CN106433770B - It is a kind of for handle be derived from rubbish bio oil antigravity system - Google Patents
It is a kind of for handle be derived from rubbish bio oil antigravity system Download PDFInfo
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- CN106433770B CN106433770B CN201611023693.1A CN201611023693A CN106433770B CN 106433770 B CN106433770 B CN 106433770B CN 201611023693 A CN201611023693 A CN 201611023693A CN 106433770 B CN106433770 B CN 106433770B
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10G—CRACKING HYDROCARBON OILS; PRODUCTION OF LIQUID HYDROCARBON MIXTURES, e.g. BY DESTRUCTIVE HYDROGENATION, OLIGOMERISATION, POLYMERISATION; RECOVERY OF HYDROCARBON OILS FROM OIL-SHALE, OIL-SAND, OR GASES; REFINING MIXTURES MAINLY CONSISTING OF HYDROCARBONS; REFORMING OF NAPHTHA; MINERAL WAXES
- C10G65/00—Treatment of hydrocarbon oils by two or more hydrotreatment processes only
- C10G65/02—Treatment of hydrocarbon oils by two or more hydrotreatment processes only plural serial stages only
- C10G65/04—Treatment of hydrocarbon oils by two or more hydrotreatment processes only plural serial stages only including only refining steps
-
- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10G—CRACKING HYDROCARBON OILS; PRODUCTION OF LIQUID HYDROCARBON MIXTURES, e.g. BY DESTRUCTIVE HYDROGENATION, OLIGOMERISATION, POLYMERISATION; RECOVERY OF HYDROCARBON OILS FROM OIL-SHALE, OIL-SAND, OR GASES; REFINING MIXTURES MAINLY CONSISTING OF HYDROCARBONS; REFORMING OF NAPHTHA; MINERAL WAXES
- C10G2300/00—Aspects relating to hydrocarbon processing covered by groups C10G1/00 - C10G99/00
- C10G2300/20—Characteristics of the feedstock or the products
- C10G2300/201—Impurities
- C10G2300/202—Heteroatoms content, i.e. S, N, O, P
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10G—CRACKING HYDROCARBON OILS; PRODUCTION OF LIQUID HYDROCARBON MIXTURES, e.g. BY DESTRUCTIVE HYDROGENATION, OLIGOMERISATION, POLYMERISATION; RECOVERY OF HYDROCARBON OILS FROM OIL-SHALE, OIL-SAND, OR GASES; REFINING MIXTURES MAINLY CONSISTING OF HYDROCARBONS; REFORMING OF NAPHTHA; MINERAL WAXES
- C10G2300/00—Aspects relating to hydrocarbon processing covered by groups C10G1/00 - C10G99/00
- C10G2300/70—Catalyst aspects
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- Oil, Petroleum & Natural Gas (AREA)
- Engineering & Computer Science (AREA)
- Chemical Kinetics & Catalysis (AREA)
- General Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- Production Of Liquid Hydrocarbon Mixture For Refining Petroleum (AREA)
- Processing Of Solid Wastes (AREA)
Abstract
For handling the antigravity system for being derived from the bio oil of rubbish, the system includes concatenated two hydrogenation catalyst beds the present invention provides a kind of, and the catalyst filled in described two hydrogenation catalyst beds is different.The antigravity system effectively can carry out upgrading to high temperature garbage retort gas.
Description
Technical field
The invention belongs to hydrogen addition technology fields, and in particular to a kind of for handling the catalyst for being derived from the bio oil of rubbish
System.
Background technique
China's domestic waste is rapidly increased with the speed for being more than 10% every year, if cannot be appropriate to these rubbish
Processing and disposition, that poisonous and harmful substance (heavy metal, pathogenic microorganism etc.) therein will be by certain surrounding medium such as
Soil, atmosphere, earth's surface or underground water enter in the ecosystem and form pollution.This can not only destroy ecological environment, and causing can not
Inverse Ecological Changes, but also can cause damages to the health of animals and plants safety and the mankind.
Garbage disposal at present can only reduce waste volumes by burning disposal.It is each that burning disposal method can generate dioxin etc.
The environmentally hazardous polluter of kind, safe garbage incineration equipment price is high, scale of investment is big, and burning disposal can only pass through
Handling is used to maintain to run, and resin, Plastic account for 10% or so in conventional rubbish, and remaining is exactly kitchen, paper, wood chip etc..
