RU2572205C1 - Processing method of hydrocarbon-bearing slurries in outdoor storages using uhf electromagnetic emission - Google Patents

Abstract

FIELD: ecology.

SUBSTANCE: processing of hydrocarbon-bearing (HCB) slurries in outdoor storages involves continuous action of UHF electromagnetic emission. A protective metal casing with an UHF emission generator fixed on it and a gas discharge pipe for gaseous products of HCB slurry after processing is installed on the surface of the reserved area of the storage. Emission energy is localised in slurry volume between the protective metal casing submerged into the treated medium to the depth that is not lower than j of UHF emission wave length and boundary of depth of emission penetration into the treated medium and causes slurry destruction. Gaseous decomposition products are removed for further separation into fractions. Slurry processing is continued till a gas release process is stopped. Emission power required for heating of the treated slurry volume till the specified temperature is determined by the formula: P1 = T1·α·S·V, and heating time

where T1 is specified temperature; α - volumetric coefficient of heat exchange of the treated section with environment; S - contact surface area of the treated volume with environment; V - volume of treated medium; c, ρ - averaged heat capacity and density of the treated HCB slurry.

EFFECT: invention provides effective processing of HCB slurry without any additional transportation of slurries, excludes environmental pollution with products after processing due to absence of slurry movement.

2 cl, 1 dwg

Description

The invention relates to the chemical industry, to the field of technology for the processing and disposal of hydrocarbon-containing (HCS) waste located in open storage facilities, and can be used to create technological complexes for processing the utilization of hydrocarbon-containing sludge using the energy of electromagnetic radiation from the microwave range by non-contact volumetric heating.

A known method implemented by a device for separating a water-oil mixture (RF patent for utility model No. 40925 IPC ⁷ B08B 7/04, publ. 10/10/2004), which consists in exposing microwave energy from a source of electromagnetic waves to the medium to be treated — an oil-water mixture in the pipeline.

The method consists in exposing the oil emulsion to a microwave energy through a channel separated from the medium by a translucent diaphragm of a conical shape with a vertex facing deep into the inlet section of the pipeline.

The disadvantage of this method is the uneven effect of electromagnetic radiation, and also, since the medium to be treated must be transported through a pipeline, this limits the use of this method for highly viscous mixtures.

The closest analogue of the invention is a method of processing oil sludge using microwave electromagnetic effects (RF patent No. 2494824 IPC B09B 3/00 (2006.01) publ. 10.10.2013, Bull. No. 28), which consists in the continuous exposure to microwave electromagnetic field from a source of electromagnetic waves the sludge flow in the microwave reactor, the efficiency of which is achieved by the fact that before the filing of the sludge in the microwave reactor determine the relative permittivity ε ′, electrical conductivity σ, density ρ, heat capacity s, the attenuation coefficient of the electromagnetic wave, determine the initial temperature of the medium to be treated T ₀ and the critical temperature T _KR , to which it is necessary to heat the medium to be processed, and based on certain parameters, the effective oil sludge flow rate in the microwave reactor and the feed rate of the processed product are calculated. For a more complete destruction of oil sludge into separate fractions, to prevent the process of reverse adsorption on water globules after a microwave reactor, the treated medium is sent to a three-phase decanter, where oil sludge is separated into commercial oil, water and mechanical impurities.

The disadvantage of this method is that the oil sludge is fed into the microwave reactor by means of a pump with a given flow rate Q, which cannot be maintained in a given interval when the viscosity of the medium being processed is changed due to solid inclusions of particles of different disperse composition. In addition, the transportation of highly viscous mixtures requires relatively high energy costs.

The proposed method for processing hydrocarbon-containing sludge in open storage facilities is devoid of these disadvantages.

The technical result of the invention is the provision of efficient processing of HCS of sludge using microwave radiation without additional transportation of sludge from open storages, eliminating environmental pollution by processing products due to the lack of movement of sludge.

