Abstract:
The present invention discloses a method of utilizing a catalytic reaction to recycle organic scrap, wherein via a special cracking equipment, a special catalyst and a two-stage cracking process, the present invention not only can effectively convert organic scrap into regenerated oil but also can promote the yield and quality of the regenerated oil; further, the method of the present invention can overcome environmental problems and has the characteristics of high safety, high stability, and high economic efficiency.

Description:
BACKGROUND OF THE INVENTION  
       [0001]     1. Field of the Invention  
         [0002]     The present invention relates to a method of recycling organic scrap, particularly to a method of utilizing a catalytic reaction to recycle organic scrap.  
         [0003]     2. Description of the Related Art  
         [0004]     Owing to massive energy consumption, energy resource is being exhausted gradually. Further, in 2005, the Kyoto Treaty to UNFCCC (the United Nations Framework Convention on Climate Change) entered into force, and the regulations of controlling carbon dioxide emission has come to work then. Now, many nations have regarded energy-regeneration as a high-priority target. Therefore, recycling scrap is no more only for environmental protection but is also for energy regeneration. Scrap is no more a useless, or even harmful waste but may be an economic-efficient resource.  
         [0005]     The plastic is often used as the insulation materials of cables, current/potential transformers, and transformers include: thermoplastic PE (polyethylene), thermosetting Si-XLPE (silane cross-linked polyethylene), and thermosetting Epoxy resin. Part of it is often used filling grease (usually petroleum naphtha) to protect it from humidity and water. Those industrial scraps come from the abovementioned parts should be recycled; however, the recycling process not only should be environment-friendly but also should be able to produce high-quality regenerated energy, and clean metals with undamaged mechanical and electrical properties.  
         [0006]     In the conventional treatments, current/potential transformers, transformers and cables, which contain thermosetting PE or thermosetting resin, and products, which contain composite material, are essentially buried or burned. The conventional treatments primarily adopt mechanically-processing methods to separate insulation materials from metals in a destructive way. Among those mechanically-processed scraps, the organic scraps of high plasticity and high moldability, such as PE and PVC scraps, are to be recycled; the contaminated scraps, such as grease- or paint-containing scraps, are not recycled but abandoned since the properties thereof will be influenced by contaminants; the metals recycled from the mechanically-processed metallic scraps will be contaminated by the insulation materials sticking to the metal surface during the recycling process. Owing to low flowability and inferior moldability, the thermosetting XLPE and Epoxy scraps are hard to recycle and will be buried or burned, which not only causes pollution but also disobeys the final objective of the sustainable development of UNFCCC.  
         [0007]     At present, most of the commercialized technologies for recycling solid scrap adopt the thermal-cracking method, which cracks solid scrap into high-value-added heavy oil, light fuel oil, petroleum gas, and coke.  
         [0008]     However, the conventional thermal-cracking method not only cannot process the scraps containing thermosetting plastic, paint, or grease but also has to heat the scraps to the temperature as high as more than 550˜600° C. The thermal conductivity of organic scrap is very low, therefore, the heating time will be very long, and the processing capacity is hard to promote. Thus, the conventional thermal-cracking method is relatively uneconomical. Besides, the coke generated by the conventional thermal-cracking method contains a very high proportion of oil; thus, it should be processed once more to meet safety and environmental-protection requirements. The conventional thermal-cracking method adopts a one-stage horizontal cracking furnace; the utilization rate of the conventional cracking furnace and the yield rate of the regenerated oil still have much room to improve. Furthermore, owing to gaseous or solid blocking, fires or explosions often take place in the conventional horizontal cracking furnace. Therefore, the conventional horizontal cracking furnace also has serious safety problems to overcome.  
