CN208394865U - A kind of nitrogenous organic waste-water treating apparatus - Google Patents
A kind of nitrogenous organic waste-water treating apparatus Download PDFInfo
- Publication number
- CN208394865U CN208394865U CN201820517661.5U CN201820517661U CN208394865U CN 208394865 U CN208394865 U CN 208394865U CN 201820517661 U CN201820517661 U CN 201820517661U CN 208394865 U CN208394865 U CN 208394865U
- Authority
- CN
- China
- Prior art keywords
- methanol
- oxygen
- preheater
- pipeline
- import
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Treatment Of Water By Oxidation Or Reduction (AREA)
Abstract
The utility model discloses a kind of nitrogenous organic waste-water treating apparatus, including material transport system, heat-exchange system, supercritical water oxidation system and cooling depressurizing system, material transport system is connect by pipe network with heat-exchange system, and heat-exchange system is connect by pipe network with supercritical water oxidation system and cooling depressurizing system.The utility model first preheats reaction system, and preheating temperature is lower, alleviates equipment corrosion and mineralization in pre-heating system, and ensure that efficient oxidation of the obstinate intermediate product ammonia nitrogen in localized hyperthermia decomposes;In addition also by the way of three-level incidence methanol, first order incidence methanol plays auxiliary heat effect, cooxidation promotor of the two-stage incidence methanol as waste water supercritical water oxidation afterwards, it ensure that the sustainable supply of living radical, further promote efficient, the thorough degradation of nitrogen and organic carbon in nitrogenous organic wastewater, the reaction time is greatly shortened, reactor material consumption and cost are reduced.
Description
Technical field
The utility model belongs to environmental protection and organic wastewater harmless treatment device technical field, and in particular to Yi Zhonghan
Nitrogen organic waste-water treating apparatus.
Background technique
Supercritical water (Supercritical water, abbreviation SCW) is defined as temperature and pressure and is above its critical value
Water (the T of statec=647K, Pc=22.1MPa), with its unique physical property, as a kind of low viscosity, low-k, low
The reaction medium of ionic product makes organic matter and oxidant be dissolved completely in wherein and quick, thorough homogeneous reaction occurs, and eliminates
Alternate resistance of the phase interface to heat and mass.In addition the high diffusivity rate and hot conditions of supercritical water, has further promoted
Machine object is in oxidative decomposition wherein rapidly and efficiently.Therefore supercritical Water Oxidation Technology (SCWO) is as a kind of novel organic
Waste treatment technique can effectively realize that high concentrated organic wastewater is efficient, thorough harmless treatment, be successfully applied to very
In the processing of more stubbornness organic pollutants.
Wherein, a kind of debirs being widely noticed are nitrogenous organic wastewater, such as landfill leachate, coal gasification waste water,
For researching and proposing for itrogenous organic substance SCWO reaction, ammonia is the intermediate product generated in nitrogenous compound reaction process, still
The property of ammonia is stablized, and in no catalyst, if reaction temperature is less than 640 DEG C, ammonia is hardly decomposed.
Utility model content
The purpose of the utility model is to provide a kind of nitrogenous organic waste-water treating apparatus, solve existing supercritical water oxidation
Technology is to the incomplete problem of existing intermediate product ammonolysis craft during nitrogenous treatment of Organic Wastewater.
The utility model is the technical scheme adopted is that a kind of nitrogenous organic waste-water treating apparatus, including passes sequentially through pipe
Net connection material transport system, heat-exchange system and supercritical water oxidation system, heat-exchange system also pass through pipe network connect it is cold
But depressurizing system, material transport system include the waste liquid delivery line, methanol delivery line and oxidant transport tube being arranged successively
Line, three delivery lines pass through pipeline respectively and connect heat-exchange system.
The utility model is also characterized by:
Waste liquid delivery line includes waste liquid storage tank, the outlet of waste liquid storage tank by pipeline connect that high-pressure material pumps into
Mouthful, it is provided with flowmeter between waste liquid storage tank and high-pressure material pump, is provided with pressure gauge on high-pressure material pump;
Methanol delivery line includes methanol tank, and the outlet of methanol tank connects the import of high-pressure methanol pump by pipeline,
It is provided with flowmeter between methanol tank and high-pressure methanol pump, is provided with pressure gauge on high-pressure methanol pump;
Each flowmeter and each pressure gauge are provided with corresponding control valve;
Oxidant delivery line includes liquid oxygen storage tank, and liquid oxygen storage tank connects High Pressure Liquid Oxygen Pump by pipeline, liquid oxygen storage tank and
Several control valves are provided between High Pressure Liquid Oxygen Pump;
High-pressure material pump, high-pressure methanol pump, High Pressure Liquid Oxygen Pump pass through pipeline respectively and connect heat-exchange system.
Heat-exchange system includes waste liquid preheater I, and the cold fluid outlet of waste liquid preheater I connects waste liquid preheater by pipeline
II cold fluid inlet, the hot fluid outlet ports of waste liquid preheater II connect the hot fluid inlet of methanol preheater, first by pipeline
The hot fluid outlet ports of alcohol preheater connect the hot fluid inlet of waste liquid preheater I by pipeline, and the hot fluid of waste liquid preheater I goes out
Mouth connects the hot fluid inlet of liquid oxygen preheater by pipeline;
The cold fluid inlet of waste liquid preheater I is connect by pipeline with the outlet that high-pressure material pumps, methanol preheater it is cold
Fluid inlet is connect by pipeline with the outlet that high-pressure methanol pumps, and the cold fluid inlet of liquid oxygen preheater passes through pipeline and high pressure liquid
The outlet of oxygen pump connects, and flow control valve is arranged between High Pressure Liquid Oxygen Pump and liquid oxygen preheater, and flow control valve connects flowmeter;
Liquid oxygen preheater also connects supercritical water oxidation system and cooling depressurizing system by pipeline respectively.