It is attracted attention by rubbish production bio oil.But bio-oil simultaneously have large viscosity, acid value height, high oxygen content,
The disadvantages such as calorific value is low, thus seriously limit its big application range, it is necessary to the promotion of quality is carried out to it by modified mode.
Currently, there are many method that bio-oil is modified, it mainly include catalytic hydrogenation, catalytic pyrolysis, catalytic esterification, rectifying, vapor weight
Whole etc., wherein catalytic hydrogenation is counted as a kind of both economical effective means, because it can significantly improve hydrogen therein
Content, to improve the calorific value of bio-oil.
CN104722329A discloses the catalyst that a kind of bio-oil catalytic hydrogenation prepares alkane, with content be 10%~
50% base metal nickel metal salt, molybdenum salt, cobalt metal salt, tungsten metal salt are as active component, modified molecular screen/oxidation
Aluminium is as catalyst carrier;By catalyst carrier support content be one or both of 10%~50% molybdenum, nickel, cobalt, tungsten with
Upper mixing obtains bio-oil Hydrobon catalyst presoma;The presoma is activated into 2- under 300-600 DEG C of hydrogen atmosphere
6h obtains the catalyst that bio-oil catalytic hydrogenation prepares alkane.
CN105854872A discloses a kind of catalyst and preparation method thereof for biological oil hydrodeoxygenation, preparation method
Are as follows: take the catalyst carrier for being impregnated with active component by roasting, make its adsorb oxygen-containing inorganic acid, and through high temperature drying at
Reason carries out vulcanizing treatment later to get product;Wherein, the active component mainly by one of VB race metal or it is a variety of with
One of VIIB race metal or a variety of compositions.
CN105413723A discloses a kind of preparation method of Ni-based biological oil hydrodeoxygenation catalyst of non-loading type, belongs to
Catalyst synthesis technology field.Firstly, by surfactant, urea and soluble nickel salt, soluble microcosmic salt or (and) it is soluble
Tungsten salt is dissolved with water respectively, then filtered filter residue is used water and nothing by 2~16h of crystallization under the conditions of 100~300 DEG C respectively
Non-loading type nickel-base catalyst and bio oil are finally put by water-ethanol washing up to non-loading type nickel-base catalyst after drying
In batch reactor, hydrogenation deoxidation is carried out under the conditions of 2~4MPa of Hydrogen Vapor Pressure, 100~250 DEG C of temperature and reacts 1~10h, is obtained
To biological oil hydrodeoxygenation product.
CN102606236A discloses a kind of garbage disposal waste heat power generation system with internal steam pipe, includes refuse gasification
Furnace and steamer steam electric power generator, wherein steamer steam electric power generator include steam generator, vapour-discharge tube, steamdrum,
Steam turbine and generator, steamdrum, steam turbine and generator are sequentially connected, it is characterised in that: the steam generator is located at rubbish
In rubbish gasification furnace;Steam generator is the cylinder cage structure being made of upper ring pipe, multiple straight tubes and lower ring pipe, Mei Gezhi
The both ends of pipe are connected with upper ring pipe with lower ring pipe respectively;The upper ring pipe is connected to one end of vapour-discharge tube, is steamed
The other end of vapour discharge pipe is connected with steamdrum, is communicated with water inlet pipe on the lower ring pipe.
CN104976621A discloses a kind of domestic garbage pyrolysis gasification oven, furnace body ecto-entad include burn stove outer covering,
Fire brick layer burns furnace internal-lining;Bottom of furnace body is equipped with deslagging component, water-stop component;Upper of furnace body be equipped with air inlet, can
Gas outlet;Bottom of furnace body is equipped with vapor import;Steam outlet is equipped at the top of furnace body;In fire brick layer and burn furnace internal-lining
Between be equipped with a hollow sandwich;The interlayer bottom is connected to bottom in furnace body, the interlayer top and combustible gas outlet;The folder
Air inlet channel is equipped in layer, which is connected to air inlet set by upper of furnace body, air into
The lower part in gas channel is connected to bottom in furnace body.
CN204325273U discloses a kind of using water vapour as the rubbish plasma gasification furnace of gasifying medium, including top
Refuse gasification room and the high-temperature water vapor of lower part room occurs, refuse gasification room and high-temperature water vapor occur between being provided between room
Every the water cooling chimney arch of arrangement, refuse gasification room room with high-temperature water vapor and separates by water cooling chimney arch occurs;The high-temperature water vapor hair
The inner wall of raw room circumferentially two plasma torch, the working gas using low temperature water vapour as plasma torch.
