbols:

  • V – volume of concrete composition for pouring the slab;
  • S – area of ​​the slab base in cross section;
  • L – length of the foundation structure.

For a foundation 12 m long, 10 m wide and 0.5 m thick, consider the calculation algorithm:

  1. Determine the area by multiplying the width of the slab by its thickness 10x0.5 = 5 m 2.
  2. Calculate the volume of the base by multiplying the length of the structure by the area 12x5 = 60 m 3.

The resulting value corresponds to the need for concrete mixture. If the slab foundation has a complex configuration, then it should be divided on the plan into more simple figures, and then calculate the area and volume for each.

How to correctly calculate a cube of concrete for building walls


Calculator for calculating the amount of concrete for a strip foundation on the website

To build massive buildings, strong boxes are constructed from concrete reinforced with steel reinforcement. To determine the need for building materials, builders are faced with the task of calculating the volume of concrete for such structures. To perform calculations, use the following formula – V=(S-S1)xH.

Let's decipher the notation included in the formula:

  • V – the amount of concrete mixture for the construction of walls;
  • S – total area wall surface;
  • S1 – total area of ​​window and door openings;
  • H – height of the concreted wall box.

When performing calculations, the total area of ​​the openings is determined by summing up the individual openings. The calculation algorithm is reminiscent of determining the need for concrete for a slab foundation and can easily be done independently using a calculator.

How to calculate a cube of concrete for pouring a floor


How to calculate the volume of concrete for a floor

To increase the load-bearing capacity of the floor and ensure its flatness, a concrete screed is used. After the concrete has hardened, this surface serves as the basis for laying floor coverings or ceramic tiles. To prevent cracking, the thickness of the concrete screed being formed is 5–10 cm. This is due to the fact that thinner material cracks during operation. It is important to correctly calculate the cube of concrete so that the formed screed is strong and has the thickness specified by the project.

The formula for determining the amount of solution V=Sxh is easy to decipher:

  • V – amount of material being poured;
  • S – total area of ​​the concrete screed;
  • h – thickness of the concrete base.

Let's figure out how to perform calculations for a room with dimensions of 6x8 m and a concrete base thickness of 0.06 m:

  1. Determine the area of ​​the floor surface by multiplying the length and width of the room - 6x8 = 48 m 2.
  2. Calculate the volume of poured concrete to form the screed by multiplying the area by the thickness of the layer - 48x0.06 = 2.88 m 3.

Guided by the above algorithm, you can easily determine the amount of concrete composition for concreting the floor. Situations arise when the rough surface has a slope. In this case, the formed screed has a different thickness according to the area of ​​the room. In this situation, you can use the average layer thickness, which reduces the accuracy of the calculations.

Conclusion - why you need to know how to calculate a cube of concrete

When engaged in construction and planning to make concrete mortar yourself or purchase it from reinforced concrete products enterprises in the required quantity, it is important to know how to calculate the volume of concrete. This will allow you to predict the amount of upcoming expenses, purchase construction materials in a timely manner, and complete the work within the planned time frame. You can make calculations either manually using a calculator or using software. The main thing is to master the calculation technique and use reliable data to determine the amount of concrete.

With the help online calculator You will be able to correctly calculate the volume of a container such as a cylinder, barrel, tank, or the volume of liquid in any other horizontal cylindrical container.

Let's determine the amount of liquid in an incomplete cylindrical tank

All parameters are indicated in millimeters

L— Height of the barrel.

H— Liquid level.

D— Tank diameter.

Our program in online mode will calculate the amount of liquid in the container, determine the surface area, free and total cubic capacity.

The determination of the main parameters of the cubic capacity of tanks (for example, a regular barrel or tank) should be made based on the geometric method for calculating the capacity of the cylinders. In contrast to methods for calibrating a container, where the volume is calculated in the form of real measurements of the amount of liquid using a measuring ruler (according to the readings of the meter rod).

V=S*L – formula for calculating the volume of a cylindrical tank, where:

L is body length.

S is the cross-sectional area of ​​the tank.

According to the results obtained, capacity calibration tables are created, which are also called calibration tables, which allow you to determine the weight of the liquid in the tank by specific gravity and volume. These parameters will depend on the filling level of the tank, which can be measured using a meter rod.

Our online calculator allows you to calculate the capacity of horizontal and vertical containers using a geometric formula. You can find out the useful capacity of the tank more accurately if you correctly determine all the main parameters that are listed above and are involved in the calculation.

How to correctly define master data

Determining the lengthL

Using a regular tape measure, you can measure the length L of a cylindrical tank with a non-flat bottom. To do this, you need to measure the distance between the intersecting lines of the bottom with the cylindrical body of the container. In the case of a horizontal tank with a flat bottom, then in order to determine the size L, it is enough to measure the length of the tank along the outside (from one edge of the tank to the other), and subtract the bottom thickness from the result obtained.

Determine the diameter D

The easiest way is to determine the diameter D of a cylindrical barrel. To do this, it is enough to use a tape measure to measure the distance between any two extreme points of the lid or edge.

If it is difficult to correctly calculate the diameter of the container, then in this case you can use the measurement of the circumference. To do this, use a regular tape measure to circle the entire tank around the circumference. To correctly calculate the circumference, two measurements are taken in each section of the tank. To do this, the surface being measured must be clean. Having found out the average circumference of our container - Lcr, we proceed to determining the diameter using the following formula:

This method is the simplest, since often measuring the diameter of the tank is accompanied by a number of difficulties associated with accumulation on the surface various types equipment.

Important! It is best to measure the diameter in three different sections of the container, and then calculate the average value. Since often, these data can differ significantly.

Averaged values ​​after three measurements allow us to minimize the error in calculating the volume of a cylindrical tank. As a rule, used storage tanks undergo deformation during operation, may lose strength, and decrease in size, which leads to a decrease in the amount of liquid inside.

Determining the levelH

To determine the liquid level, in our case it is H, we need a meter rod. Using this measuring element, which is lowered to the bottom of the container, we can accurately determine the parameter H. But these calculations will be correct for tanks with a flat bottom.

As a result of calculating the online calculator, we get:

  • Free volume in liters;
  • Amount of liquid in liters;
  • Volume of liquid in liters;
  • Total tank area in m²;
  • Bottom area in m²;
  • Lateral surface area in m².