The technical result is achieved by the fact that in the method for processing HCF of sludge in open storages using microwave electromagnetic radiation according to the invention, a metal protective casing is installed on the surface of the selected section of the open storage with a microwave generator and a gas pipe for gaseous products of processing of HCS of sludge, radiation energy is localized in the volume between the metal insulating casing immersed in the medium to a depth not less than it ¼ the wavelength of microwave radiation, and the boundary of the depth of radiation penetration into the processing medium, causing degradation of the sludge, after which the gaseous decomposition products is withdrawn for further separation into fractions, sludge recycling process is continued until cessation of gas evolution process; wherein the radiation power required to heat the treated volume of sludge to a given temperature is determined by the formula.

The method provides a high degree of separation of the HCS of the sludge into separate fractions (gas and solid) without environmental pollution due to the conversion of electromagnetic radiation energy into thermal energy necessary for the conversion of the liquid phase (water + HCS components) into gas, with further separation by fractions.

The figure shows a diagram of a device for implementing the method of processing the UVS of sludge in open storages using microwave electromagnetic radiation. The device includes a generator 1 microwave electromagnetic radiation; waveguide 2; a radiating antenna 3, a protective membrane 4, permeable to microwave radiation; insulating casing 5; gas pipe 6 for the removal of gaseous products of processing; Manipulator 7. The figure also indicates: storage 8 of hydrocarbon-containing sludge; volume 9 sludge absorbing microwave radiation.

The essence of the invention lies in the continuous action of microwave electromagnetic radiation from a source of electromagnetic oscillations on the volume of the HCF of the sludge, limited by an insulating casing, and the evaporated liquid phase of the sludge, consisting of a mixture of hydrocarbons and water vapor, is pumped out of a closed volume limited by a protective casing and the surface level of the sludge in the storage . Then the pumped gas mixture is fed to the separation of hydrocarbon fractions and condensation of water vapor. The power of electromagnetic radiation necessary for processing the volume of sludge bounded by a protective casing is determined by the electrophysical parameters of the sludge and the size of the bounding casing. Microwave radiation, limited by the surface of an insulating casing made of metal with high electrical conductivity, is absorbed by a layer of slurry UVS of thickness δ, being converted into heat energy in it [Arkhangelsky Yu.S., Devyatkin II Microwave heating installations for the intensification of technological processes. Saratov: Publishing house of the Saratov University, 1983. - 140 p.].

,

- действительные и мнимые части абсолютных диэлектрической и магнитной проницаемости среды (УВС шлама);Where

,

- the real and imaginary parts of the absolute dielectric and magnetic permeability of the medium (HCS slurry);

σ is the specific conductivity of the medium;

ω = 2πν is the circular frequency of electromagnetic radiation;

;

- тангенсы углов диэлектрических и магнитных потерь;

;

- tangents of dielectric and magnetic loss angles;

ε ″, μ ″ - imaginary parts of relative dielectric and magnetic permeability;

ε ₀ = 8.87 · 10 ^-12 F / m, μ ₀ = 4π · 10 ^-7 Gn / m are the electric and magnetic constants.

With the absorption of microwave electromagnetic radiation, the temperature of the treated volume of the UVS of the sludge will begin to increase in proportion to the power of the generating microwave device

where T (t) = T _in -T _s , T _in (t) is the temperature of the processed substance,

T _s (t) is the ambient temperature;

P is the power of microwave radiation;

V = S _k · δ is the volume of the processed medium;

S _k is the surface area of the protective casing in contact with the surface of the storage of HCS of the sludge;

α is the volumetric heat transfer coefficient of the treated area with the environment;

S is the contact area of the treated volume with the environment;

t is the processing time;

c, ρ are the averaged heat capacity and density of the treated hydrocarbon slurry.

Since the processed medium (HCS slurry) consists of a mixture of liquid components and a “dry” residue, the heating process will consist of several stages.

