JP4577911B2 - Animal and vegetable oil waste liquid recycling system - Google Patents

Description

  The present invention relates to a reuse system for animal and vegetable oil waste liquid. Specifically, it is a system for recycling animal and vegetable oil effluents that can recover valuable materials and does not discharge wastewater out of the system, and is particularly useful for the treatment of effluents discharged from palm oil factories. The present invention relates to a reuse system of animal and vegetable oil effluent that can be used in place of law.

  Plant-derived oils such as palm oil have been frequently used in recent years as edible oils and fats, detergent raw materials, biodiesel fuels and the like. For example, palm oil is produced by extracting palm palm fruits (fruit bunches and seeds), and a large amount of waste liquid is produced as a by-product in this production process. The waste fluid discharged from the palm oil factory is a high BOD value because the oil and fat contained in the oil palm fruit bunch (FFB: Fresh Fruit Bunch) is discharged together with the actual fiber. , COD value and organic acid content.

  Fig. 4 shows the composition of a general palm oil waste (Source: MPOB Malaysia Palm Oil Committee).

  Conventionally, the treatment of palm oil waste liquid is generally performed by a lagoon of a natural purification sedimentation basin by an anaerobic fermentation process (open lagoon method), and is discarded after being treated by natural methane fermentation. The open lagoon method accounts for about 95% of the treatment in Malaysia, and a few other open tank treatment methods and closed tank treatment methods are implemented. However, in such a treatment method using natural methane fermentation, methane gas generated by fermentation and released into the atmosphere causes global warming, and thus it is difficult to say that the treatment method is sufficiently environmentally friendly. The lagoon occupies a vast site. Furthermore, since the lagoon wastewater movement is an overflow method, waste oil and accumulated sludge overflow by the amount of precipitation each time a squall occurs, causing a problem of contaminating the inside and outside of the site.

  Some refineries are trying to improve processing methods using mechanical aeration equipment. In addition, power generation facilities mainly composed of anaerobic digesters using methane fermentation are also operating experimentally, but the current situation is that the equipment costs are large and it is difficult to apply to all factories.

  As a method for treating palm oil waste liquid, Patent Document 1 discloses that an organic acid in a waste liquid is subjected to acetic acid fermentation by an anaerobic microorganism to extract the organic acid, and the organic acid is used as a raw material for a synthetic fuel such as polylactic acid or alcohol. Chemical recycling methods have been proposed. However, this method takes two days in the microorganism treatment step, and it takes about 18 hours in the freeze separation process in which the suspension treated with microorganisms is frozen and then thawed to separate the solid layer and the liquid layer. Further, electric energy or the like is used in the liquid layer concentration step. Therefore, it is difficult to say that it is a simple and energy saving method.

In Patent Document 2, waste water is dried by a heat exchanger with the heat quantity of palm oil waste liquid itself, and evaporative condensed water is recovered and reused as water, and sludge is dried and solidified to be recovered and reused as fuel and fertilizer. A method has been proposed. This method includes a drying process of waste liquid, an activated carbon filtration process of evaporated and condensed water, a scraping process of the dried cake, and a moisture content adjusting process of the dried cake with a water absorbent mat laid with a polyacrylate-based superabsorbent polymer. It is composed of The degree of evaporation efficiency with the amount of heat of the waste liquid itself is unknown. The processing and recovery of solids such as oil and fiber contained in the palm oil waste liquid are carried out by scraping the dried cake. Presuming from the heat quantity of the waste liquid itself, in order to obtain a dry cake having an expected moisture content (50 to 20%), the waste liquid treatment amount is expected to be considerably small. Therefore, this method is also a laboratory level method.
Japanese Patent No. 3412006 (Claims 1, 2, 6, paragraphs 0021, 0029, etc.) JP 2008-23514 A (Claim 1, paragraphs 0009, 0010, etc.)

  By the way, at present, effective treatment of waste liquid is not performed in the lagoon of a normal natural purification sedimentation basin by conventional anaerobic fermentation treatment. In addition, power generation facilities using methane fermentation have problems related to operation, such as knowledge, ability and financial power, and there is a shortage of operation engineers. Furthermore, the digestive juice after methane fermentation is black and the transparency does not increase, and a digestive juice precipitation tank is required. Under such circumstances, a processing method that is inexpensive and easy to handle is desired. In addition, there is a need for waste liquid treatment that has low operating costs, few failures, and can always obtain stable treated water.

  On the other hand, oil and cellulosic fiber in palm oil waste liquid have begun to attract attention as unused resources, but there is no example of being actually recovered as useful resources. The utilization of such unused resources is important not only from the viewpoint of effective utilization of unused biomass, but also from the viewpoint of environmental protection and prevention of global warming.

  In the case of palm oil waste liquid containing solids such as oil and fibers, flocs are formed and water with high clarity is separated when a flocculant is added and mixed, as in general waste liquid. However, since the amount of flocs is extremely small compared with the amount of water to be separated, if the floc-containing wastewater is treated as it is with an ordinary solid-liquid separation device, the productivity of the dried cake solidified product of the separated cake is remarkably deteriorated. Therefore, it has been necessary to reduce the floc volume and improve the solid-liquid separation rate.

  Further, when the palm oil waste liquid is stored in the tank, anaerobic fermentation starts from the first day, so that it is necessary to quickly agglomerate, pH adjustment is not necessary from the viewpoint of reuse of waste water, and the agglomeration force High coagulant has been desired.