       SUMMARY OF THE INVENTION  
       [0009]     The primary objective of the present invention is to provide a method of utilizing a catalytic reaction to recycle organic scrap to overcome the abovementioned problems, wherein the two-stage cracking process of the present invention not only can recycle thermosetting plastic-containing scrap and paint- or grease-containing scrap, but also can greatly promote the quality and the yield rate of regenerated oil, and the utilization rate of recycling equipments. Further, owing to the perfect cracking process of the present invention, the generated coke has a very low proportion of residual oil; thus, it can be further fabricated into useful products; for example, the coke generated by recycling rubber scrap can be further fabricated into carbon black or active carbon, the coke generated by recycling plastic scrap can be further fabricated into hollow bricks or aggregates; if the coke is otherwise buried directly, there is no environmental problem to scruple. Therefore, the present invention can look after both sides of environmental requirement, safety and economic efficiency.  
         [0010]     To achieve the abovementioned objective, the present invention proposes a method of utilizing a catalytic reaction to recycle organic scrap, which comprises the following steps: firstly, placing organic scrap and a catalyst into a vertical cracking furnace to crack the organic scrap into a primary cracked gas and a solid product with the first cracked gas output from the top of the vertical cracking furnace and the solid product left on the bottom of the vertical cracking furnace, wherein the reaction temperature should be higher than about 220˜230° C., but 350˜380° C. is preferred, and the reaction pressure is slightly positive to the atmospheric pressure; next, feeding the solid product into a rotary cracking furnace to undertake a secondary cracking reaction and generate a secondary cracked gas, cracked oil, and residues, including coke and metals, wherein the reaction temperature is about 365˜390° C. The primary cracked gas, the secondary cracked gas and the cracked oil can be further processed with separating procedures, such as filtration, condensation, and distillation, and converted into various regenerated oils.  
         [0011]     The method of utilizing a catalytic reaction to recycle organic scrap of the present invention adopts a two-stage cracking process. The first-stage cracking reaction is to utilize a vertical cracking furnace to separate the reactant into a primary cracked gas and a solid product, so that the blocking problem will no more occur. The second-stage reaction is to utilize a rotary cracking furnace to crack the solid product generated by the first-stage reaction in order to increase the recycling efficiency of the cracking reaction. Furthermore, a mica-based or silica-based catalyst can also be used in the cracking reaction; such a catalyst comprises: 55˜62% silica (SiO 2 ), 4˜7% potassium oxide (K 2 O), 0.5˜1.5% sodium oxide (NaO), 2˜2.5% ferric oxide (Fe 2 O 3 ), 0.2˜1% titanium oxide (TiO 2 ), 27˜35% alumina (Al 2 O 3 ), 0.2˜1% magnesia (MgO), and 0.5˜1.5% calcium oxide (CaO). Thereby, the present invention can achieve the efficacies of lowering cracking temperature, operating cost and equipment cost, as well as increasing safety, equipment utilization rate, yield rate and value-added of regenerated oil and economic efficiency.  
         [0012]     To enable the objectives, characteristics, and efficacies of the present invention to be more easily understood, the embodiments of the present invention are to be described below in detail in cooperation with the drawings.  
     