Supercritical water oxidation system includes tubular reactor, and tubular reactor one end is provided with beginning import;It is another
End is provided with end outlet, is relatively set with methanol import I and oxygen at its 1/5 length along tubular reactor length direction
Import I is relatively set with methanol import II and oxygen inlet II at its 2/5 length;It is provided in tubular reactor outside wall surface
Metallic resistance, by wire connecting power on tubular reactor outer wall, power supply is for the metallic resistance on heated Tube reactor;
End outlet connects the hot fluid inlet of waste liquid preheater II by pipeline, end outlet and waste liquid preheater II it
Between be disposed with temperature measuring set and flowmeter, the cold fluid outlet of waste liquid preheater II passes through pipeline and connects beginning import;
The cold fluid outlet of methanol preheater connects beginning import, methanol import I and methanol import II by pipeline respectively,
It is provided with methanol flow regulating valve I between methanol preheater and beginning import, is arranged between methanol preheater and methanol import II
There is methanol flow regulating valve II;Methanol flow regulating valve I and methanol flow regulating valve II are respectively connected with flowmeter;
Liquid oxygen preheater connects oxygen collector by pipeline, is provided with temperature between liquid oxygen preheater and oxygen collector
Measuring instrument;Oxygen collector connects beginning import, oxygen inlet I and oxygen inlet II by pipeline respectively, oxygen collector with
It is provided with oxygen flow rate adjusting valve I between beginning import, oxygen flow adjusting is provided between oxygen collector and oxygen inlet I
Valve II is provided with oxygen flow rate adjusting valve III, oxygen flow rate adjusting valve I, oxygen stream between oxygen collector and oxygen inlet II
Adjustable valve II and oxygen flow rate adjusting valve III are respectively connected with flowmeter.
Cooling depressurizing system includes heat collector, and the hot fluid outlet ports of heat collector are connected the import of counterbalance valve by pipeline, taken
The hot fluid inlet of hot device is connected by pipeline with the hot fluid outlet ports of liquid oxygen preheater.
The beneficial effects of the utility model are: the utility model is by the way of three-level incidence methanol, first order incident pipe
The methanol of formula reactor plays auxiliary heat effect, and the methanol of rear two-stage incidence is as nitrogenous organic wastewater supercritical water oxidation
Cooxidation promotor further promotes efficient, the thorough degradation of nitrogen and organic carbon in nitrogenous organic wastewater, greatly shortens
Reaction time reduces reactor material consumption and cost.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of nitrogenous organic waste-water treating apparatus of the utility model;
Fig. 2 is a kind of structural schematic diagram of one embodiment of nitrogenous organic waste-water treating apparatus of the utility model.
In figure, 1. material transport systems, 101. waste liquid delivery lines, 102. methanol delivery lines, 103. oxidants are transported
Pipeline, 2. heat-exchange systems, 3. supercritical water oxidation systems, 4. cooling depressurizing systems, 5. waste water storage tanks, 6. high-pressure materials
Pump, 7. methanol tanks, 8. high-pressure methanols pump, 9. liquid oxygen storage tanks, 10. High Pressure Liquid Oxygen Pumps, 11. waste liquid preheaters I, 12. waste liquids are pre-
Hot device II, 13. methanol preheaters, 14. liquid oxygen preheaters, 15. tubular reactors, 16. conducting wires, 17. heating power supplies, 18. take heat
Device, 19. counterbalance valves, 20. methanol flow regulating valves I, 21. methanol flow regulating valves II, 22. oxygen collectors, 23. oxygen flows
Regulating valve I, 24. oxygen flow rate adjusting valves II, 25. oxygen flow rate adjusting valves III, 26. beginning imports, 27. end outlets, 28. first
Alcohol import I, 29. methanol imports II, 30. oxygen inlets I, 31. oxygen inlets II.
Specific embodiment
The utility model is described in detail with reference to the accompanying drawings and detailed description.
A kind of nitrogenous organic waste-water treating apparatus of the utility model, as shown in Figure 1, including the object for passing sequentially through pipe network connection
Expect that transport system 1, heat-exchange system 2 and supercritical water oxidation system 3, heat-exchange system 2 also connect cooling decompression by pipe network
System 4, material transport system 1 include that waste liquid delivery line 101, methanol delivery line 102 and the oxidant being arranged successively transport
Pipeline 103, three delivery lines connect heat-exchange system 2 by pipeline respectively.
Waste liquid delivery line includes waste liquid storage tank 5, and the outlet of waste liquid storage tank 5 connects high-pressure material pump 6 by pipeline
Import, be provided with flowmeter between waste liquid storage tank 5 and high-pressure material pump 6, be provided with pressure gauge on high-pressure material pump 5;
Methanol delivery line includes methanol tank 7, the outlet of methanol tank 7 by pipeline connect high-pressure methanol pump 8 into
Mouthful, it is provided with flowmeter between methanol tank 7 and high-pressure methanol pump 8, is provided with pressure gauge on high-pressure methanol pump 8;
Each flowmeter and each pressure gauge are provided with corresponding control valve;
Oxidant delivery line includes liquid oxygen storage tank 9, and liquid oxygen storage tank 9 connects High Pressure Liquid Oxygen Pump 10, liquid oxygen storage by pipeline
Several control valves are provided between tank 9 and High Pressure Liquid Oxygen Pump 10;
High-pressure material pump 6, high-pressure methanol pump 8, High Pressure Liquid Oxygen Pump 10 connect heat-exchange system 2 by pipeline respectively.
Heat-exchange system 2 includes waste liquid preheater I 11, and the cold fluid outlet of waste liquid preheater I 11 connects waste liquid by pipeline
The cold fluid inlet of preheater II 12, the hot fluid outlet ports of waste liquid preheater II 12 connect the heat of methanol preheater 13 by pipeline
Fluid inlet, the hot fluid outlet ports of methanol preheater 13 connect the hot fluid inlet of waste liquid preheater I 11 by pipeline, and waste liquid is pre-
The hot fluid outlet ports of hot device I 11 connect the hot fluid inlet of liquid oxygen preheater 14 by pipeline;
The cold fluid inlet of waste liquid preheater I 11 is connect by pipeline with the outlet of high-pressure material pump 6, methanol preheater 13
Cold fluid inlet connect by the outlet that pipeline and high-pressure methanol pump 8, the cold fluid inlet of liquid oxygen preheater 14 passes through pipeline
It is connect with the outlet of High Pressure Liquid Oxygen Pump 10, flow control valve, flow control is set between High Pressure Liquid Oxygen Pump 10 and liquid oxygen preheater 14
Valve processed connects flowmeter;Liquid oxygen preheater 14 also connects supercritical water oxidation system 3 and cooling decompression by pipeline respectively
System 4.