  The present invention has been made in view of the above circumstances, the agglomeration treatment of animal and vegetable oil waste liquid containing oil and suspension is smooth, the flock dehydration efficiency is good, the production efficiency of dry cake is high, An object of the present invention is to provide an animal and vegetable oil waste liquid recycling system that is capable of processing a large amount of waste liquid at low cost and that is useful for preventing global warming by suppressing emission of global warming gas.

  In order to solve the above problems, the present invention takes the following means.

(1) The animal and vegetable oil waste liquid is clarified by removing sand, solids, oil and suspension contained in the animal and vegetable oil waste liquid, and the obtained fresh water is reused as water for boilers in the factory, and dried cake Is a recycling system for waste fluids of animals and plants oil,
(A) separating the sand contained in the animal and vegetable oil waste liquid;
(B) separating the solid from the waste liquid from which the sand has been separated;
(C) separating the waste liquid from which the solid matter has been separated into oil and waste water by centrifugation;
(D) an agglomeration reaction step of adding and mixing a neutral inorganic powder flocculant to the wastewater to collect a suspension contained in the wastewater to form a floc;
(E) a concentration step of removing fresh water by centrifugation from a wastewater having a low solid content content containing the floc by a liquid cyclone to obtain a concentrated liquid of the floc;
(F) a drying step of drying the floc concentrate and solids to obtain a dry cake;
An animal and vegetable oil waste liquid recycling system characterized by comprising:

(2) Clarify the animal and vegetable oil effluent by removing sand, solids and suspensions contained in the animal and vegetable oil effluent, reuse the resulting fresh water as boiler water for the factory, and use the dried cake in the factory. A system for recycling animal and vegetable oil waste liquid to be reused as an auxiliary combustion material for
(A) separating the sand contained in the animal and vegetable oil waste liquid;
(B) separating the solid from the waste liquid from which the sand has been separated;
(D) a coagulation reaction step of adding and mixing a neutral inorganic powder flocculant to the waste liquid from which the solid matter has been separated, and collecting a suspension contained in the waste liquid to form a floc;
(E) a concentration step of removing fresh water by centrifugation from a waste liquid having a low solid content containing the floc by a liquid cyclone to obtain a concentrated liquid of the floc;
(F) a drying step of drying the floc concentrate and solids to obtain a dry cake;
An animal and vegetable oil waste liquid recycling system characterized by comprising:

(3) The sand, solids, oil and suspension contained in the animal and vegetable oil waste liquid are clarified to clarify the animal and vegetable oil waste liquid, and the obtained fresh water is reused as dilution water and / or factory boiler water. And a recycling system for waste fluids of animal and vegetable oils that recycles dried cake as a combustion aid for the factory.
(A) separating the sand contained in the animal and vegetable oil waste liquid;
(B) separating the solid from the waste liquid from which the sand has been separated;
(C) separating the waste liquid from which the solid matter has been separated into oil and waste water by centrifugation;
(C ′) guiding the waste water to an open lagoon or a storage tank and performing water dilution and aerobic aeration treatment;
(D) a coagulation reaction step of adding and mixing a neutral inorganic powder flocculant to the wastewater after the aerobic aeration treatment to collect a suspension contained in the wastewater to form a floc;
(E) a concentration step of removing the separated water by centrifugation from the wastewater having a low solid content containing the floc by a liquid cyclone to obtain a concentrated liquid of the floc;
(F) a drying step of drying the floc concentrate and solids to obtain a dry cake;
(G) filtering the separated water removed by the liquid cyclone and filtering it to make clear water by removing fine particles;
An animal and vegetable oil waste liquid recycling system characterized by comprising:

(4) Clarifying the animal and vegetable oil waste liquid by removing sand, solids and suspensions contained in the animal and vegetable oil waste liquid, and reusing the obtained fresh water as dilution water and / or boiler water for the factory , A recycling system for waste fluids of animal and vegetable oils that recycles dried cake as a combustion aid
(A) separating the sand contained in the animal and vegetable oil waste liquid;
(B) separating the solid from the waste liquid from which the sand has been separated;
(C ′) guiding the waste liquid to an open lagoon or a storage tank, and performing water dilution and aerobic aeration treatment;
(D) Aggregation in which a neutral inorganic powder flocculant is added to and mixed with the waste liquid after the aerobic aeration treatment from which the solid matter has been separated, and the suspension contained in the waste liquid is collected to form a floc. A reaction process;
(E) a concentration step of removing the separated water from the waste liquid having a low solid content containing the floc by centrifugation using a liquid cyclone to obtain a concentrated concentrate of the floc;
(F) a drying step of drying the floc concentrate and solids to obtain a dry cake;
(G) filtering the separated water removed by the liquid cyclone and filtering it to make clear water by removing fine particles;
An animal and vegetable oil waste liquid recycling system characterized by comprising:

(5) The recycling system for animal and vegetable oil waste liquid according to any one of (1) to (4), wherein the operation of separating sand in the step (a) is performed by a cyclone centrifugal separator.
(6) The animal and vegetable oil waste liquid recycling system according to any one of (1) to (5), wherein the operation of separating the solid in the step (b) is performed by a screw decanter.
(7) The recycling system for waste fluids of animal and vegetable oils according to (1) or (3) , wherein the operation of separating the waste liquid in the step (c) into oil and waste water is performed by a separation plate type centrifuge .
(8) The animal and vegetable oil waste liquid reuse system according to (3) or (4) , wherein the aerobic aeration process in the step (c ′) is performed by an aeration apparatus in an open lagoon or a storage tank.
(9) The recycling system for animal and vegetable oil waste liquid according to any one of (1) to (8), wherein the operation of aggregating the suspension in the (d) agglutination reaction step is performed by an agglutination reaction tube.
(10) In the (d) aggregation reaction step, a neutral inorganic powder aggregating agent is added to the waste water or waste liquid, and then mixed in an aggregation reaction tube. The reuse system of the animal and vegetable oil waste liquid in any one.
(11) Any of (1) to (10), wherein the neutral inorganic powder flocculant is a flocculant mainly composed of fly ash generated by combustion of boiler fuel in an animal and vegetable oil production factory. The recycling system for animal and vegetable oil effluents according to Crab
(12) The animal and plant according to (1) or (2) , wherein the fresh water separated in the step (e) is stored in a regulating tank and then reused as boiler water in an animal and vegetable oil production plant. Oil waste liquid reuse system.
(13) The fresh water obtained by removing fine particles from the separated water separated in the (e) concentration step is stored in a regulating tank, and then water for dilution and / or animal and vegetable oil production in the aerobic aeration step The reuse system for waste fluids of animals and plants oil according to (3) or (4) , wherein the system is reused as water for boilers in factories.
(14) The recycle of the animal and vegetable oil waste liquid according to any one of (1) to (13), wherein the dried cake obtained in the drying step (f) is reused as an auxiliary combustion material in an animal and vegetable oil production factory. Usage system.
(15) The animal and vegetable oil according to any one of (1) to (14), wherein surplus steam in the animal and vegetable oil production plant is used as a drying heat source and a heating heat source of the waste liquid storage tank in the drying step (f) Waste liquid recycling system.
(16) The animal and vegetable oil waste liquid recycling system according to any one of (1) to (15), wherein the animal and vegetable oil waste liquid is palm oil waste liquid.
(17) The animal and vegetable oil waste liquid according to any one of (2), (4), (5), (6), and (8) to (15), wherein the animal and vegetable oil waste liquid is a cassava waste liquid. Reuse system.

  According to the present invention, when treating palm oil waste liquid, a large-capacity anaerobic lagoon is not required, and the surplus ruins can be used for various purposes such as factory land and green space. Moreover, the emission of methane gas is eliminated, which can contribute to the prevention of global warming.

  Pretreatment to remove sand, fibrous solids and oil contained in palm oil waste liquor, and further aerobic aeration treatment enables the downstream agglomeration treatment to be performed in a small reactor Become. Moreover, the separated sand can be subjected to soil reduction, and the separated solid can be dried and solidified and used as an auxiliary combustion material, and the separated oil can be handled in the same manner as the squeezed oil.

  The neutral inorganic powder flocculant used for the flocculation treatment of waste liquid is mainly made from waste paper ash sludge ash or fly ash generated from the combustion of boiler fuel at animal and plant manufacturing factories. Can be provided.

  Since the apparatus used for the floc concentration process which is particularly important in the reuse system of the present invention is a hydrocyclone system, an advanced operation management technique is unnecessary. In addition, the processing equipment as a whole is excellent in workability because of its low cost and simple configuration. In addition, the equipment is smaller and the equipment cost is extremely low compared to existing facilities and demonstration facilities.

  In the treatment of high COD palm oil waste liquor, a cake with oil attached to the fiber is obtained, and if dehydrated and molded, a calorific value equivalent to wood briquette fuel (17 MJ / Kg) can be expected. In addition, in the treatment of low COD palm oil waste liquid, the amount of flocculant added is small, so that a fuel with a high calorific value can be obtained. The separated water can be reused as boiler water, dilution water, etc. once stored in a regulating tank and stabilized. Therefore, according to the present invention, it is possible to provide a system that does not generate waste water and by-product waste, and what is obtained by processing can be reused as resources. Furthermore, since the combustion ash obtained by burning the auxiliary combustion material obtained by the waste liquid treatment of the present invention contains plenty of potassium, it can be returned to the farm as fertilizer.

The schematic elevation explaining the processing method of the animal and vegetable oil waste liquid discharged | emitted from a factory. The schematic plan view explaining the processing method of the animal and vegetable oil waste liquid discharged | emitted from a factory. The block diagram explaining the flow of a process of the animal and vegetable oil waste liquid discharged | emitted from a factory. General palm oil waste liquid composition. The block diagram explaining the flow of a process of the animal and vegetable oil waste liquid discharged | emitted from a factory. The block diagram explaining the flow of a process of the animal and vegetable oil waste liquid discharged | emitted from a factory.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Storage tank 11 Line 20 Stirring reaction apparatus 21 Coagulant storage tank 22 Powder delivery control part 23 Coagulant inlet 24 Reaction tube 25 Automatic control panel 26 Liquid feed pump 27 Line 30 Liquid cyclone type separator 31 Rotation separation tank 44 Line 45 Flock recovery device 46 Conveying means (bucket conveyor or screw conveyor)
50 Drying means (drying room)
52 Dry cake 60 adjustment tank

  Hereinafter, as an animal and vegetable oil waste liquid to which the animal and vegetable oil waste liquid recycling system according to the present invention is applied, a palm oil waste liquid will be described as an example. However, an animal and vegetable oil waste liquid to which the recycling system of the present invention can be applied is described below. For example, waste liquids produced in the process of producing plant-derived oils such as palm, sugarcane, cassava, coconut, and starch bioethanol; processes for producing animal-derived oils such as fish oil and beef tallow oil In addition, it can also be applied to wastewater from households, offices, and factories that contain these animal and vegetable oils.