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0013]     The FIGURE is a flowchart schematically showing the method of utilizing a catalytic reaction to recycle organic scrap according to an embodiment of the present invention. 
     
    
     DETAILED DESCRIPTION OF THE INVENTION  
       [0014]     Refer to the FIGURE, a flowchart of the method of utilizing a catalytic reaction to recycle organic scrap according to an embodiment of the present invention. In this embodiment, thermoplastic PE (polyethylene), thermosetting resin-containing current/potential transformers, thermosetting XLPE (cross-linked polyethylene), oil sludge, and waste tires are processed into high-quality regenerated oils. The process according to this embodiment will be described below in detail.  
         [0015]     Firstly, the abovementioned organic scraps (i.e. PE, current/potential transformers, XLPE, oil sludge, and waste tires) are used as raw material  10 . The raw material  10  together with a special catalyst  11  is fed into a vertical cracking furnace  20 . Owing to the catalytic effect of the catalyst  11 , the organic-scrap raw material  10  is massively and quickly cracked. In this stage, as the cracking furnace  20  is vertical, a primary cracked gas, which is generated in the cracking reaction, will rise to the top of the vertical furnace  20 , and a solid product will be left on the bottom of the vertical furnace  20  by the gravity, and thus, the gaseous and solid products (the primary cracked gas and the solid product) will not block each other. Therefore, the internal pressure of the cracking furnace can be maintained just a little above the atmospheric pressure, and the safety can be promoted.  
         [0016]     The embodiment of the present invention adopts a mica-based or silica-based catalyst  11 , which comprises: 55˜62% silica (SiO 2 ), 4˜7% potassium oxide (K 2 O), 0.5˜1.5% sodium oxide (NaO), 2˜2.5% ferric oxide (Fe 2 O 3 ), 0.2˜1% titanium oxide (TiO 2 ), 27˜35% alumina (Al 2 O 3 ), 0.2˜1% magnesia (MgO), and 0.5˜1.5% calcium oxide (CaO). For such a catalyst, a temperature as low as only 220˜230° C. is enough to induce a cracking reaction; however, the catalyst will achieve the best performance at the temperature of 350˜380° C.  
         [0017]     After the cracking reaction has undertaken for a period of time, PE, current/potential transformers, XLPE, or oil sludge in the organic-scrap raw material  10  is cracked into the primary cracked gas and the solid product respectively with the gas percentage (by weight) of 95%, 88.1%, 20.7%, or 25.0%, and the solid percentage (by weight) of 5.0%, 11.9%,79.3%, or 75.0%.  
         [0018]     At this time, as the solid product has been accumulated and agglomerated on the bottom of the vertical cracking furnace  20 , full reaction is hard to achieve. In the embodiment of the present invention, a rotary cracking furnace  30  is further installed below the vertical cracking furnace  20 , and the solid product can be directly fed into the rotary cracking furnace  30  via a slide gate to continue the cracking reaction. The rotary cracking furnace  30  can uniformly agitate the solid product to increase the contact area for the cracking reaction and accelerate the cracking reaction. Further, according to the properties of the organic scrap, the rotary cracking furnace  30  may be either an internal-rotation-type one or an external-rotation-type one. The reaction temperature of the rotary cracking furnace  30  ranges from 365 to 390° C.  
         [0019]     In this stage, the reaction products are a secondary cracked gas and a cracked oil; the secondary cracked gas will rise to the top of the rotary cracking furnace  30  and be guided out therefrom, and flow through the condenser  60 ; the cracked oil will be guided through the oil pipes collecting into the intermediate tank  70 , and then, the cracked oil collected will be further processed in the distillation system. In the embodiment of the present invention, for PE, current/potential transformers, XLPE, or oil sludge, which is used as the organic-scrap raw material  10 , the proportions of the secondary cracked gas plus the cracked oil generated are respectively 3.0%, 1.6%, 0%, or 3.0% with respect to the weight of individual organic-scrap raw material  10 , and the proportions of the solid residue  90  (including coke and metals) are respectively 2.0%, 10.3%, 79.3% or 72.0% with respect to the weight of individual organic-scrap raw material  10 .  
         [0020]     After those two stages of cracking reactions, the primary cracked gas, the secondary cracked gas, and the cracked oil will be processed with turbulent separators  50  and condensers  60  to undertake liquid-gas separation, and then the oil will be collected into intermediate tanks  70 . The collected oil will be further processed in distillation columns  80  with different distillation conditions to generate various oil products, including a gas  91 , a gasoline  92 , a diesel  93 , and a heavy oil  94 . In the embodiment of the present invention, for PE, current/potential transformers, XLPE, or oil sludge, which is used as the organic-scrap raw material  10 , the proportions of the gas  91  are respectively 15.0%, 17.8%, 9.2%, or 2.8% with respect to the weight of individual organic-scrap raw material  10 , and the proportions of the gasoline  92  are respectively 16.6%, 9.3%, 1.2% or 8.8% with respect to the weight of individual organic-scrap raw material  10 , and the proportions of the diesel  93  are respectively 24.9%, 21.7%, 2.3% or 13.9% with respect to the weight of individual organic-scrap raw material  10 , and the proportions of the heavy oil  94  are respectively 41.5%, 40.9%, 8.0%, or 2.5% with respect to the weight of individual organic-scrap raw material  10 .  
         [0021]     According to the analysis based on the distillation method, the cracked oil product generated via the method of this embodiment contains 30% gasoline, and 97% of the gasoline meets the CPC (Chinese Petroleum Corporation) premium gasoline  95  standard. Thus, the cracking temperature used by the embodiment of the present invention can really insure that the organic scrap can be fully cracked into the regenerated oil.  
         [0022]     A small-scale cracking equipment is used to implement the embodiment of the present invention, and the amount of the cracked gas generated by the catalytic cracking reaction is small also; the cracked gas is used as the main fuel source of the catalytic cracking process, and the waste gas generated by gas burners of the cracking furnaces is limited, which is verified by the tests illustrated below. Table. 1 shows the concentrations of sulfur oxide, nitrogen oxide, and particulates in the waste gas exhausted by the process of this embodiment. Table 2 shows the analysis of the components of the heavy metals of the solid residue generated by the process of this embodiment.  
                           TABLE 1                           Test result                   (XLPE/Transformer/Oil   Emission       Test item   sludge/Waste tire)   standard   Test method                   Total sulfur   43/76/71/32   300   NDIR       oxide (SO x )           (A413.72C)       (ppm)       Total nitrogen   77/40/34/5   250   NDIR       oxide (NO x )           (A411.72C)       (Ppm)       Paticulates   25/22/13.7/21    70   Weigh-capture       (mg/m 3 )           method                   (A101.72C)                  
 