Supercritical water oxidation system 3 includes tubular reactor 15, and 15 one end of tubular reactor is provided with beginning import
26;The other end is provided with end outlet 27, is relatively set with methanol at its 1/5 length along 15 length direction of tubular reactor
Import I 28 and oxygen inlet I 30 are relatively set with methanol import II 29 and oxygen inlet II 31 at its 2/5 length;Tubular type is anti-
It answers and is provided with metallic resistance in 15 outside wall surface of device, power supply 17 is connected by conducting wire 16 on 15 outer wall of tubular reactor, power supply 17 is used
Metallic resistance on heated Tube reactor 15;
End outlet 27 connects the hot fluid inlet of waste liquid preheater II 12 by pipeline, and end outlet 27 and waste liquid preheat
Temperature measuring set and flowmeter are disposed between device II 12, the cold fluid outlet of waste liquid preheater II 12 is connected by pipeline
The beginning import 26;
The cold fluid outlet of methanol preheater 13 connects beginning import 26, methanol import I 28 and methanol by pipeline respectively
Import II 29 is provided with methanol flow regulating valve I 20, methanol preheater 13 and first between methanol preheater 13 and beginning import 26
Methanol flow regulating valve II 21 is provided between alcohol import II 29;Methanol flow regulating valve I 20 and methanol flow regulating valve II 21
It is respectively connected with flowmeter;
Liquid oxygen preheater 14 connects oxygen collector 22 by pipeline, sets between liquid oxygen preheater 14 and oxygen collector 22
It is equipped with temperature measuring set;Oxygen collector 22 connects beginning import 26, oxygen inlet I 30 and oxygen inlet II by pipeline respectively
31, oxygen flow rate adjusting valve I 23, oxygen collector 22 and oxygen inlet are provided between oxygen collector 22 and beginning import 26
It is provided with oxygen flow rate adjusting valve II 24 between I 30, is provided with oxygen flow between oxygen collector 22 and oxygen inlet II 31
Regulating valve III 25, oxygen flow rate adjusting valve I 23, oxygen flow rate adjusting valve II 24 and oxygen flow rate adjusting valve III 25 are respectively connected with stream
Meter.
Cooling depressurizing system 4 includes heat collector 18, and the hot fluid outlet ports of heat collector 18 connect counterbalance valve 19 by pipeline
The hot fluid inlet of import, heat collector 18 is connected by pipeline with the hot fluid outlet ports of liquid oxygen preheater 14.
Embodiment
As shown in Fig. 2, a kind of nitrogenous organic waste-water treating apparatus, the material transport system including passing sequentially through pipe network connection
1, heat-exchange system 2 and supercritical water oxidation system 3, heat-exchange system 2 also connect cooling depressurizing system 4, material by pipe network
Transport system 1 includes the waste liquid transport tube 101, methanol delivery line 102 and the oxidant delivery line 103 that are arranged successively, and three
Delivery line connects heat-exchange system 2 by pipeline respectively.
Material transport system 1 includes waste liquid delivery line, methanol delivery line and oxidant delivery line, waste liquid transport tube
Line includes waste liquid storage tank 5, import of the outlet of waste liquid storage tank 5 by pipeline G1 connection high-pressure material pump 6, waste liquid storage tank
5 outlet and high-pressure material pump 6 inlet communication, and flowmeter is provided on pipeline G1, is provided with pressure on high-pressure material pump 6
Table;
Methanol delivery line includes methanol tank 7, and the outlet of methanol tank 7 passes through pipeline G2 connection high-pressure methanol pump 8
Import, the outlet of methanol tank 7 and high-pressure methanol pump 8 inlet communication, and flowmeter, high-pressure methanol pump 8 are provided on pipeline G2
On be provided with pressure gauge;
Each flowmeter and each pressure gauge are provided with corresponding control valve;
Oxidant delivery line includes liquid oxygen storage tank 13, and liquid oxygen storage tank 9 connects high pressure liquid oxygen with pipeline G4 by pipeline G3
Pump 10, the import of High Pressure Liquid Oxygen Pump 10 and the outlet of liquid oxygen storage tank 9, are arranged between liquid oxygen storage tank 9 and High Pressure Liquid Oxygen Pump 10
There are several control valves;
High-pressure material pump 6, high-pressure methanol pump 8, High Pressure Liquid Oxygen Pump 10 connect heat-exchange system by pipeline respectively.
Heat-exchange system 2 includes waste liquid preheater I 11, and the cold fluid outlet of waste liquid preheater I 11 is useless by pipeline G8 connection
The hot fluid outlet ports of the cold fluid inlet of liquid preheater II 12, waste liquid preheater II 12 pass through pipeline G10 connection methanol preheater
13 hot fluid inlet, the hot fluid outlet ports of methanol preheater 13 by the hot fluid of pipeline G16 connection waste liquid preheater I 11 into
Mouthful, the hot fluid outlet ports of waste liquid preheater I 11 pass through the hot fluid inlet of pipeline G18 connection liquid oxygen preheater 14;
The cold fluid inlet of waste liquid preheater I 11 is connect by pipeline G5 with the outlet of high-pressure material pump 6, methanol preheater
13 cold fluid inlet is connect by pipeline G6 with the outlet of high-pressure methanol pump 8, and the cold fluid inlet of liquid oxygen preheater 14 passes through
Pipeline G7 is connect with the outlet of High Pressure Liquid Oxygen Pump 10, and flowmeter and its control valve are provided on pipeline G7;Liquid oxygen preheater 14 is also
Supercritical water oxidation system 3 and cooling depressurizing system 4 are connected by pipeline respectively.
