CN102181486A - Method for promoting rapid preparation of methane from organic waste by utilizing exogenous hydrogen - Google Patents

Abstract

The invention relates to a method for promoting the rapid preparation of methane from organic waste by utilizing exogenous hydrogen. The method comprises the following steps of: mixing sludge and domestic garbage in a weight ratio of 1:(2-4), wherein the content of volatile substances (VS) in the mixture is 20 to 65 percent, and the water content is 18 to 68 percent; and performing anaerobic fermentation reaction on the mixture for a period of 7 to 14 days at the temperature of between 35 and 37 DEG C and at the pH value of between 6.5 and 7.5, and introducing exogenous pure hydrogen under the pressure of between 1.1 and 5.5MPa from the bottom of the mixture in the second day of each period, wherein the maximum daily output of the methane can reach 3.65L/kg.d when the introducing amount is 50 to 150mL H2/kg VS, and is 2.81 times the yield of the methane when the hydrogen is not added. The concentration of the methane can be improved from 33.2 percent to 75.5 percent. The cost is low, the method is easy to operate, the problem of environmental pollution of municipal refuse and greenhouse gas is solved, and the clean energy is also provided, so that the method has good social benefit and economic benefit. The method can be widely applied to the rapid preparation of the methane from the organic waste in middle and small-sized landfill sites.

Description

A kind of external source hydrogen that utilizes promotes the quick methanogenic method of organic waste

Technical field

The present invention relates to a kind of external source hydrogen that utilizes and promote the quick methanogenic method of organic waste, belong to reclamation of solid wastes and pollution prevention technique field.

Background technology

Along with sustained economic development and resident living level steadily improve, China's domestic waste year generation has reached 1.5 hundred million tons, and (a day generation is 0.9～1.2kg) per capita, and every year is with 8～10% speed increment.The domestic rubbish disposal mode in the most of city of China is still based on landfill, and rubbish can discharge a large amount of methane greenhouse gases in the landfill process, and content is up to 50～60%.At large-scale landfill yard, landfill gas can be collected by pipeline and special gas extractor, but for middle-size and small-size landfill yard, because the aerogenesis instability, gas gross is few, comprehensive utilization value is not high, the methane gas that produces generally all directly enters atmosphere, has not only increased the weight of Greenhouse effect, and the today that lacks for the energy nowadays, biogas is not utilized effectively, and is a kind of very big waste.Therefore, the biogas output that how to improve middle-size and small-size household refuse landfill sites makes its effective utilization, is the important directions of present biogas utilization research.

The generation of methane derives from the anaerobically fermenting of rubbish, and this process is divided into three phases: hydrolysis, and produce hydrogen and produce acetate and produce methane phase.In anaerobic fermentation process, it is rate-limiting step that general condition produces methane phase down, so methanogen is a predominant bacteria in organism of fermentation.Methane finally utilizes acetate or H by methanogen ₂/ CO ₂For main matrix (also having formic acid, methyl alcohol and methylamine) is transformed.Wherein, utilize H ₂/ CO ₂The methane content that generates accounts for 1/3 of total methane production, and is that the methane content that matrix (also can utilize methyl alcohol and methylamine) generates accounts for 2/3 of total methane production with acetate.Refuse landfill landfill gas productive rate variation range is very big, predicts that accurately the productive rate of landfill gas is difficult to accomplish.The landfill gas productive rate that laboratory simulation obtains is 0～488L/kg/yr, and that on-the-spot pilot scale records is 13～37.5L/kg/yr, is 1～14L/kg/yr (being dried rubbish) and actual landfill yard records.