  The palm oil waste liquid refers to a by-product generated from a series of steps of obtaining palm oil by squeezing oil from the fruit of palm palm. Specifically, palm oil is obtained by putting an oil palm fruit bunch in a steamer and steaming to peel off the shell of FFB and pressing fruit consisting of fruit bunch and seeds. From these processes, waste liquid containing shells (empty bunches) and fruit bunches-derived by-products (fibers, trace amounts of oil) and the like is generated.

  The palm oil waste liquid that can be reused by the method of the present invention is obtained by removing palm shells and contains a high concentration of organic components. The palm oil waste liquid is composed of sand adhering when palm palm falls to the ground, oil mixed in removing the palm of the oil palm fruit bunch, fibrous solids such as oil palm bunch shell, and suspension. including. The composition of a general palm oil waste liquid is as shown in FIG.

  The animal and vegetable oil waste liquid recycling system according to claim 1 of the present invention is a system suitable for waste liquid with a high COD value, such as palm oil waste liquid, having a high oil content. In this system, since the operation of separating the oil from the waste liquid is performed in the separation step (c) of the pretreatment, the agglomeration treatment can be smoothly performed without inhibiting the agglomeration effect by the oil. The same is applied to the animal and plant waste liquid recycling system according to claim 3 of the present invention.

  The recycling system for animal and vegetable oil waste liquid according to claim 2 of the present invention is a system suitable for waste liquid not containing oil or waste liquid with low oil content, such as cassava waste liquid or palm oil waste liquid with a low COD value, (C) The process (oil-water separation process) which isolate | separates waste liquid into oil and waste water is removed from the system of Claim 1. The same is applied to the animal and plant waste liquid recycling system according to claim 4 of the present invention.

  In the system according to claims 1 and 2 of the present invention, the pretreatment operation is performed, and after the sand, solid matter and oil are removed in advance, the agglomeration treatment is performed. In the flocculation process, oil and the like are removed, so that the amount of flocculating agent added can be reduced and the size of the flocculation apparatus can be easily achieved.

  In the system according to the third and fourth aspects of the present invention, after the pretreatment operation for removing the sand, solid matter and oil in advance, water dilution and aerobic aeration treatment are further performed, and then the aggregation treatment is performed. Since the organic matter is oxidatively decomposed by the aerobic aeration treatment, the generation of sludge can be suppressed.

  As the pretreatment, (a) a step of separating sand contained in animal and vegetable oil waste liquid (sand separation step), and (b) a step of solid-solid separation of solid matter from the waste liquid from which sand has been separated (solid matter separation). Step), (c) specific gravity separation of waste liquid from which solids are separated into oil and waste water (oil-water separation step), and (c ′) a step of performing water dilution and aerobic aeration treatment . The sand and solids separated in steps (a) and (b) contain almost no oil. For this reason, valuable oil can be recovered by carrying out the oil / water separation step (step (c)), and the amount of oil adsorbed to the flocculant is greatly reduced in the subsequent agglomeration reaction step. Aggregation efficiency is greatly improved.

  In the step (c ′), the organic matter is oxidized and decomposed by diluting the waste water or waste liquid with water and supplying oxygen necessary for aerobic decomposition to the diluted waste water or waste liquid. Therefore, generation | occurrence | production of sludge can be suppressed and, as a result, the addition amount of a flocculant can be reduced in a downstream agglomeration reaction process.

  The apparatus used in each process in the reuse system of the present invention is of a size that can be transported. These apparatuses are connected by a known method and configured to be used for a series of processes. When implementing said process process (d)-(e), so that the process of (d)-(e) can be implemented, the apparatus connected with the known method is appropriately drained of animal and vegetable oil waste liquid. Install in place and perform predetermined processing. Thereafter, the floc concentrate obtained in the concentration step is dried and solidified in the drying step by a conventional method to obtain a dried cake.

  The animal and vegetable oil waste liquid is preferably temporarily stored in a storage tank from the viewpoint of stable treatment. Animal and vegetable oil waste liquid discharged from a palm mill factory, etc., once passed through a screen and then stored in a storage tank can prevent clogging of piping that is likely to occur due to the presence of large solids (fibers etc.) it can.

  Hereinafter, the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a schematic elevation view for explaining a reuse system of animal and vegetable oil waste liquid discharged from a factory, and FIG. 2 is a schematic plan view thereof. FIG. 3 is a block diagram for explaining the flow of processing of the animal and vegetable oil waste liquid discharged from the factory.

  1-2, 10 is a waste liquid storage tank, 20 is an agitation reaction apparatus used in the aggregation reaction process, 30 is a liquid cyclone type separation apparatus used in the concentration process, and 50 is a means for drying the aggregation floc used in the drying process (drying). (Chamber), 60 is an adjustment tank for storing separated water.

  Moreover, in FIGS. 1-2, 11 is a line which connects the waste liquid storage tank 10 and the stirring reaction apparatus 20. FIG. 21 is a flocculant storage tank, 23 is a flocculant inlet, 24 is a reaction tube for stirring and mixing the waste liquid and the flocculant, 25 is an automatic control panel for controlling the flow rate of the waste liquid, and 26 is a liquid feed for sucking and sending the waste liquid. It is a pump (installed inside the device). Reference numeral 27 denotes a line connecting the stirring reaction device and the hydrocyclone type separation device. 31 is a rotary separation tank of the hydrocyclone type rotary separation device. 44 is a line for sending water separated in the concentration step (connected to the adjustment tank 60), 45 is a flock collecting device obtained in the concentration step, 46 is a flock conveying means (bucket conveyor or screw conveyor), 52 is The dried cake obtained in the drying process is shown.