Supercritical water oxidation system 3 includes tubular reactor 15, and 15 end inlets of tubular reactor are provided with the beginning
Import 26 is held, is relatively set with methanol import I at 1/5 length of tubular reactor 15 along 15 length direction of tubular reactor
28 and oxygen inlet I 30, first is relatively set at 2/5 length of tubular reactor 15 along 15 length direction of tubular reactor
Alcohol import II 29 and oxygen inlet
Ⅱ31;It is provided with metallic resistance in 15 outside wall surface of tubular reactor, passes through conducting wire 16 on 15 outer wall of tubular reactor
Power supply 17 is connected, power supply 17 is for the metallic resistance on heated Tube reactor 15;
Tubular reactor 15 is additionally provided with end outlet 27, and end outlet 27 passes through pipeline G17 connection waste liquid preheater II
12 hot fluid inlet is disposed with temperature measuring set and flowmeter on pipeline G17, and the cold fluid of waste liquid preheater II 12 goes out
Mouth passes through the pipeline G9 connection beginning import 26;
The cold fluid outlet of methanol preheater 13 passes sequentially through pipeline G11, pipeline G12 connection beginning import 26, pipeline G12
On be provided with flowmeter and methanol flow regulating valve I 20;The cold fluid outlet of methanol preheater 13 passes sequentially through pipeline G11, pipe
Road G13, pipeline G14 connection methanol import I 28, the cold fluid outlet of methanol preheater 13 pass sequentially through pipeline G11, pipeline G13,
Pipeline G15 connection methanol import II 29 is provided with flowmeter and methanol flow regulating valve II 21 on pipeline G15;
Liquid oxygen preheater 14 by pipeline G19 connection oxygen collector 22, liquid oxygen preheater 14 and oxygen collector 22 it
Between be provided with temperature measuring set;Oxygen collector 22 passes sequentially through pipeline G20, pipeline G21 is connect with beginning import 26, pipeline
Flowmeter and oxygen flow rate adjusting valve I 23 are provided on G21;Oxygen collector 22 passes sequentially through pipeline G20, pipeline G22 and oxygen
Gas import I 30 connects, and is provided with flowmeter and oxygen flow rate adjusting valve II 24 on pipeline G22;Oxygen collector 22 passes sequentially through
Pipeline G20, pipeline G23 are connect with oxygen inlet II 31, and oxygen flow rate adjusting valve III 25 and flowmeter are provided on pipeline G23.
Cooling depressurizing system 4 includes heat collector 18, and the hot fluid outlet ports of heat collector 18 pass through pipeline G25 connection counterbalance valve 19
Import, the hot fluid inlet of heat collector 18 is connected by pipeline G24 with the hot fluid outlet ports of liquid oxygen preheater 14.
A kind of nitrogenous organic waste-water treating apparatus of the utility model, its working principles are as follows:
When system starts, the material in waste water storage tank 5 and methanol tank 7 is clear water, pumps 6 Hes by high-pressure material respectively
Clear water is delivered to supercritical water oxidation system 3 by high-pressure methanol pump 8 and pipe network, by adjusting opening for counterbalance valve 19 step by step
Degree, gradually rises 15 outlet pressure of tubular reactor to the pressure requirements value of reaction.Then, startup power supply 17 generate electric current
The metal of 15 wall surface of tubular reactor is set to generate heat, and then the clear water in heated Tube reactor 15, clear water is flowed from end outlet 27
Out, into the hot fluid inlet of waste liquid preheater II 12, heat release wherein is then cooled, to nitrogenous effluent then from waste liquid
The hot fluid outlet ports of preheater II 12 flow out, and next enter the hot fluid inlet of methanol preheater 13, heat release is to first wherein
After alcohol be cooled, then from the hot fluid outlet ports of methanol preheater 13 flow out, and enter waste liquid preheater I 11 hot fluid into
Mouthful, heat release wherein is cooled to after nitrogenous effluent, flows out from the hot fluid outlet ports of waste liquid preheater I 11, flows into liquid oxygen later
The hot fluid inlet of preheater 14 is cooled after preheating to liquid oxygen, subsequently enters heat collector 18 and is cooled after water cools down and flows
Enter counterbalance valve 19, is depressurized to after normal pressure by counterbalance valve 19 and is discharged from system.
After the stable in outlet water temperature of end outlet 27 after certain temperature, the clear water in waste water storage tank 5 is switched to and is contained
Clear water in methanol tank 7 is switched to pure methanol by nitrogen organic wastewater.Close power supply 17, the water outlet after tubular reactor 15
Pressure and temperature reach reaction required value, and system operates normally.
When system operates normally, high-pressure material pump 6 is opened, makes the nitrogenous organic wastewater in waste water storage tank 5, passes through pipeline
It is delivered to the cold fluid inlet of waste liquid preheater I 11, is flowed out after " hot fluid after reaction " heating, is entered later by pipeline
The cold fluid inlet of waste liquid preheater II 12, after further being heated by " hot fluid after reaction ", from the cold of waste liquid preheater II 8
Fluid outlet outflow, then pass through pipeline into beginning import 26.It will be clear that " reaction when the first subsystem operates normally
Hot fluid afterwards " is only clear water, and hereafter main component includes water, CO in " hot fluid after reaction "2、O2、N2And N2O。
The cold of liquid oxygen preheater 14 will be squeezed by pipeline after the liquid oxygen pressurization in liquid oxygen storage tank 9 by opening High Pressure Liquid Oxygen Pump 10
Fluid inlet flows out from the cold fluid outlet of liquid oxygen preheater 14 after " hot fluid after reaction " heating, is divided into three strands.
Oxygen collector 22 is arranged on the pipeline before liquid oxygen preheater 14 and shunting, and purpose enters tubular reactor to control
Oxygen flow.After oxygen is split, the oxygen of first strand of 70% flow enters beginning import 26 through piping, passes through oxygen flow
Regulating valve I 23 adjusts its flow.The oxygen of second strand of 15% flow enters oxygen inlet I 30 through piping, passes through oxygen stream
Adjustable valve II 24 adjusts its flow.The oxygen of 15% flow of third stock enters oxygen inlet II 31 through piping, passes through oxygen
Air-flow adjustable valve III 25 adjusts its flow.It will be clear that " the hot-fluid after reaction when the first subsystem operates normally
Body " is only clear water, and hereafter main component includes water, CO in " hot fluid after reaction "2、O2、N2And N2O。
High-pressure methanol pump 8 is opened, boosts to and the pure methanol in methanol tank 7 is entered into methanol through piping after system pressure
The cold fluid inlet of preheater 13 after the hot fluid heats after being reacted, is divided into three strands.The methanol warp of first strand of 90% flow
Piping enters beginning import 26, its flow is controlled by methanol flow regulating valve I 20.The methanol warp of second strand of 5% flow
Piping enters methanol import I 28.The methanol of 5% flow of third stock enters methanol import II 29 through piping, passes through methanol stream
Adjustable valve II 21 controls its flow.