CN102746903A discloses that a kind of to be divided into multiple standard destructive distillation to handle house refuse destructive distillation-gasification furnace single
Member is combined into large-scale house refuse destructive distillation-gasification furnace according to the needs of different disposal ability, and standard destructive distillation processing unit is
The retort section and dryer section of rubbish is arranged in cube furnace body, top, is under anaerobic state first using rubbish rubbish destructive distillation, is divided
Dry distillation gas and carbide residue are solved, carbide burns in lower section burning zone generates high temperature, gasifies with water vapour and air work
Agent, the CO that the carbide under the reduction zone condition of high temperature generates burning2And aqueous vapour reducing, gasification gas is generated, is not just generated
Dioxin;The gasification gas of high temperature, rubbish heating, the destructive distillation of rubbish retort section, continues to rise dry during rising
The rubbish of section adds drying, and the organic matter in rubbish is changed into clean gas, collects dry distillation gas and gasification gas is utilized,
It realizes without dioxin, non-exhaust emission.
WO2011/000513A1 discloses a kind of comprehensive waste treatment system and method comprising combustiblerefuse source makes
With for separating the separator of the combustiblerefuse from recyclable material, for the combustiblerefuse is dry to produce
Give birth to the vacuum desiccator of pyrolysis feed and the heat for the pyrolysis feed pyrolytic to be generated to coke and pyrolysis gas
Solve device.
GB2006/002409A discloses a kind of method for handling rubbish, which comprises (i) (a) gasification step
Suddenly, the gasification step is included in the presence of oxygen and steam handles the rubbish in gasification unit, to generate exhaust gas and charcoal, or
Person (b) pyrolysis step, the pyrolysis step, which is included in pyrolysis unit, handles the rubbish, to generate exhaust gas and charcoal;(ii)
Plasma treatment step, the plasma treatment step include in the presence of oxygen and optionally in the presence of steam wait from
Corona treatment is carried out to the exhaust gas and charcoal in daughter processing unit.
" Fast Pyrolysis of Biomass for Producing Bio-oil ", Zhu Xifeng etc., scientific and technological Leader, 2007,25 (21): 69-75 passes through member
Element analysis and modified oil structural analysis can hold the effect of catalytic hydrogenation on the whole, while in research biomass crude oil
One-component is in MoS2Catalytic condition under, hydrogenation deoxidation reaction occurs and provides good theoretical direction to improve biomass original
Oil yield.
" the recycling treatment mode of simple analysis domestic waste ", Zhang Bei, Chinese municipal works, in June, 2013, the 3rd phase
(total 166th phase), 53-55, describe domestic waste processing from traditional landfill, burning and biochemical treatment mode by
Step transits to circular economy and recycling treatment, and describes the closed low-temperature treatment of house refuse and organic matter fixed-end forces
The project construction of factory, it is indicated that house refuse closed circulation cryogenic technique is a kind of heat chemistry processing side of solid biomass
Method, the technique generate high heating value fuel gas, and the technical resource degree is higher, and part landfill leachate, shower water are by life
It can also qualified discharge after change processing.
However, above-mentioned document and it is other in the prior art, lack effectively to high temperature garbage distillation generate bio oil into
The antigravity system of row direct hydrogenation processing, the bio oil that high temperature garbage distillation obtains have differences with general bio-oil,
Such as there are great differences for component, simply cannot indiscriminately imitate or exchange in technique.
Summary of the invention
To solve the above problems, the present inventor by deeply and system research, sufficiently combine domestic waste high temperature steam
The composition for evaporating the bio oil of generation has carried out comprehensive research in the full-flow process link of entire garbage disposal, has provided following
The bio oil is effectively added hydrogen upgrading by technical solution.
In one aspect of the invention, provide it is a kind of for handle be derived from rubbish bio oil antigravity system, should
System includes concatenated two hydrogenation catalyst beds, and the catalyst filled in described two hydrogenation catalyst beds is different.
The processing is hydrotreating, and preferably hydrogenation deoxidation is handled.
Preferably, the bio oil is handled with wrapping steam-laden high temperature distillation gas form.That is, in hydrotreating
It does not need to separate bio oil with vapor before, directly to carry out comprising the high temperature distillation gas form of bio oil and vapor
Hydrotreating.
The bio oil is distilled processing by high temperature garbage and is generated.
The rubbish is preferably domestic waste.More preferably it is rich in the domestic waste of organic matter.