The method that improves the methane fermentation process efficiency is a lot, generally adopts following method: 1) add inoculum such as active sludge, organic fertilizer etc.; 2) ratio of adjusting inoculum and substrate, higher inoculum density can obviously improve factor of created gase; 3) add sodium ion, metal ions such as calcium ion; 4) segmentation TPAD, and difference conditioned reaction parameter, as pH, temperature.5) biogas refluxes.With hydrolysis, souring stage produced contains more H ₂And CO ₂Biogas introduce the methanation stage, for methanobacteria to H ₂And CO ₂Chemosynthesis competent basic substance is provided, this is introduced into that I haven't seen you for ages increases by 30% methane content.6) temperature in raising methanation stage.Anaerobic process are higher to the requirement of temperature than aerobic processes usually, when the temperature of anaerobic process reaches 35 ℃ and 55 ℃ respectively, the metabolic function of anaerobe reaches first peak value and second peak value respectively, can suitably the temperature in methanation stage be brought up to 35 ℃ or 55 ℃ thus, this had both helped the growth and breeding of methanobacteria, improve the growing amount of methane, help established methane again and from reactor, parse in time.

Though the method for the raising methane production of having reported at present is a lot, have following problem: 1, facilitation effect is not obvious, and some additives only can increase the methane about 5-10% owing to running off or can't being evenly distributed; 2, complicated operation, wayward.Though the diphasic anaerobic fermentation can make the condition of producing methane phase be controlled to the best, but the parameter of regulating fermentation stage is a great engineering for day output big device or place, and factor such as water ratio, temperature is influenced greatly by extraneous weather condition, is difficult for artificial control; 3, cost is higher, is not suitable for larger engineering, such as the metallic salt additive, because the amount that needs is big, therefore uses also not extensive.4, biogas refluxes and also has drawback.The H that forms previous stage ₂With CO ₂Be incorporated into the methanation stage, will cause H ₂Wretched insufficiency.No matter form mechanism as can be seen by methane, be carbohydrate or lipoid substance, and protein is in forming the process of methane, H ₂With CO ₂Chemical combination all be to be undertaken by 4: 1 relation, but both produced in whole digestive process ratio but is not this ratio.CO ₂The excessive decline that certainly will cause the pH value, thereby suppress the activity (top condition of methanobacteria is that pH value is neutral or summary meta-acid, meta-alkalescence) of methanobacteria, methane content is sharply reduced.

Summary of the invention

The objective of the invention is to disclose a kind of external source hydrogen that utilizes and promote the quick methanogenic method of organic waste.It specifically is the principle of utilizing biological excitation, find effectively to promote the active additive of methanogen floras, improve the activity of methanogen, make anaerobic digestion process continue to produce in large quantities methane gas, utilize for collecting, avoid discharging the Greenhouse effect that methane causes.

In order to achieve the above object, the present invention is big according to domestic refuse output, the multi phase state coexistence, and the methanogenic requirement of keeping the normal stabilization degradation process of rubbish simultaneously will promoted, at first seek and a kind ofly can take into account domestic refuse anaerobic to produce methane speed fast, easily diffusion does not have restraining effect or the very little additive of restraining effect to other flora.Experimentize then, find efficient raising to produce the operation scheme of methane effect.

The present invention is by replenishing an amount of external source pure hydrogen, makes it under the effect of methanobacteria and excessive CO ₂Fully chemical combination reduces CO first ₂Concentration improves the pH value, second increases the methanobacteria activity, strengthens the growing amount of methane, thereby has both avoided discharging the Greenhouse effect that methane causes, and the collecting methane resource utilization can be utilized again again.

Concrete technology is:

At first, measure mud: domestic refuse=1: (2～4) weight ratio, mix, and to make volatile matter (VS) content of mixture be 20～65% weight percents,, water ratio is 18～68% weight percents; Then, said mixture is placed on 35～37 ℃ of temperature, carry out anaerobically fermenting 3-5 cycle of reaction under pH value 6.5～7.5 conditions, each cycle is 7～14 days, the external source pure hydrogen that second day of each cycle with pressure is 1.1～5.5MPa feeds from the mixture bottom, to promote that organism decomposes in the mixture, improve methane production; Hydrogen feeding amount is 50～150mL H ₂During/kg VS (concentration of hydrogen this moment in system is 3～5%), reaction start time and aerogenesis peak can shift to an earlier date 4～7 days, compare conventional anaerobism and have saved the reaction domestication, and the whole anaerobic digestion cycle has shortened about 1/2.Continue to monitor the gaseous fraction and the content in mixture top gas exit with gas chromatograph, treat that the methane content fall per hour is no more than at 1% o'clock in the gas of exit, stop the feeding of pure hydrogen, continue anaerobically fermenting, one-period finishes, and repeats aforesaid operations once more, so periodically feeds hydrogen repeatedly, can routinely obtain maximum day output and reach the 3.65L/kg.d methane production, be not under the hydrogenated state 2.81 times of methane production; Methane concentration can bring up to 75.5% by 33.2%; Organic waste are converted into the energy transformation efficiency of methane and bring up to 2.93% by 1.04%.

The present invention has following advantage:

1. because the present invention has added hydrogen, anaerobically fermenting reaction start time and aerogenesis peak can shift to an earlier date 4～7 days, compare conventional anaerobism and have saved the reaction domestication, and the whole anaerobic digestion cycle can shorten about 1/2.And, gas production rate rises rapidly, reach the aerogenesis peak very soon, compare with the direct anaerobic digestion of organic waste, per day product methane content can improve 2.81 times, simultaneously methane concentration is also by bringing up to below 35% more than 75%, satisfied the minimum concentration that methane utilizes again and required (methane is 35% as the minimum concentration of combustion gas utilization, and minimum concentration is 40% during as generating).

2. because the anaerobic fermentation acid phase accumulates voltaile fatty acid easily, and it is excessive that the carbonic acid gas that produces the methane phase generation is compared hydrogen, therefore, the pH of reactive system easily is reduced to below 6.5, the methanogen activity is suppressed, therefore, the present invention makes it under the effect of methanobacteria by replenishing a certain amount of external source hydrogen, with excessive CO ₂Fully chemical combination reduces CO ₂Concentration, the activity of raising pH value and methanogen.

3. the CO that in anaerobic digestion process, generates ₂Continuous discharging, except not causing the waste with hydrogen-gasified synthesizing methane gas, carbonic acid gas itself also is deleterious as greenhouse gases to environment.Therefore, the present invention has reduced discharge of carbon dioxide greenhouse gas first by added hydrogen, has second made full use of the carbonic acid gas that generates, and makes organic waste sustainable high efficiency produce methane, thereby has accelerated the decomposition and the stabilization process of organic waste.

4. the methanogenic energy transformation efficiency of organic waste brought up to 2.93% by 1.04% before and after hydrogen of the present invention added.Therefore, cost that can be lower is realized the efficient output of methane.Simultaneously, organic waste are as the raw material and the energy, and the introducing of hydrogen all improves its utilization ratio and energy transformation efficiency greatly, causes Greenhouse effect thereby avoided methane to discharge.

Description of drawings

Fig. 1 is a process flow sheet of the present invention

Fig. 2 is the impact effect figure of different content hydrogen of the present invention to unit methane day output

Fig. 3 is the impact effect figure of different content hydrogen of the present invention to methane concentration

Fig. 4 is the impact effect figure of hydrogen make-up of the present invention to reaction system pH

Embodiment

See also accompanying drawing 1-4.