The methanol of 90% flow plays auxiliary heat effect at beginning import 26.Auxiliary heating type supercritical water oxidation refers to specific condition
Under a kind of quick oxidizing fire reaction for occurring in supercritical water, when organic concentration is sufficiently high, and temperature is higher than its spontaneous combustion
When temperature, organic matter may in supercritical water medium ignition and form hydro-thermal flame, and huge heat is released, even if object
Material also can guarantee with subcritical temperature incidence and generate stable hydro-thermal flame in supercritical water reaction device, and then effectively overcome
Equipment corrosion and mineralization problem in pre- thermal sub-system.Moreover, auxiliary fuel organic matter rapid spontaneous ignition in mixed system,
Heat is discharged simultaneously, reaction environment temperature steeply rises, and more than the autoignition temperature of ammonia, and then guarantees the quick oxidation of ammonia.
The methanol of 5% flow plays cooxidation work at the methanol of 5% flow and methanol import II 29 at methanol import I 28
With.During supercritical water oxidation, the oxidation reaction of the active organic compound in organic mixed system can promote
Stablize the oxidative degradation of recalcitrant compounds.It is because than very fast, meeting exists for active component oxidation in mixture SCWO reaction process
Certain density reactive intermediates are generated in the more early reaction time, and amount of activated substance can attack within the reaction time later
Recalcitrant compounds molecule is hit, and then promotes the oxygenolysis of recalcitrant compounds, as cooxidation acts on.
Into after the nitrogenous organic wastewater, methanol and oxygen mix of beginning import 26, methanol and useless Organic substance in water occur
Supercritical water oxidation.Especially a large amount of reaction heat caused by the quick oxidation of methanol, quickly heat mixed material to pre-
600 DEG C of phase supercritical reaction temperature promotes itrogenous organic substance and ammonia nitrogen on the basis of promoting organic pollutant fast degradation
Oxygenolysis.
After 600 DEG C of hybrid reaction material completes reaction in supercritical water oxidation tubular reactor 15, after generating reaction
Hot fluid, main component includes water, CO in hot fluid after reaction2、O2、N2And N2O.Fluid is flowed out from end outlet 26 after reaction,
Into the hot fluid inlet of waste liquid preheater II 8, heat release wherein is then cooled to nitrogenous effluent, then preheats from waste liquid
The hot fluid outlet ports of device II 8 flow out, and next enter the hot fluid inlet of methanol preheater 13, heat release wherein is to quilt after methanol
It is cooling, then flowed out from the hot fluid outlet ports of methanol preheater 13.Hot fluid enters the hot-fluid of waste liquid preheater I 11 again after reaction
Body import, wherein heat release are cooled to after nitrogenous effluent, flow out from the hot fluid outlet ports of waste liquid preheater I 11, flow into later
The hot fluid inlet of liquid oxygen preheater 14, preheats liquid oxygen, is cooled, from the hot fluid outlet ports stream of liquid oxygen preheater 14
Out, the zone of heat liberation for subsequently entering heat collector 18, the water that is cooled in heat collector 18 are cooling.After reaction after cooling fluid it
Counterbalance valve 19 is flowed into afterwards, is discharged after so that it is depressurized to normal pressure by counterbalance valve 19 from system.
Supplemental oxygen and methanol are carried out to tubular reactor 15 by the way of being classified incident oxygen and the incident methanol of classification,
Along reactor length, methanol and oxygen, respectively methanol import II 29 are inputted to methanol import I 28 and oxygen inlet I 30 respectively
Methanol and oxygen are inputted with oxygen inlet II 31.It is classified incident oxygen, guarantees the degradation efficiency of organic pollutant.Classification is incident
Methanol, on the basis of playing auxiliary heat effect, while it is free for obstinate organic pollutant, especially ammonia nitrogen persistently to provide activity
Base promotes the efficient oxidation of its nitrogen and organic carbon to decompose.
The working principle for being specifically described the utility model in conjunction with the embodiments is as follows:
When system starts, the material in waste water storage tank 5 and methanol tank 7 is clear water, pumps 6 Hes by high-pressure material respectively
Clear water is delivered to supercritical water oxidation system 3 by high-pressure methanol pump 8 and pipe network, by adjusting opening for counterbalance valve 19 step by step
Degree, gradually rises 15 outlet pressure of tubular reactor to 25MPa.Then, startup power supply 17, generating electric current makes tubular reactor
The metal of 15 wall surfaces generates heat, and then the clear water in heated Tube reactor 15, to 400 DEG C, clear water is flowed out from end outlet 27, into
Enter the hot fluid inlet of waste liquid preheater II 12, heat release wherein is then cooled to 410 DEG C to nitrogenous effluent, then from useless
The hot fluid outlet ports of liquid preheater II 12 flow out, and next enter the hot fluid inlet of methanol preheater 13, heat release is given wherein
It is cooled to 405 DEG C after methanol, is then flowed out from the hot fluid outlet ports of methanol preheater 13, and enters waste liquid preheater I 11
Hot fluid inlet, heat release wherein is to being cooled to 225 DEG C after nitrogenous effluent, from the hot fluid outlet ports stream of waste liquid preheater I 11
Out, the hot fluid inlet for flowing into liquid oxygen preheater 14 later, preheats liquid oxygen, is cooled to 208 DEG C, subsequently enters and take heat
Device 18 is cooled to be water-cooled to 15 DEG C of inflow counterbalance valves 19 later, is depressurized to after normal pressure by counterbalance valve 19 and is discharged from system.
After the stable in outlet water temperature of end outlet 27 after 400 DEG C, the clear water in waste water storage tank 5, which is switched to, nitrogenous to be had
Clear water in methanol tank 7 is switched to pure methanol by machine waste water.Close power supply 17, the discharge pressure after tubular reactor 15
And temperature reaches 25MPa, 600 DEG C, system operates normally.