  As shown to the block diagram of FIG. 3, the animal and vegetable oil waste liquids which came out of animal and vegetable oil manufacturing factories, such as a palm mill factory, are provided to a (a)-(e) process in order. The separated water (fresh water) obtained in the concentration step is temporarily stored in the adjustment tank and then reused as boiler water in the factory. On the other hand, after the floc concentrate obtained in the concentration step is supplied to the drying step, it is dried together with solids in the drying step to become a dry cake, and then the dried cake is reused as an auxiliary material for a steam boiler in a factory. Is done.

  Therefore, according to the present invention, it is possible to provide a reuse system that does not generate waste water and by-product waste. The separated sand can be soil-reduced, and the separated oil can be reused in the same manner as the extracted oil.

  Next, steps (steps (a) to (f)) employed in the reuse system of the present invention will be described in order with reference to the drawings.

  When pre-processing the palm oil waste liquid, as shown in the block diagram of FIG. 3, after the animal and vegetable oil waste liquid from the factory is once stored in the storage tank, the (a) step, the (b) step, and the (c) In the process, sand, solids and oil are separated. Thereafter, the waste water separated in the step (c) is once stored in the waste liquid storage tank, and then supplied to the (d) aggregation reaction step.

The storage tank for storing the palm oil waste liquid from the factory is preferably heated to about 80 ° C. in order to promote separation of sand and oil. For heating, excess steam in the factory can be reused. Reuse of the surplus steam is possible by sucking surplus low-pressure steam using a steam compressor and increasing the pressure, and supplying the boosted steam to a separate steam use location.
In addition, when storing the waste liquid which does not contain oil, and the waste liquid with little oil content, it is not necessary to heat a storage tank.

(A) Sand separation step In this step, the waste liquid introduced into the cyclone swirls in a conical container having a small diameter at the bottom, and sand having a high specific gravity in the waste liquid is received by the classification effect due to centrifugal force. Collected in the vicinity of the outer diameter portion and discharged from the lower discharge port together with a small amount of water, and waste liquid from which the sand has been removed is collected in the vicinity of the central portion of the container and discharged from the upper discharge port. Since the discharged sand contains almost no oil, it is reduced to the soil after being transported to the deposition site by a screw conveyor or the like. This cyclone removes most of the sand from the effluent. The waste liquid discharged from the cyclone is then introduced into a screw decanter.

(B) Solid matter separation step In this step, the waste liquid supplied into the bowl of the screw decanter forms an annular rotating liquid surface on the inner wall thereof by the rotational movement of the bowl. And this waste liquid is isolate | separated by the centrifugal force into the layer containing the solid substance by the side of an outer diameter, and the liquid phase by the side of an inner diameter. The liquid waste liquid overflows from the liquid outlet provided on the large diameter side of the bowl and is discharged to the outside. On the other hand, the solid matter is scraped to the conical portion by a screw conveyor, drained by an inclined surface, and then shaken off to the outside by a centrifugal force from a solid matter outlet provided on the small diameter side of the bowl. Since the discharged solid matter contains almost no oil, it is sent to the downstream drying step (f) by a conveying means such as a screw conveyor and dried and solidified.

  In the screw decanter, separation efficiency is good when the rotation speed of the bowl is set to a rotation speed at which the centrifugal force acting on the waste liquid is about 3,000 × G.

  In the reuse system of the present invention, not only the screw decanter but also the cyclone is used together. If the cyclone is omitted, the sand is directly supplied to the screw decanter, and the inner peripheral surface of the bowl and the screw conveyor. Since the wear of the edge of the steel plate proceeds at an early stage and the lifetime of the decanter is reduced, a cyclone is disposed in the previous stage to remove this in advance.

  As a result of removing sand and solids from the waste liquid in this way, the waste liquid discharged from the liquid outlet includes water, oil, and suspended solids. In the present invention, in addition to the sand removal by the cyclone, the solid matter removal by the screw decanter is also performed, so that the fibrous solid matter that cannot be removed by the cyclone can be removed. As a result, the oil / water separation efficiency in the downstream centrifuge is significantly improved. For this reason, it becomes possible to reliably remove oil and suspended solids remaining in the waste liquid by agglomeration treatment. The waste liquid discharged in the step (b) is temporarily stored in the cushion tank.

(C) Oil / water separation step In this step, a separation plate type centrifuge with an adjusted angle and pitch of the separation plate is suitably used for the operation of separating the waste liquid into oil and waste water. Thereby, oil can be separated and recovered with high efficiency even from a waste liquid containing a small amount of oil. In this separation operation, since a small amount of solids that could not be removed by the separation operation by the screw decanter in the previous stage is also separated, the solids are sand and solids separated in the steps (a) and (b). At the same time, it is sent to the downstream drying step (f) by a conveying means such as a screw conveyor and dried and solidified.

  In the separation operation in this step, specific gravity separation is performed with a separation plate centrifuge, and the oil in the upper phase is separated and recovered. Simultaneously with the separation and recovery of oil, a small amount of solid matter is separated, and the rest becomes suspended waste water. The wastewater is once stored in a storage tank (non-heated) and then supplied to the downstream (d) aggregation reaction step.