At the first stage, the whole substance is heated in the allocated volume V = S _k · δ to the boiling point T _{1 of the} component having the lowest value of this value. The radiation power required to heat the treated volume of sludge to a given temperature is determined by the formula

and heating time

To evaporate this component at temperature T _1, additional microwave energy is required

where λ ₁ is the specific heat of vaporization of a given substance;

m ₁ is its mass.

Total distillation time of the first component

In the second stage, the remaining part of the mixture of mass (mm ₁ ), density ρ ₁ , volume V ₁ , with a surface area S ₁ restricting the volume in contact with the environment is heated to the boiling temperature T _{2 of the} next component

in this case, the radiation power and processing time until the second component is completely distilled off is determined by the relations

where m ₂ , λ ₂ - mass and specific heat of evaporation of the 2nd component.

Similarly for the 1st component

At the last stage (“dry” residue), the rate of temperature increase is determined by the formula:

At a given temperature T _c , the processing time at the last stage is

where c _s , m _s - heat capacity and mass of the "dry"residue;

P _with - radiation power at the final stage of processing.

Thus, the total processing time

and specific energy consumption (J / kg) is

The obtained ratios make it possible to determine the radiation power, the processing time at each stage, and the total energy consumption, depending on the nature of the heat exchange with the environment, for a given composition of the treated waste and its properties.

The method is carried out in the following sequence: the manipulator 7 installs a protective casing 5 with a microwave radiation generator 1 and a gas pipe 6 fixed to it on the surface of the allocated section of the open storage 8. Turn on the generator 1, set the required power of the generating device. The temperature change of the treated volume of the sludge is recorded 9. The gaseous decomposition products of the HCS of the sludge formed as a result of absorption of microwave radiation and heating are discharged through a gas exhaust pipe 6 for further separation into fractions. Water vapor is also discharged through a gas exhaust pipe 6 together with gaseous products and condenses in a tank for collecting water (not shown in the figure). As the level of the surface of the sludge is shifted using the manipulator 7, the casing 5 is also shifted, providing the necessary immersion of the latter. The process of processing the hydrocarbon containing sludge is continued until the gas evolution process ceases. Then, using the manipulator 7, the protective casing 5 with the generating system (generator 1, waveguide 2, radiating antenna 3) and a gas exhaust pipe 6 for removal of the gas mixture is moved to a new place in the open storage and the processing process is repeated.

The application of the invention will make it possible to obtain hydrocarbon raw materials from difficult to recycle waste, reuse the water contained in them in technological processes, eliminate emissions from storages into the atmosphere, reduce the costs of enterprises to maintain existing landfills and storages of hydrocarbon-containing wastes, and use the “dry” residue remaining after liquid phase removal road-building or other production and prepare the land area of the old burial oil sludge for reclamation.

Claims (2)

1. A method of processing hydrocarbon-containing sludge in open storages by continuous exposure to microwave electromagnetic radiation, characterized in that a metal protective casing is installed on the surface of the selected area of the open storage with a microwave generator and a gas exhaust pipe for gaseous products of the processing of hydrocarbon slurry, while the energy radiation is localized in the volume of sludge between a metal protective casing immersed in the medium to a depth not less than ¼ dl In other words, the wave of microwave radiation, and the boundary of the depth of radiation penetration into the processed medium and causes the destruction of the sludge, after which the gaseous decomposition products are diverted for further separation into fractions, the sludge processing process is continued until the gas evolution process ceases, while the radiation power required to heat the treated volume sludge to a given temperature, determined by the formula
P ₁ = T ₁ · α · S · V,
and heating time

where Τ ₁ is the set temperature;
α is the volumetric heat transfer coefficient of the treated area with the environment;
S is the contact area of the treated volume with the environment;
V is the volume of the processed medium;
s, ρ - averaged heat capacity and density of the treated UVS
sludge. 2. A method for processing hydrocarbon-containing sludge according to claim 1, characterized in that after the treatment of the open storage section, the protective casing with the generating system and the gas exhaust pipe for discharging the vapor-gas mixture is moved to a new location in the open storage and the processing process is repeated.

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