In a preferred embodiment, described two hydrogenation catalyst beds are respectively upstream hydrogenation catalyst bed and downstream
Hydrogenation catalyst bed is provided with transition bed among the upstream hydrogenation catalyst bed and downstream hydrogenation catalyst bed.
The study found that when using two or more catalyst, due to catalyst activity difference, be easy bed it
Between certain region formed localized hyperthermia, i.e., usually said hot spot, after there is hot spot, coke laydown relative increase, so that liquid flow
Rate is low, to improve conversion ratio, and then keeps coke laydown on catalyst more serious, using transition bed, can effectively inhibit
Hot spot is emerged.
Catalyst in the transition bed may include: with the same or similar catalyst of upstream hydrogenation catalyst bed and under
Swim the mixture of the same or similar catalyst of hydrogenation catalyst bed;Or it can be by same or like with upstream hydrogenation catalyst bed
Catalyst and formed with the mixture of the same or similar catalyst of downstream hydrogenation catalyst bed.The two volume ratio can be
70:30-60:40.That is, and the same or similar catalyst of upstream hydrogenation catalyst bed and it is identical as downstream hydrogenation catalyst bed or
The volume ratio of similar catalyst can be 70:30-60:40.
It include two catalyst layers in the transition bed in a preferred embodiment, i.e. the positioned at upstream
One layer and the second layer positioned at downstream, in first layer, with the same or similar catalyst of upstream hydrogenation catalyst bed and under
The volume ratio for swimming the same or similar catalyst of hydrogenation catalyst bed can be 80:20-70:30;In the second layer, with upstream plus
The same or similar catalyst of hydrogen catalyst bed and can with the volume ratio of the same or similar catalyst of downstream hydrogenation catalyst bed
Think 50:50-40:60.
Preferably, in the catalyst in the transition bed, except comprising with upstream hydrogenation catalyst bed is same or similar urges
Agent and with outside the same or similar catalyst of downstream hydrogenation catalyst bed, also include high temperature resistant abnormity filler.
It is highly preferred that the active component of the high temperature resistant abnormity filler is NiO-MoO3。
In another aspect of this invention, it improves and a kind of is carried out bio oil plus hydrogen upgrading using aforementioned catalytic agent system
Method.
Preferably, the bio oil carries out adding hydrogen upgrading processing to wrap steam-laden high temperature distillation gas form.
Catalyst in the hydrogenation catalyst bed can be independently from each other: inorganic oxide or the iron of silicate load
Base catalyst or the ferrum-based catalyst of charcoal load;The nickel-base catalyst or charcoal load of inorganic oxide or silicate load
Nickel-base catalyst or its any mixture.
The hydrogenation catalyst system is two-part hydrogenation system, including concatenated two hydrogenation catalyst beds, i.e., first
Catalyst bed and the second catalyst bed, wherein the first catalyst bed is located at the upstream of the second catalyst bed.
The present inventor it has been investigated that, the catalyst of the catalyst of the first catalyst bed and the second catalyst bed is in grade formula
Face is very crucial, while the gradation that the two adds hydrogen to adjust is also very crucial.Catalyst grade of the invention can not only have with mode
Bio oil is carried out hydrogenation deoxidation upgrading by effect ground, and can be to avoid the generation of hot spot.First catalyst bed can be by bio oil
In acids, aldehydes, ketone, esters, alcohols, phenolic substances hydrogenation deoxidation is effectively performed, the second catalyst bed can be by life
Furans, ethers and nitrogenous compound in object oil carry out cracking and adding hydrogen.
In a particularly preferred embodiment of the invention, the present inventor passes through numerous studies, develops a kind of energy
Enough effectively to the catalyst for carrying out adding hydrogen upgrading from the bio oil in the gas stream that high temperature distillation device top is taken out, this is urged
Agent is used for the first catalyst bed, the active constituent it includes carrier with load on the carrier, and wherein carrier can be
Al2O3、SiO2、TiO2, molecular sieve, one of active carbon or a variety of mixtures, catalytic active component can be Fe2O3With extremely
The mixture of few two kinds of transition metal and at least one noble metal.The transition metal is selected from Ni, Cu, Fe, Ce etc., described expensive
Metal is selected from Pt, Pd, Ru etc..