When system operates normally, high-pressure material pump 6 is opened, keeps the nitrogenous organic wastewater in waste water storage tank 5 (such as nitrogenous
The COD concentration of organic wastewater is 50000mg/L) it is sent by pipeline G5 to waste liquid after high-pressure material pump 6 boosts to system pressure
The cold fluid inlet of preheater I 11 flows out after being heated to 370 DEG C by " hot fluid after reaction " in waste liquid preheater I 11, it
The cold fluid inlet for entering waste liquid preheater II 12 by pipeline afterwards, further by " after reaction hot in waste liquid preheater II 12
After fluid " is heated to 400 DEG C, from the cold fluid outlet of waste liquid preheater II 12 flow out, pass sequentially through pipeline G11, pipeline G12 into
Enter the beginning import 26 of tubular reactor 15.It will be clear that " the hot-fluid after reaction when the first subsystem operates normally
Body " is only clear water, and hereafter main component includes water, CO in " hot fluid after reaction "2、O2、N2And N2O。
Open High Pressure Liquid Oxygen Pump 10 make the liquid oxygen in liquid oxygen storage tank 9 by boosting, pass sequentially through pipeline G3 and pipeline G4 into
Enter High Pressure Liquid Oxygen Pump 10, the cold fluid inlet of liquid oxygen preheater 14 is squeezed into the flow of 11.47t/d by pipeline G7, in liquid oxygen
In preheater 14 by " hot fluid after reaction " from -183 DEG C be heated to 207 DEG C after, from the cold fluid outlet of liquid oxygen preheater 14
Outflow, is divided into three strands.Oxygen collector 22 is arranged on the pipeline before liquid oxygen preheater 14 and shunting, and purpose is to control
Into the oxygen flow of tubular reactor.After oxygen is split, the oxygen of first strand of 70% flow is successively through piping G20 and pipe
Road G21 enters beginning import 26, its flow is adjusted by oxygen flow rate adjusting valve I 23.The oxygen of second strand of 15% flow according to
Secondary to enter oxygen inlet I 30 through piping G20 and pipeline G22, the oxygen flow at oxygen inlet I 30 is 1.72t/d at this time, is led to
Oxygen flow rate adjusting valve II 24 is crossed to adjust its flow.The oxygen of 15% flow of third stock is successively through piping G20 and pipeline G23
Into oxygen inlet II 31, its flow, the stream of the oxygen at oxygen inlet II 31 are adjusted by oxygen flow rate adjusting valve III 25
Amount is 1.72t/d.It will be clear that " hot fluid after reaction " is only clear water when the first subsystem operates normally, hereafter
Main component includes water, CO in " hot fluid after reaction "2、O2、N2And N2O。
Pure methanol in methanol tank 7 enters high-pressure methanol pump 8 through piping G2, after boosting to system pressure, with
The flow of 1.76t/d enters the cold fluid inlet of methanol preheater 13 by pipeline G6, by " after reaction in methanol preheater 13
Hot fluid " heat to after 400 DEG C, is divided into three strands.The methanol of first strand of 90% flow successively through piping G11, pipeline G12 into
Enter beginning import 26, its flow is controlled by methanol flow regulating valve I 20.The methanol of second strand of 5% flow, successively by pipe
Road G11, pipeline G13, pipeline G14 enter the flow 0.09t/d of the methanol at methanol import I 28 i.e. methanol import I 28.Third stock
The methanol of 5% flow successively enters methanol import II 29 through piping G11, pipeline G13, pipeline G15, methanol import at this time II 29
The flow of the methanol at place is 0.09t/d, its flow is controlled by methanol flow regulating valve II 21.It will be clear that the
" hot fluid after reaction " is only clear water when primary system operates normally, and hereafter main component includes in " hot fluid after reaction "
Water, CO2、O2、N2And N2O。
Supplemental oxygen and methanol are carried out to tubular reactor 15 by the way of being classified incident oxygen and the incident methanol of classification,
Along reactor length, 0.09t/d methanol and 1.72t/d oxygen are inputted to methanol import I 28 and oxygen inlet I 30 respectively, point
Other methanol import II 29 and oxygen inlet II 31 input 0.09t/d methanol and 1.72t/d oxygen.It is classified incident oxygen, is guaranteed
The degradation efficiency of organic pollutant.It is classified incident methanol, on the basis of playing auxiliary heat effect, while being obstinate organic contamination
Object, especially ammonia nitrogen persistently provide living radical, and the efficient oxidation of its nitrogen and organic carbon is promoted to decompose.
The methanol of 90% flow plays auxiliary heat effect at beginning import 26.Auxiliary heating type supercritical water oxidation refers to specific condition
Under a kind of quick oxidizing fire reaction for occurring in supercritical water, when organic concentration is sufficiently high, and temperature is higher than its spontaneous combustion
When temperature, organic matter may in supercritical water medium ignition and form hydro-thermal flame, and huge heat is released, even if object
Material also can guarantee with subcritical temperature incidence and generate stable hydro-thermal flame in supercritical water reaction device, and then effectively overcome
Equipment corrosion and mineralization problem in pre- thermal sub-system.Moreover, auxiliary fuel organic matter rapid spontaneous ignition in mixed system,
Heat is discharged simultaneously, reaction environment temperature steeply rises, and more than the autoignition temperature of ammonia, and then guarantees the quick oxidation of ammonia.
Auxiliary fuel is generally the higher organic compound of oxidation activity, such as methanol, ethyl alcohol, isopropanol.This patent
Using methanol as auxiliary fuel.Auxiliary fuel in overcritical water oxidization reactor, not only can quickly oxidation heat liberation and add
Thermal response material, and its oxidation that quickly the generated intermediate active free radical of oxidation can also supply obstinate organic matter is dropped
Solution, and then accelerate the whole degradation rate of organic wastewater, further shorten the reaction time, reduces expensive reactor material and disappear
Consumption.It is anti-due to that can share during the mixing supercritical water oxidation of methanol, ethyl alcohol and isopropanol and itrogenous organic substance or ammonia
The intermediate active free radical in system is answered, the former presence significantly promotes the Transport And Transformation of the latter's nitrogen.In addition, activation
The multistage incidence of conjunction object will be substantially better than the facilitation of ammonia nitrogen produced when reactive compound only introduces reaction system from entrance
Facilitation.This is because reactive compound reaction is completed during for the hybrid reaction of co-oxidants single-stage incidence
Afterwards, can only be from obstinate component autoreactivity for the free radical of obstinate component reaction, and then W-response process can be made to slow down.
The methanol of 5% flow plays cooxidation work at the methanol of 5% flow and methanol import II 29 at methanol import I 28
With.During supercritical water oxidation, the oxidation reaction of the active organic compound in organic mixed system can promote
Stablize the oxidative degradation of recalcitrant compounds.It is because than very fast, meeting exists for active component oxidation in mixture SCWO reaction process
Certain density reactive intermediates are generated in the more early reaction time, and amount of activated substance can attack within the reaction time later
Recalcitrant compounds molecule is hit, and then promotes the oxygenolysis of recalcitrant compounds, as cooxidation acts on.