Embodiment 1

Be behind 50～60% the domestic refuse simple crushing, to take by weighing 12 parts of domestic refuse samples, every part of 0.070kg with water ratio.Prepare water ratio simultaneously and be 60～80% mud, also take by weighing 12 parts, every part of 0.030g.Domestic refuse and mud are respectively got the 200mL plastics testing bottle of packing into behind 1 part of thorough mixing.This experiment is totally 12 parts of combined experiments samples, places 12 assay flasks respectively, is divided into 6 groups, every group of two parallel samples.The VS content of combined experiments sample is about 20%, and water ratio is about 65%.Feeding nitrogen makes and does not contain other foreign gas in the assay flask, and is positioned over 37 ℃ of thermostatic chambers simulation anaerobically fermenting states after the sealing.Under 3.3MPa pressure, add 0,1,3,5,7 respectively with injection needle tube, the pure H of 10mL from the assay flask lower end ₂(0mL's is blank group, in order to contrast; Because the VS content of sample is about 20%, so the pure H of 1～10mL ₂Correspond respectively to 50,150,250,350 among Fig. 2-Fig. 4,500mLH ₂/ kgVS).Seal after 24 hours and collect gas with row's saturated common salt water law, with each component and content thereof in the gas of gas Chromatographic Determination air outlet, the result is referring to Fig. 2 and Fig. 3.As seen from Figure 2, the sample of respectively organizing of hydrogenation all produces Zao that the methane peak occurs than blank group, high yield methane speed and methane production appear at behind the hydrogenation experimental group that hydrogen concentration in the mixture reaches 3%-5%, the maximum day output of methane can reach 3.65L/kgd, is not during hydrogenation 2.81 times of methane production.Can be got by Fig. 3, methane concentration can bring up to 75.5% by 33.2%.As the domestic refuse of experiment material and the mass-heat mechanical energy of mud mixture is 4420kJ/g, H ₂The mole thermodynamic energy be 242kJ/mol, CH ₄A mole thermodynamic energy be 801kJ/mol, calculate the energy transformation efficiency of fermenting process with this, the hydrogenation experimental group is compared the energy transformation efficiency of blank group organic waste and is brought up to 2.93% by 1.04%.

Embodiment 2

See also accompanying drawing 4.

The acid accumulation if take place in rubbish anaerobic digestion process, and promptly pH descends, and then produces methane speed and reduces greatly, and the process of garbage decomposition also can slow down.Choose that the hydrogen addition is respectively 0,3mL and 5mL, all the other are identical with embodiment 1, (7-14 days) sampling solid-like in the one-period of reaction, with solid sample: water=1: 3 hybrid measurement pH the results are shown in Figure 4.By the pH of Fig. 4 system as can be seen, the pH of blank group has dropped to below 6.4, and so downward trend will suppress the activity of methanogen largely, hinders garbage decomposition and methane and produces.After adding hydrogen, anaerobic fermentation process pH is stabilized in 6.5～7.8, has effectively prevented the accumulation of voltaile fatty acid, helps the existence of methanogen, thereby has kept the anaerobic digestion that organic waste continue, and has accelerated the stabilization process of its household refuse landfill sites.

Claims (1)

1. one kind is utilized external source hydrogen to promote the quick methanogenic method of organic waste, it is characterized in that: at first, measure mud: domestic refuse=1: (2～4) weight ratio, mix, and the VS content that makes the mixture that obtains is 20%～65% weight percent, and water ratio is 18%～68% weight percent; Then, place 35～37 ℃ to be to carry out anaerobically fermenting 3-5 cycle of reaction under 6.5～7.5 conditions in mixture with the pH value, each cycle is 7～14 days, and each cycle since second day was that the pure hydrogen of 1.1～5.5MPa feeds from the mixture bottom with pressure, and hydrogen feeding amount is 50～150mL H ₂/ kg VS; Simultaneously, continue to monitor the gaseous fraction and the content in mixture top gas exit with gas chromatograph; Treat that the methane content fall per hour is no more than at 1% o'clock in the gas of exit, stop the feeding of pure hydrogen, continuing the anaerobically fermenting one-period finishes, repeat aforesaid operations once more, so periodically feed the hydrogen anaerobically fermenting repeatedly, can persistence obtaining maximum day output and reach the 3.65L/kgd methane production, is not under the hydrogenated state 2.81 times of methane production; Methane concentration can bring up to 75.5% by 33.2%; Organic waste are converted into energy methane conversion and bring up to 2.93% by 1.04%.

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