(C ′) Dilution and aerobic aeration process The wastewater separated in the above (c) oil-water separation step and (b) the waste liquid that has passed through the solid matter separation step contain a large amount of organic matter. Therefore, before introducing it into the storage tank, the waste water (waste liquid) is diluted with water and subjected to aerobic aeration treatment, and the oxygen necessary for aerobic decomposition is supplied while the organic matter in the waste water (waste liquid) is oxidatively decomposed. It is preferable to do. The dilution may be either dilution by addition of dilution water or dilution with rain water. The aerobic aeration treatment can be performed by introducing wastewater (waste liquid) to an open lagoon or a storage tank, and supplying oxygen necessary for aerobic decomposition to the wastewater (waste liquid) using an aeration apparatus. Aeration and dilution can be performed simultaneously. A well-known apparatus can be used for the aeration apparatus.

  5 and 6 are block diagrams for explaining the flow of waste liquid treatment when the aerobic aeration treatment process is employed.

(D) Aggregation reaction step In this step, first, the waste liquid is introduced into the agitation reaction device 20 through the line 11 from the storage tank 10 storing the animal and vegetable oil waste liquid, and the neutral inorganic powder aggregating agent is added at the inlet. . The flocculant stored in the storage tank 21 is added from a powder inlet 23 provided near the inlet of the reaction tube 24.

  As the flocculant, a neutral inorganic powder flocculant mainly composed of calcium oxide is used. The flocculant has a pH in the range of 6 to 8 when added to waste water, so there is no need to adjust the pH of the waste liquid or pre-dissolve the alkali agent, etc. It has the advantage that it can be formed. Further, the generated floc has a good dewatering property and can be easily treated with sludge. Incidentally, by adding a neutral inorganic powder flocculant to the palm oil waste liquid (pH 4.2), the pH of the waste liquid becomes 5.5 to 6.0.

  The amount of the flocculant added varies depending on the type of animal and vegetable oil waste liquid to be applied, but is not constant, but a predetermined amount is added in consideration of drainage properties, flock formation state, and economic efficiency. Since it is an inorganic powder, there is no environmental problem even if the amount added is large, but adding too much is not economical. In this regard, if the waste liquid (drainage) after the pretreatment is used, the solid matter or oil that inhibits the action of the flocculant is removed, so that the flocculant effect can be expressed with the addition of a small amount of flocculant.

  In this invention, what contains about 40-50 wt% of calcium oxides as a neutral inorganic type powder flocculant is used preferably. Such a flocculant is used as an animal and vegetable oil waste liquid by agglomerating fine suspended particles such as fibers by using an ettringite needle-like crystal structure generated by a hydration reaction as an initiating agent to grow into a large agglomerated solidified product. Adsorbs a small amount of oil contained in. Such a flocculant can be produced by mixing auxiliary materials with a paper sludge incinerated ash as a main raw material or a thermal power plant fly ash as a main raw material. Most preferably, fly ash generated by combustion of boiler fuel in an oil production plant is used as the main raw material. The main component is calcium oxide, and in addition, about 10 to 30 wt% of silicon dioxide and aluminum oxide are contained.

  The neutral inorganic powder flocculant used in the present invention is capable of aggregating suspended suspended solids even at high pH, and those containing sulfur trioxide in the flocculant have neutralizing ability. Therefore, it is not necessary to adjust the pH of the waste liquid before addition. Furthermore, the suspension such as oil contained in the palm oil waste liquid can be aggregated only by adding and mixing.

  The stirring reactor is preferably of a type that can mix the waste liquid and the neutral inorganic powder flocculant by a reaction tube (aggregation reaction tube) from the viewpoint of processing speed and space saving of the device. The device can be used.

  For example, in the stirred reaction apparatus shown in FIG. 1, the storage tank 21 is filled with a neutral inorganic powder flocculant. When the flocculant is added to the waste liquid while the flow rate is adjusted by the powder delivery control unit 22 of the addition device, the addition amount can be adjusted. A liquid feed pump 26 is installed inside the stirring reaction apparatus 20. The waste liquid and the flocculant are stirred through the reaction tube having an inner diameter of 150 mmφ and a length of about 5 m through the pump at a flow rate of about 0.3 to 0.4 m / sec. , Mixed to form agglomerated floc. Next, the waste liquid containing the coagulation floc formed in the coagulation reaction step is sent to the hydrocyclone type separation device.

(E) Concentration step In the concentration step, a liquid cyclone separator is used to centrifuge the waste liquid containing the floc having a low solid content by the liquid cyclone, thereby removing water from the waste liquid. Thereby, it is possible to obtain a floc concentrate having a higher concentration (that is, having a reduced volume) than other concentration methods.

  In the liquid cyclone type separation apparatus 30, the waste liquid sent from the agglomeration reaction apparatus 20 is injected into the rotary separation tank 31, and the injected waste liquid is turned into a rotary flow, whereby the floc contained in the waste liquid is centrifuged. Separate and settle down as a precipitate by its own weight. At the same time, the water separated from the floc by centrifugation is discharged out of the device via line 44.

  Since the water separated in this step has transparency close to that of fresh water, it is temporarily stored in the adjustment tank 60 to stabilize pH and the like. In addition, a strainer can be used as needed in the middle of feeding the separated water obtained in this step to the water storage tank.

  Moreover, when an aerobic aeration process process is required, it is preferable to introduce | transduce the isolation | separation water isolate | separated at the concentration process into the below-mentioned filtration process. Thereby, since the fine particle contained in separation water is removed, separation water turns into fresh water (refer to Drawing 5 and Drawing 6). Further, when the floc concentrate is subjected to solid-liquid separation (dehydration), the separated water separated in the solid-liquid separation (dehydration) step is merged with the separated water separated in the concentration step, and then the separated water is separated. Is preferably introduced into the filtration step.