Into after the nitrogenous organic wastewater of 100t/d, 1.58t/d methanol and 8.03t/d oxygen mix of beginning import 26, first
A large amount of reaction heat caused by the quick oxidation of supercritical water oxidation, especially methanol occur for alcohol and useless Organic substance in water,
Quickly heating mixed material promotees on the basis of promoting organic pollutant fast degradation to expected 600 DEG C of supercritical reaction temperature
Into the oxygenolysis of itrogenous organic substance and ammonia nitrogen.
After 600 DEG C of hybrid reaction material completes reaction in supercritical water oxidation tubular reactor 15, after generating reaction
Hot fluid, main component includes water, CO in hot fluid after reaction2、O2、N2And N2O.Fluid is flowed out from end outlet 26 after reaction,
Into the hot fluid inlet of waste liquid preheater II 8, heat release wherein is then cooled to 410 DEG C to nitrogenous effluent, then from useless
The hot fluid outlet ports of liquid preheater II 8 flow out, and next enter the hot fluid inlet of methanol preheater 13, heat release is to first wherein
It is cooled to 405 DEG C after alcohol, is then flowed out from the hot fluid outlet ports of methanol preheater 13.It is pre- to enter waste liquid again for hot fluid after reaction
The hot fluid inlet of hot device I 11, heat release wherein is to being cooled to 225 DEG C after nitrogenous effluent, from the hot-fluid of waste liquid preheater I 11
Body outlet outflow, flows into the hot fluid inlet of liquid oxygen preheater 14 later, preheats to liquid oxygen, after being cooled to 208 DEG C, from
The hot fluid outlet ports of liquid oxygen preheater 14 flow out, and subsequently enter the zone of heat liberation of heat collector 18, are cooled in heat collector 18
It is water-cooled to 15 DEG C.Counterbalance valve 19 is flowed into after reaction after cooling after fluid, after so that it is depressurized to normal pressure by counterbalance valve 19
It is discharged from system.
A kind of nitrogenous organic waste-water treating apparatus of the utility model, the beneficial effect is that: preheating temperature is lower, alleviates
Equipment corrosion and mineralization problem in pre-heating system, and ensure that obstinate intermediate product ammonia nitrogen is efficient in localized hyperthermia
Oxygenolysis;In addition also by the way of three-level incidence methanol, the methanol of first order incidence tubular reactor plays auxiliary heat effect,
Cooxidation promotor of the two-stage incidence methanol as waste water supercritical water oxidation afterwards ensure that the lasting confession of living radical
It gives, further promotes efficient, the thorough degradation of nitrogen and organic carbon in nitrogenous organic wastewater, greatly shorten the reaction time, drop
Low reactor material consumption and cost.
Claims (5)
1. a kind of nitrogenous organic waste-water treating apparatus, which is characterized in that the material transport system including passing sequentially through pipe network connection
(1), heat-exchange system (2) and supercritical water oxidation system (3), the heat-exchange system (2) also connect cooling drop by pipe network
Pressure system (4), the material transport system (1) include waste liquid delivery line (101), the methanol delivery line being arranged successively
(102) and oxidant delivery line (103), three delivery lines connect heat-exchange system (2) by pipeline respectively.
2. a kind of nitrogenous organic waste-water treating apparatus according to claim 1, which is characterized in that the waste liquid delivery line
(101) include waste liquid storage tank (5), the outlet of the waste liquid storage tank (5) by pipeline connect high-pressure material pump (6) into
Mouthful, it is provided with flowmeter between the waste liquid storage tank (5) and high-pressure material pump (6), is provided on the high-pressure material pump (6)
Pressure gauge;
The methanol delivery line (102) includes methanol tank (7), and the outlet of the methanol tank (7) is connected high by pipeline
The import of methanol pump (8) is pressed, is provided with flowmeter, the high-pressure methanol between the methanol tank (7) and high-pressure methanol pump (8)
Pressure gauge is provided on pump (8);
Each flowmeter and each pressure gauge are provided with corresponding control valve;
The oxidant delivery line (103) includes liquid oxygen storage tank (9), and the liquid oxygen storage tank (9) connects high pressure liquid by pipeline
Oxygen pump (10) is provided with several control valves between the liquid oxygen storage tank (9) and High Pressure Liquid Oxygen Pump (10);
The high-pressure material pump (6), high-pressure methanol pump (8), High Pressure Liquid Oxygen Pump (10) connect the heat exchange by pipeline respectively
It unites (2).
3. a kind of nitrogenous organic waste-water treating apparatus according to claim 2, which is characterized in that the heat-exchange system (2)
Including waste liquid preheater I (11), the cold fluid outlet of the waste liquid preheater I (11) connects waste liquid preheater II by pipeline
(12) hot fluid outlet ports of cold fluid inlet, the waste liquid preheater II (12) pass through pipeline connection methanol preheater (13)
Hot fluid inlet, the hot fluid that the hot fluid outlet ports of the methanol preheater (13) pass through pipeline connection waste liquid preheater I (11)
Import, the hot fluid inlet that the hot fluid outlet ports of the waste liquid preheater I (11) pass through pipeline connection liquid oxygen preheater (14);
The cold fluid inlet of the waste liquid preheater I (11) is connect by pipeline with the outlet of high-pressure material pump (6), the methanol
The cold fluid inlet of preheater (13) is connect by pipeline with the outlet of high-pressure methanol pump (8), the liquid oxygen preheater (14)
Cold fluid inlet is connect by pipeline with the outlet of High Pressure Liquid Oxygen Pump (10), the High Pressure Liquid Oxygen Pump (10) and liquid oxygen preheater
(14) flow control valve is set between, and the flow control valve connects flowmeter;The liquid oxygen preheater (14) also passes through respectively
Pipeline connects supercritical water oxidation system (3) and cooling depressurizing system (4).