In an especially preferred embodiment, the catalyst of the first catalyst bed can be catalysis shown in following formula
Agent: Ni-Cu-Pd-Co2O3-Fe2O3/ HZSM-5, wherein the molar ratio of Ni, Cu, Pd, Co, Fe are (1-2): (5-10): (0.1-
0.5): (1-2): (10-20) is based on overall catalyst weight meter, Ni-Cu-Pd-Co2O3-Fe2O3The content of active constituent is 1-
10%, preferably 2-8%, more preferable 5%.HZSM-5 is carrier.Preferably, HZSM-5 is the HZSM-5 of low silica-alumina ratio, such as silicon
Aluminium ratio is lower than 15, more preferably less than 10, this is because the acid strong HZSM-5 of discovery is more advantageous to splitting for bio oil heavy component
Solution, bio oil bottoms are minimum.
The ingredient of bio oil is usually relatively complex, and mainly may include acids, aldehydes, ketone, alcohols, phenols, furans, ester
Class, ethers and a small amount of nitrogenous compound and other multi-functional compounds.Since bio oil thermal stability is poor, acid and corrosivity
By force, the characteristics such as water content is high, calorific value is low and is not easy to dissolve each other with petroleum-based products, therefore bio oil can only realize that primary is answered at present
With for example for heat power equipments such as Industrial Stoves and oil burning boilers, oil product cannot being substituted and directly apply to internal combustion engine or turbine
The burning of machine is unable to satisfy modern high-grade industrial application.In order to improve bio oil application, need to be transformed into Gao Pin
The liquid fuel of position, reaches the requirement of transport fuel, to realize substitution or part substitution oil product, this just must be to biology
Oil is modified upgrading, its chemical constituent is made to be converted into hydrocarbon by hydrocarbon oxygen compound.How effectively to bio oil
One of the key for carrying out upgrading is the exploitation of catalyst.
The study found that in above-mentioned catalyst of the invention, Niδ+Than conventional Moδ+With higher activity, Ni's makes
With that can obtain with high selectivity C6-C12 hydrocarbon (preferably alkane), the use of Cu can obtain C16 hydrocarbon (preferably alkane with high selectivity
Hydrocarbon), Ni, Cu while, uses, it has surprisingly been found that surface Ni, Cu's makes it may also be ensured that obtaining a certain amount of C18 and C19 hydrocarbon
With can make the C-O key in bio oil that hydrogenolysis effectively occur.
It is different from general improving quality of biomass oil, in gas stream of the invention, the steam containing higher proportion, therefore
Very high request is proposed to the hydrothermal stability of catalyst.The conventional catalyst for improving quality of biomass oil cannot be used for this
The upgrading of the gas stream of invention.Iron catalyst is a kind of common catalyst for removing oxygen in plant base material, however iron is catalyzed
Agent is failed when meeting water, although and palladium catalyst when meeting water effectively, the effect of its deoxygenation be not very well, and costly, and
Minimal amount of palladium is added in iron, can get synergistic effect well.Inventor is the study found that the addition of a small amount of palladium facilitates hydrogen
Be covered in the surface of iron in catalyst, accelerate reaction, and prevent water blocking from reacting, thus hydrogen consumption is small, activity, stability and
For selectivity aspect far better than individual iron catalyst, 2 times or more is can be improved in catalytic life.
The present inventor also found that the addition of Co advantageously reduces the crystallite dimension of catalytic active component, can through research
Enough be effectively embedding in the duct of HZSM-5 molecular sieve, this for improve catalytic active component activity, selectivity and stabilization
Property has very positive meaning.However, Co can cover hydrogenation sites Ni, Cu etc. if Co amount is excessive, urged to reduce
The activity of agent.
Contain more non-aromatic hydro carbons in the bio oil of gas stream, the acid centre on HZSM-5 molecular sieve can
It is effectively aromatic compound by the non-aromatic hydrocarbon conversion.Carboxylic acid in bio oil largely derives from the acetyl of hemicellulose
Base, thermal decomposition product are mainly acetic acid, and HZSM-5 molecular sieve has preferable decarboxylation ability, and the carboxylic acid in bio oil is in molecular sieve
Decarboxylic reaction and deoxygenation occur under catalytic action, so that carboxylic acid content is greatly decreased in the bio oil after upgrading.
There is not been reported in prior document for above-mentioned particularly a preferred catalyst, is that the present invention is directed to from garbage reclamation
What the concrete composition feature of gas stream and bio oil targetedly designed, achieve good upgrading effect.