         [0023]    
       
         
               
               
               
               
             
               
               
               
               
             
           
               
                 TABLE 2 
               
               
                   
               
               
                   
               
               
                 Analysis 
                 Test result (XLPE/ 
                 Taiwan 
                   
               
               
                 Item 
                 Transformer/Oil 
                 Published 
               
               
                 Unit: mg/L 
                 sludge) 
                 Standard 
                 Test method 
               
               
                   
               
             
             
               
                   
               
             
          
           
               
                 Total Arsenic 
                 0.01/ND/ND 
                 5.0 
                 NIEA-R318.10C 
               
               
                 Total Mercury 
                 ND/ND/0.2 
                 0.2 
                 NIEA-R314.11C 
               
               
                 Total Cadmium 
                 0.03/ND/0.033 
                 1.0 
                 NIEA-R306.11C 
               
               
                 Total Chromium 
                 ND/ND/0.07 
                 5.0 
                 NIEA-R306.11C 
               
               
                 Hexavalent 
                 ND/ND/ND 
                 2.5 
                 NIEA-R309.12C 
               
               
                 Chromium 
               
               
                 Total Copper 
                 0.41/ND/0.02 
                 15.0 
                 NIEA-R306.11C 
               
               
                 Total Lead 
                 21.2/ND/ND 
                 5.0 
                 NIEA-R306.11C 
               
               
                 Total Selenium 
                 ND/ND/ND 
                 1.0 
                 NIEA-R300.10C 
               
               
                   
               
             
          
         
       
     
         [0024]     In summary, the present invention provides a method of utilizing a catalytic reaction to recycle organic scrap, wherein via the special cracking equipment, the special catalyst and the two-stage cracking process disclosed in the present invention, not only the yield rate of the regenerated oil recycled from waste thermoplastic plastic, waste rubber, waste oil sludge, etc. can be increased, but also the quality of the regenerated oil and the utilization rate of the cracking equipments are greatly promoted. Besides, the low cracking temperature used by the present invention not only can save energy, processing cost, and equipment cost but also can promote safety. Furthermore, the present invention is free from secondary pollution and meets environmental requirements.  
         [0025]     What the present invention can process includes: plastic, rubber, the mixture of plastic and rubber, and the scraps other technologies cannot process, such as oil bottles, oil tanks, composite materials, grease-containing cables, the mixture of automobile parts, and thermosetting resin-containing elements and parts of high-voltage systems (including: transformers, potential transformers, current transformers, and high-voltage cables). Furthermore, the present invention can also be used to process oil shale, oil sand, oil sludge, optical fiber, etc., to exploit new energy source.  
         [0026]     Those embodiments described above are to clarify the present invention; however, it is not intended to limit the scope of the present invention, and any equivalent variation and modification according to the spirit of the present invention is to be also included within the scope of the present invention. The claims of the present invention are to be stated below.