(F) Drying step In this step, the floc concentrate obtained in the concentration step is dried to obtain a dry cake. The floc concentrate obtained in the upstream process (e) is collected by the flock collecting device 45 and then sent to the drying chamber 50 by a conveying means such as a bucket conveyor or a screw conveyor 46. In the drying process, it is preferable to use surplus steam in the factory supplied from a steam compressor as a drying heat source in the drying chamber from the viewpoint of energy saving and surplus energy utilization.

  In the drying step, the floc concentrate may be supplied to the solid-liquid separation step for solid-liquid separation to obtain separated water and a separated cake, and then the separated cake may be supplied to the drying step. As the solid-liquid separation apparatus, a known apparatus or an apparatus equivalent thereto can be used. For example, a solid-liquid separation device that separates water while passing the floc concentrate sent from the floc concentration step over the elliptical plate group can be used.

  As the solid-liquid separator, a general dehydrator can be used, and examples thereof include a screw decanter, a screw press, a filter press, and a belt press. Although the installation place of a dehydrator is arbitrary, installing on the conveyance means 46 (refer FIG. 1), such as a bucket conveyor or a screw conveyor, is preferable from the point of space saving.

  The dried cake obtained in the drying step is solidified by a conventional method and reused as an auxiliary combustion material in an animal and vegetable oil production factory. The surplus auxiliary combustion material can be reused as auxiliary combustion material in cement factories and the like.

(G) Filtration step In this step, (e) the separated water separated in the concentration step or the separated water obtained by combining the separated water and the separated water separated by dehydration is filtered using a filtration device. . Since fine particles contained in the separated water are removed by filtration, fresh water is obtained. As the filtration device, a general filtration device can be used, and examples thereof include a depth filtration device using a particulate material such as sand, gravel, and charcoal as a filter material, and a filtration device such as a magnetic filter.

  Since the filtered water has transparency close to that of fresh water, it can be reused as water for dilution in the aerobic aeration process and / or boiler water used in animal and vegetable oil production plants after it is stored in the adjustment tank. it can.

  As described above, in the animal and vegetable oil waste liquid recycling system of the present invention, the waste liquid storage tank is disposed adjacent to the factory, the pretreatment device is disposed downstream thereof, and the waste liquid storage tank is further disposed. Then, the apparatus used in the agglomeration reaction process and the concentration process is integrally arranged in the subsequent flow, and further, a drying apparatus used in the drying process is installed adjacent to these apparatuses, and further, an adjustment tank is installed if desired, so that the waste liquid And securing resources to be reused can be performed at once. Moreover, since the transport distance of the solid is short, the processing efficiency is excellent.

  By returning the separated water obtained in the concentration step as boiler water or dilution water in a palm mill factory, a circulation system is obtained.

  Moreover, by returning the dried cake obtained in the drying process as a combustion aid for a steam boiler in a palm mill factory or the like, energy saving and reduction of carbon dioxide emissions can be achieved.

  According to the reuse system of the present invention, the facility can be maintained in an area of 1/10 or less of the lagoon wastewater treatment facility, which is the largest among the palm oil wastewater treatment facilities. Therefore, the surplus land can be used as a plantation for regeneration as a carbon dioxide absorption source and reservoirs, creating new industries such as further prevention of global warming and aquaculture.

  Further, the reuse system of the present invention can be preferably used for palm oil waste liquid, waste liquid produced in the process of producing plant-derived oil such as palm, sugarcane, cassava, coconut, and starch bioethanol; fish oil, beef tallow oil, etc. Wastewater generated in the process of producing animal-derived oil; other wastewater from households, business establishments and factories, and those containing these animal and vegetable oils.

Claims (17)