The catalyst can be prepared using the dipping calcination method of this field routine.Specifically, it weighs according to the above ratio
A certain amount of precursor salt such as Ni (NO3)2、Cu(NO3)2、Pd(NO3)2、Co(NO3)2、Fe(NO3)3(or their hydrate form)
And citric acid, add deionized water dissolving, stir evenly, is made into the solution that concentration is 0.5-1.5mol/L, weighs a certain amount of
HZSM-5 molecular sieve is put into reaction vessel, and the solution prepared is poured into reaction vessel, is placed in the constant temperature with blender and is added
Heating, stirs 1h-10h at a temperature of 60-120 DEG C, is then placed in 100 DEG C of -150 DEG C of dryings in drying box in hot oil bath apparatus
Obtained catalyst precursor is then placed in 500 DEG C of -800 DEG C of calcining 1h-6h in Muffle furnace, then in H by 12h2In the presence of in
Ni-Cu-Pd-Co is made in reduction activation at 200-300 DEG C2O3-Fe2O3/ HZSM-5 catalyst.
First catalyst bed adds hydrogen upgrading condition preferred are as follows: and 200-300 DEG C, 1.0-10.0MPa hydrogen pressure, 1-5h;It is more excellent
It is selected as: 250 DEG C, 8.0MPa hydrogen pressure, 2h.
For the present invention, the catalyst of the second catalyst bed is preferably the NiMo/ β zeolite vulcanized.
Preferably, the β zeolite is β zeolite modified, is modified by following method of modifying: by β zeolite
It is placed in the mixed aqueous solution of HCl and EDTA, wherein HCl concentration is 1.0-3.0M, and EDTA concentration is 0.01-0.5M, in 50-80
1-3h is stirred under DEG C (preferably 70 DEG C), is then washed with deionized, dries, the β zeolite after drying is placed in oxalic acid and (NH4)2SiF6Mixed aqueous solution in, wherein the concentration of citric acid be 0.1-0.3M, (NH4)2SiF6Concentration be 0.1-0.5M, in 30-
2-4h is stirred at 50 DEG C, is then washed with deionized, is dried.
Modified β Zeolite be 30.0-60.0, preferably from about 50.0.
The crystallinity of β zeolite before modification after reservation degree (i.e. crystal retention) be 90%-95%.
The study found that the hydrothermal stability for improving β zeolite is the key that improve its activity stability, the silicon of molecular sieve is improved
Aluminium ratio is to improve the effective measures of its hydrothermal stability to molecular sieve progress aluminium-eliminating and silicon-replenishing, it is possible to reduce skeleton hydroxyl hole makes
The crystal structure of molecular sieve keeps complete, thus the structural stability of zeolite is more preferable.
Second catalyst bed adds hydrogen upgrading condition preferred are as follows: and 150-300 DEG C, 1.0-6.0MPa hydrogen pressure, 2-6h;More preferably
Are as follows: 200 DEG C, 5.0MPa hydrogen pressure, 3h.
For the present invention, the gas stream is preferably substantially free of dioxin.Because of the distillation that heats up under anaerobic state, institute
The harmful substances such as dioxin will not be generated, atmospheric environment can protect.This has very big excellent compared to common incineration method
Gesture.
Preferably, wherein high temperature anaerobic steam used in high temperature distillation device comes from high pressure through-flow steam oven.
The bio oil is obtained by composting high temperature distillation processing method, method includes the following steps: (1) is by rubbish
Rubbish is packed into rubbish feeding device;(2) rubbish feeding device is made to pass through high temperature distillation device;(3) it is taken from high temperature distillation device top
Gas stream out, the gas stream are the high temperature garbage retort gas for including the bio oil and vapor.
Charcoal substance is obtained from the rubbish feeding device for passing through high temperature distillation device.
Will comprising the gas stream of the bio oil by two-part hydrogenation system, thus by bio oil contained therein into
Row plus hydrogen upgrading.
In high temperature distillation processing, the rubbish is preferably domestic waste.
Gas stream is taken out preferably in a continuous manner from high temperature distillation device top.
High temperature distillation device is heated by high temperature anaerobic steam.
The temperature of the high temperature anaerobic steam is preferably 300-600 DEG C.The pressure of the high temperature anaerobic steam is preferably
0.2-1.0MPa。
Preferably, wherein including nitrogen in the high temperature anaerobic steam.It is highly preferred that nitrogen content is 10-80v.%, more
It is preferred that 20-60v.%.
In the present invention, it is preferred to rubbish without any pretreatment.