4. a kind of nitrogenous organic waste-water treating apparatus according to claim 3, which is characterized in that the supercritical water oxidation
Reaction system (3) includes tubular reactor (15), and tubular reactor (15) one end is provided with beginning import (26), other end setting
There are end outlet (27), is relatively set with methanol import I (28) at its 1/5 length along tubular reactor (15) length direction
With oxygen inlet I (30), methanol import II (29) and oxygen inlet II (31) are relatively set at its 2/5 length;Tubular type is anti-
It answers and is provided with metallic resistance in device (15) outside wall surface, connect power supply (17) by conducting wire (16) on tubular reactor (15) outer wall,
The power supply (17) is for the metallic resistance on heated Tube reactor (15);
Hot fluid inlet of the end outlet (27) by pipeline connection waste liquid preheater II (12), the end outlet (27)
Temperature measuring set and flowmeter, the cold flow of the waste liquid preheater II (12) are disposed between waste liquid preheater II (12)
Body outlet connects the beginning import (26) by pipeline;
The cold fluid outlet of the methanol preheater (13) connects beginning import (26), methanol import I (28) by pipeline respectively
With methanol import II (29), methanol flow regulating valve I is provided between the methanol preheater (13) and beginning import (26)
(20), methanol flow regulating valve II (21) is provided between the methanol preheater (13) and methanol import II (29);Methanol stream
Adjustable valve I (20) and methanol flow regulating valve II (21) are respectively connected with flowmeter;
The liquid oxygen preheater (14) connects oxygen collector (22) by pipeline, and the liquid oxygen preheater (14) and oxygen are collected
Device is provided with temperature measuring set between (22);The oxygen collector (22) connects beginning import (26), oxygen by pipeline respectively
Gas import I (30) and oxygen inlet II (31) are provided with oxygen stream between the oxygen collector (22) and beginning import (26)
Adjustable valve I (23) is provided with oxygen flow rate adjusting valve II between the oxygen collector (22) and oxygen inlet I (30)
(24), oxygen flow rate adjusting valve III (25), the oxygen are provided between the oxygen collector (22) and oxygen inlet II (31)
Air-flow adjustable valve I (23), oxygen flow rate adjusting valve II (24) and oxygen flow rate adjusting valve III (25) are respectively connected with flowmeter.
5. a kind of nitrogenous organic waste-water treating apparatus according to claim 3, which is characterized in that the cooling depressurizing system
It (4) include heat collector (18), the hot fluid outlet ports of the heat collector (18) connect the import of counterbalance valve (19) by pipeline, described
The hot fluid inlet of heat collector (18) is connected by pipeline with the hot fluid outlet ports of the liquid oxygen preheater (14).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820517661.5U CN208394865U (en) | 2018-04-12 | 2018-04-12 | A kind of nitrogenous organic waste-water treating apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820517661.5U CN208394865U (en) | 2018-04-12 | 2018-04-12 | A kind of nitrogenous organic waste-water treating apparatus |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208394865U true CN208394865U (en) | 2019-01-18 |
Family
ID=65065065
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820517661.5U Expired - Fee Related CN208394865U (en) | 2018-04-12 | 2018-04-12 | A kind of nitrogenous organic waste-water treating apparatus |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208394865U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111623896A (en) * | 2020-05-24 | 2020-09-04 | 西安交通大学 | Supercritical water on-line flow testing device |
CN114835238A (en) * | 2022-04-29 | 2022-08-02 | 西安交通大学 | Supercritical water oxidation treatment system and method for organic wastewater |
-
2018
- 2018-04-12 CN CN201820517661.5U patent/CN208394865U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111623896A (en) * | 2020-05-24 | 2020-09-04 | 西安交通大学 | Supercritical water on-line flow testing device |
CN111623896B (en) * | 2020-05-24 | 2021-11-16 | 西安交通大学 | Supercritical water on-line flow testing device |
CN114835238A (en) * | 2022-04-29 | 2022-08-02 | 西安交通大学 | Supercritical water oxidation treatment system and method for organic wastewater |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN108622993A (en) | A kind of Supercritical water oxidation treatment device of nitrogenous organic wastewater | |
CN105254146B (en) | The supercritical water oxidation treatment system and technique of printing and dyeing sludge | |
CA2602239A1 (en) | Fuel cell heating device and method for operating said fuel cell heating device | |
CN208394865U (en) | A kind of nitrogenous organic waste-water treating apparatus | |
WO2012151795A1 (en) | Supercritical water oxidation reaction system using auxiliary fuel to supply energy | |
CN106348421A (en) | Continuous wet oxidation process for degrading high concentration organic waste water and equipment thereof | |
CN110803753B (en) | Starting system and method based on supercritical water oxidation technology | |
CN108911107A (en) | A kind of organic wastewater Supercritical water oxidation treatment device and method | |
CN107500462B (en) | Supercritical water oxidation system and starting method thereof | |
CN109305722B (en) | Supercritical water oxidation system for graded oxygen injection and wastewater and/or sludge treatment method based on system | |
WO2012051875A1 (en) | Supercritical water treatment system for organic waste water with high salt content | |
CN109320014B (en) | Nitrogen-containing organic matter staged treatment system and method based on supercritical water oxidation reaction | |
US20230348306A1 (en) | Process for the supercritical oxidation of sewage sludge and other waste streams | |
JP2022519136A (en) | PMIDA high salt wastewater treatment system and method | |
CN105601017A (en) | Near zero emission treatment system and method for high-concentration organic wastewater and sludge | |
CN206334638U (en) | Supercritical water reaction system | |
CN205500882U (en) | System for overheated nearly critical water oxidation uns -dimethylhydrazine waste liquid | |
CN102502943B (en) | Heat accumulating type burning supercritical water gasification and oxidation device | |
CN107973500B (en) | Device and method for mixed hydrolysis treatment of excess sludge | |
CN109851187B (en) | Sludge supercritical water oxidation system with heat transfer oil as heat exchange medium and sludge treatment method | |
CN216236226U (en) | Novel supercritical oxidation equipment | |
CN205442756U (en) | Indirect heat exchange type supercritical water oxidation system of organic waste liquid and mud | |
CN116045266A (en) | Energy-saving system and method for comprehensive utilization of waste heat of autoclave and boiler | |
CN208617454U (en) | A kind of supercritical water oxidation device | |
CN107585957B (en) | Method and device for treating high ammonia nitrogen wastewater based on combination of catalytic oxidation and biotechnology |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190118 Termination date: 20210412 |
|
CF01 | Termination of patent right due to non-payment of annual fee |