The animal and vegetable oil effluent is clarified by removing sand, solids, oil and suspension contained in the animal and vegetable oil effluent, and the obtained fresh water is reused as water for the boiler of the factory. A system for reusing animal and vegetable oil effluent to be reused as a combustion aid,
(A) separating the sand contained in the animal and vegetable oil waste liquid;
(B) separating the solid from the waste liquid from which the sand has been separated;
(C) separating the waste liquid from which the solid matter has been separated into oil and waste water by centrifugation;
(D) an agglomeration reaction step of adding and mixing a neutral inorganic powder flocculant to the wastewater to collect a suspension contained in the wastewater to form a floc;
(E) a concentration step of removing fresh water by centrifugation from a wastewater having a low solid content content containing the floc by a liquid cyclone to obtain a concentrated liquid of the floc;
(F) a drying step of drying the floc concentrate and solids to obtain a dry cake;
An animal and vegetable oil waste liquid recycling system characterized by comprising: The animal and vegetable oil waste liquor is clarified by removing sand, solids and suspensions contained in the animal and vegetable oil waste liquor, and the obtained fresh water is reused as boiler water for the factory, and the dried cake is used as a combustion aid for the factory. It is a reuse system of animal and vegetable oil waste liquid to be reused as
(A) separating the sand contained in the animal and vegetable oil waste liquid;
(B) separating the solid from the waste liquid from which the sand has been separated;
(D) a coagulation reaction step of adding and mixing a neutral inorganic powder flocculant to the waste liquid from which the solid matter has been separated, and collecting a suspension contained in the waste liquid to form a floc;
(E) a concentration step of removing fresh water by centrifugation from a waste liquid having a low solid content containing the floc by a liquid cyclone to obtain a concentrated liquid of the floc;
(F) a drying step of drying the floc concentrate and solids to obtain a dry cake;
An animal and vegetable oil waste liquid recycling system characterized by comprising: The animal and vegetable oil waste liquid is clarified by removing sand, solids, oil and suspension contained in the animal and vegetable oil waste liquid, and the obtained fresh water is reused as dilution water and / or factory boiler water, Animal and vegetable oil waste liquid recycling system that recycles dried cake as a combustion aid in a factory,
(A) separating the sand contained in the animal and vegetable oil waste liquid;
(B) separating the solid from the waste liquid from which the sand has been separated;
(C) separating the waste liquid from which the solid matter has been separated into oil and waste water by centrifugation;
(C ′) guiding the waste water to an open lagoon or a storage tank and performing water dilution and aerobic aeration treatment;
(D) a coagulation reaction step of adding and mixing a neutral inorganic powder flocculant to the wastewater after the aerobic aeration treatment to collect a suspension contained in the wastewater to form a floc;
(E) a concentration step of removing the separated water by centrifugation from the wastewater having a low solid content containing the floc by a liquid cyclone to obtain a concentrated liquid of the floc;
(F) a drying step of drying the floc concentrate and solids to obtain a dry cake;
(G) filtering the separated water removed by the liquid cyclone and filtering it to make clear water by removing fine particles;
An animal and vegetable oil waste liquid recycling system characterized by comprising: The animal and vegetable oil waste liquid is clarified by removing sand, solids and suspensions contained in the animal and vegetable oil waste liquid, and the obtained fresh water is reused as dilution water and / or factory boiler water, and dried cake Is a system for recycling animal and vegetable oil waste liquid that is reused as an auxiliary fuel for factories,
(A) separating the sand contained in the animal and vegetable oil waste liquid;
(B) separating the solid from the waste liquid from which the sand has been separated;
(C ′) guiding the waste liquid to an open lagoon or a storage tank, and performing water dilution and aerobic aeration treatment;
(D) Aggregation in which a neutral inorganic powder flocculant is added to and mixed with the waste liquid after the aerobic aeration treatment from which the solid matter has been separated, and the suspension contained in the waste liquid is collected to form a floc. A reaction process;
(E) a concentration step of removing separated water from the waste liquid having a low solid content containing the floc by centrifugation using a liquid cyclone to obtain a concentrated concentrate of the floc;
(F) a drying step of drying the floc concentrate and solids to obtain a dry cake;
(G) filtering the separated water excluded by the liquid cyclone, and filtering the water into fine water by removing fine particles;
An animal and vegetable oil waste liquid recycling system characterized by comprising:   The system for reusing animal and vegetable oil waste liquid according to any one of claims 1 to 4, wherein the operation of separating the sand in the step (a) is performed by a cyclone centrifuge.   The reuse system of the animal and vegetable oil waste liquid according to any one of claims 1 to 5, wherein the operation of separating the solid in the step (b) is performed by a screw decanter. The system for reusing animal and vegetable oil waste liquid according to claim 1 or 3 , wherein the operation of separating the waste liquid in the step (c) into oil and waste water is performed by a separation plate centrifuge. The aerobic aeration process in the step (c ') is performed by an aeration apparatus in an open lagoon or a storage tank, and the reuse system of animal and vegetable oil waste liquid according to claim 3 or 4 .   The system for reusing animal and vegetable oil waste liquid according to any one of claims 1 to 8, wherein the operation of aggregating the suspension in the (d) agglutination reaction step is performed by an agglutination reaction tube.   The said (d) aggregation reaction process WHEREIN: After adding a neutral inorganic type powder aggregating agent to the said waste_water | drain or a waste liquid, it is made to mix in an aggregation reaction tube, It is characterized by the above-mentioned. Animal and vegetable oil waste liquid recycling system.   The animal and plant according to any one of claims 1 to 10, wherein the neutral inorganic powder flocculant is a flocculant mainly composed of fly ash generated by combustion of boiler fuel in an animal and vegetable oil production factory. Oil waste liquid reuse system. The fresh water separated in the (e) concentration step is stored in a regulating tank, and then reused as boiler water in an animal and vegetable oil manufacturing plant. 3. Reuse of animal and vegetable oil waste liquid according to claim 1 or 2 system. (E) Fresh water obtained by removing fine particles from the separated water separated in the concentration step is stored in a control tank, and then a dilution water and / or a boiler in an animal and vegetable oil production plant in an aerobic aeration treatment step. The system for reusing animal and vegetable oil waste liquid according to claim 3 or 4 , wherein the system is reused as irrigation water.   The reuse system of the animal and vegetable oil waste liquid according to any one of claims 1 to 13, wherein the dried cake obtained in the (f) drying step is reused as an auxiliary combustion material in an animal and vegetable oil manufacturing factory.   15. The system for recycling animal and vegetable oil waste liquid according to any one of claims 1 to 14, wherein surplus steam in the plant and animal oil manufacturing factory is used as a drying heat source and a heating heat source for the waste liquid storage tank in the drying step. .   The recycling system for animal and vegetable oil waste liquid according to any one of claims 1 to 15, wherein the animal and vegetable oil waste liquid is palm oil waste liquid.   The animal and vegetable oil waste liquid recycling system according to any one of claims 2, 4, 5, 6, and 8 to 15, wherein the animal and vegetable oil waste liquid is a cassava waste liquid.

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