For the present invention, compared with simple destructive distillation in the prior art, the presence of nitrogen can be avoided rubbish and be carbonized
It burns in the process, makes the charcoal calorific value with higher generated.In addition, compared with steam gasification pure in the prior art,
The presence of nitrogen can also increase heat medium calorific value, improve heating efficiency to improve distillation charing (i.e. hydro-thermal charing) effect
Rate, while steam consumption can also be saved, it can be the catalysis upgrading of subsequent distillate by the addition of nitrogen more importantly
Catalytic condition needed for providing, such as required vapor partial pressure is adjusted, it is difficult to because excessively high vapour pressure will lead to catalysis upgrading
It effectively carries out, the addition of nitrogen can reduce the vapor partial pressure in gas stream i.e. distillate.
The inventors discovered that the composition often having ignored for rubbish has choosing in existing waste steam processing technique
Steaming conditions are selected to selecting property, the difference of rubbish composition is had ignored, causes garbage treatment efficiency lower.The present inventor passes through
Numerous studies select different steaming conditions according to different rubbish compositions, obtain good steam treatment effect.It is special
, following high temperature distillation treatment conditions are not selected: (1) when rubbish composition in the total weight of rubbish, organic species content
When >=80 weight %, the temperature of high temperature anaerobic steam is 300-450 DEG C, preferably 300-400 DEG C;Nitrogen in high temperature anaerobic steam
Content is 10-30v.%, preferably 10-20v.%;Residence time in high temperature distillation device is 8-12h;(2) when rubbish group
With the total weight of rubbish in, when organic species content 80 weight % of <, the temperature of high temperature anaerobic steam is 450 DEG C -600
DEG C, preferably 500 DEG C -550 DEG C;Nitrogen content in high temperature anaerobic steam is 40-80v.%, preferably 60-80v.%;It is steamed in high temperature
Residence time in distillation unit is 5-8h.
The study found that select such high temperature distillation condition, during high temperature distillation that be due to plastic, rubber substance be
One of source of bio oil, the ingredients such as the rubbish from cooking that compares and wood grass are very sensitive to steam distillation condition, when it contains
When measuring high, need to make its decomposition using higher temperature and water vapour, but distillation time again cannot be too long, is otherwise easy to make
The bio oil of generation resolves into micro-molecular gas, causes biological oil yield to reduce, and generate harmful side product.
When organic species content is higher in rubbish, above-mentioned steaming conditions are particularly conducive to generate liquid combustible object
Generation;And organic species content it is lower when, be particularly conducive to the generation of charcoal substance.
The bio oil through upgrading obtained by the method for the invention is liquid combustible object, that is, meets Biodiesel Standards for example
The high-quality bio oil of national standard GB.Preferably, oxygen content is lower than 10 weight % in the liquid combustible object through upgrading, preferably shorter than
5 weight %, more preferably less than 2 weight %.Further, the higher calorific value of the liquid combustible object is greater than 50MJ/kg, more preferably big
In 60MJ/kg, further preferably greater than 65MJ/kg.
Detailed description of the invention
Fig. 1 is the top view of high temperature distillation device according to the present invention;
Fig. 2 is the SEM figure of the first hydrogenation catalyst bed made from according to embodiments of the present invention 1.
Specific embodiment
Below with reference to following embodiment and comparative example, the present invention is described in further detail, but embodiment party of the invention
Formula is without being limited thereto.
Embodiment 1
The house refuse that garbage compression transfer station is occupied from five tunnel of Haidian District, Beijing City is chosen, the composition of the rubbish is through examining
It surveys as shown in table 1 below:
Table 1: domestic waste is at being grouped as
High temperature distillation is carried out to above-mentioned rubbish by following steps: (1) rubbish being packed into rubbish feeding device;(2) make rubbish
Rubbish feeding device passes through high temperature distillation device;(3) gas stream is taken out from high temperature distillation device top.The high temperature distillation device
It is heated by high temperature anaerobic steam, the temperature of high temperature anaerobic steam is 355 DEG C, and nitrogen content in high temperature anaerobic steam is
12v.%, processing average time are 9.0 hours.
Gas stream carries out hydrogenation deoxidation upgrading using two-part hydrogenation system, wherein gas stream is made to pass sequentially through series connection
The first hydrogenation catalyst bed and the second hydrogenation catalyst bed.Upgrading catalyst used in first catalyst bed is Ni-Cu-Pd-
Co2O3-Fe2O3/ HZSM-5, wherein the molar ratio of Ni, Cu, Pd, Co, Fe are 2:8:0.15:1.5:15, are based on overall catalyst weight
Meter, Ni-Cu-Pd-Co2O3-Fe2O3The content of catalytic active component is 5%, and adding hydrogen upgrading condition is 250 DEG C, 5.0MPa hydrogen
Pressure, 2h.Upgrading catalyst used in second catalyst bed is NiMo/ β zeolite (referring to conventional zeolite beta supported catalyst agent method system
), the second catalyst bed adds hydrogen upgrading condition are as follows: and 200 DEG C, 30MPa hydrogen pressure, 2h.It is obtained by this method through upgrading
Bio oil, that is, combustible organic, the combustible organic are in a liquid state at normal temperature.
Oxygen content in bio oil through upgrading is 1.8wt.%, and catalyst life used in the first catalyst bed is about
720h, catalyst life used in the second catalyst bed is about 560h.
Comparative example 1
The difference of the comparative example and embodiment 1, which is only that, uses single filling NiMo/ γ-Al2O3Catalyst bed (should
Catalyst is commercially available).Oxygen content in bio oil through upgrading is 9.9wt.%, catalyst life used in catalyst bed
It is about 320h.
By above-described embodiment and comparative example clearly it can be seen from method of the invention the bio oil of upgrading can be made to have
Significantly lower oxygen content, this shows to achieve preferable hydrogenation deoxidation upgrading effect, so that fuel be made to have higher calorific value
And stability, the catalyst life of this additional hydrogen upgrading also significantly improve.
This written description discloses the present invention, including optimal mode using example, and also enables those skilled in the art
The manufacture and use present invention.It is of the invention can patentable scope be defined by the claims, and may include this field skill
Other examples that art personnel expect.If this other examples have not different from the structural elements of the literal language of claims
Element, or if this other examples include the equivalent structure element with the literal language of claims without substantial differences,
Then this other examples are intended within the scope of claims.In the case where not will cause inconsistent degree, by reference to
It will be incorporated herein in place of all references referred to herein.
Claims (10)
1. a kind of for handling the antigravity system for being derived from the bio oil of rubbish, which includes concatenated two hydrogenation catalysts
Agent bed, i.e. the first catalyst bed and the second catalyst bed, wherein the first catalyst bed is located at the upstream of the second catalyst bed;
Catalyst in first catalyst bed is Ni-Cu-Pd-Co2O3-Fe2O3/ HZSM-5, wherein Ni, Cu, Pd, Co, Fe rub
You are based on the overall catalyst weight meter, Ni-Cu-Pd- than being (1-2): (5-10): (0.1-0.5): (1-2): (10-20)
Co2O3-Fe2O3The content of active constituent is 1-10%;
Catalyst in second catalyst bed is the NiMo/ β zeolite of vulcanization.
2. system according to claim 1, wherein in processes, the bio oil is to wrap steam-laden high temperature distillation gas
Body form is handled.
3. system according to claim 2 generates wherein the bio oil distills processing by high temperature garbage.
4. system according to claim 3, wherein the rubbish is domestic waste.
5. system according to claim 1 or 2, wherein described two hydrogenation catalyst beds are respectively upstream hydrogenation catalyst
Bed and downstream hydrogenation catalyst bed are provided with transition bed among the upstream hydrogenation catalyst bed and downstream hydrogenation catalyst bed.
6. antigravity system according to claim 5, wherein the catalyst in transition bed includes and upstream hydrogenation catalyst bed phase
The mixture of same catalyst and catalyst identical with downstream hydrogenation catalyst bed, the two volume ratio are 30:70-40:60.
7. antigravity system according to claim 6, wherein in catalyst in the transition bed, except comprising adding hydrogen to urge with upstream
It also include high temperature resistant abnormity filler outside the identical catalyst of agent bed and catalyst identical with downstream hydrogenation catalyst bed.
8. system according to claim 7, wherein the active component of the high temperature resistant abnormity filler is NiO-MoO3。
9. a kind of method for carrying out bio oil to add hydrogen upgrading using system described in any one of preceding claims.
10. according to the method described in claim 9, wherein the bio oil with wrap steam-laden high temperature distillation gas form into
Row plus hydrogen upgrading processing.
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Effective date of registration: 20191216 Address after: 100176 Beijing City three Chaoyang District Xiaohongmen Township Taishan a No. Patentee after: Beijing Xinao Concrete Group Co.,Ltd. Address before: 100190, room 9, No. 1708 West Fourth Ring Road, Haidian District, Beijing Patentee before: New Austrian Ecological Environment Management Co., Ltd. |