TH67665B - Mercury removal - Google Patents

Abstract

------ 24/08/2018 ------ (OCR) page 1 of number 1 page summary of operation Mercury sorbents include metal sulphides, substrates, binders. And the second binder Where the aforementioned binder is a cement-type binder and a binder. This second inductor is a high ratio binder with a characteristic ratio greater than 2, and the mercury removal process combines with the impregnation of mercury in contact with the adsorbent. As described above, ------------ Mercury sorbent containing metal sulphites, substrate, first binder. And the second binder Where this first binder is a cement-type binder and a binder. The second is a high ratio binding agent with a characteristic ratio greater than 2 and a mercury removal process, which consists of a feed flow in which mercury comes into contact with the adsorbent. The above has been described

Claims (8)

Disclaimer (all) which will not appear on the advertisement page. : ------ 24/08/2018 ------ (OCR) Page 1 of 3 pages Disclaimer 1. Mercury adsorbents containing particles containing iron sulphides, Copper or nickel, a support material selected from metal oxides. And hydrated oxides, strong bonding agents And the second binder is a cement-type binder, and the second binder is a high-characteristic aluminosilicate clay binder with Characteristic ratio greater than 2. 2. Adsorbent according to claim 1, which hides this support material is alumina. Or alumina through 3. The absorbent according to claim 1 or claim No. 2 at the age of the binding agent is the substance. Cement bonding agent of calcium aluminate 4. Absorbent according to Clause 1 to 3 of any of the following. Where this second binder is Attapulkite Clay 5. Absorbent according to Clause 1 to 4. The relative content of this second and second binding binder is in the range 2: 1 to 3: 1 (binder to second binder). Any Clause 1 to 5 Remedial Debt consists of a procedure for (i) the assembly of iron, copper or nickel compounds that can cause Metal sulphides, selective substrates from metal oxides. And hydrated oxides, strong bonding agents And a second binder in an aqueous state to form the sorbent pretreatment material, (ii) drying for this sorbent pretreatment material, and (iii) desulfurization. The premise of precursor materials to form metal sulphides from the resulting iron, copper or nickel compounds. The binding agent is cement-based binder. And the second binder It is a high characteristic aluminosilicate clay binder with a characteristic ratio greater than 2 p. 2 of 3 p. 7. Method according to claim 6 where the compound of iron, copper or Nickel that can This metal sulphide was assembled with a substrate, a strong binder and a second binder in the presence of water in the granulators. 8. Method according to claim No. 6 or Clause 7 that the sulphdation process is adopted by Performing a selective reaction of sulfur compounds from hydrogen sulfide, carbonyl sulfide, mercaptan and potisulfide to iron, copper or nickel compounds that can form. The metal sulphides in the precursor material, the dry sorbent, can be. 9. The mercury removal process consists of the impregnation of mercury in contact with the substance. Absorb according to any claim 1 to 5. Obligations D 1 0. Precursor mercury sorbent particles containing iron, copper or nickel compounds that can form sulfides. Of metals when treated with sulfur compounds, a substrate selected from an oxide material And hydrated oxides, strong bonding agents And the second binder, which is the second binder, is cement type binder and The second binder is a high ratio aluminosilicate clay binder with Aspect ratios greater than 2 1. 1. Prikerscher mercury absorbent according to claim 10, wherein this support material is alumina or hydrated alumina 1 2. Precursor mercury absorbent according to Clause 10 or Clause 11 where the binding agent is a cementitious binder of calcium aluminate 1 3.Precursor mercury adsorbent according to Clause 10 to 12, any claim Where this second binder is Attapulkite Clay 1 4. The mercury removal process consists of a stream of mercury in contact with the adsorbent. They contain sulfides of metals that can absorb mercury. And where this absorbent is formed by The exposure at the beginning of the pre-cursor consists of iron, copper or nickel compounds that can form metal sulphides, selectable substrates from hydrated oxides and oxides. Already, binder And the second binder to the current that has Sulfur compound, where the binding agent is Cement-type binder and page 3 of 3-page binder. The second binder is aluminosilicate clay binder with high characteristic ratio. Characteristic ratios greater than 2 ------------ 1. Particulate mercury adsorbent consisting of metal sulphides, the first binder support material of the second binder where the binder. The first one is the binder The cement type and the second binder are high characteristic binder with high ratio Characteristics greater than 2. 2. Absorbent according to claim 1, where the sulfide of this metal is iron, copper or nickel sulfide. 3. The absorbent according to Clause 1 to 2. One where this support material is alumina or Hydrated alumina 4. Adsorbent according to Clause 1 to 3 of which this first binder is Cement binder of calcium aluminate 5. Adsorbent according to Clause 1 to 4, any one where this second binder is Aluminosilicate Clay 6. Adsorbent according to Clause 1 to 5 of which the second binder is Attapulkite Clay 7. Adsorbent according to Clause 1 to 6, where the relative content of the binder The first and second are in the range 2; 1 to 3; 1 (first binder to second binder). 8. Methods for making mercury adsorbent according to any claim 1 to 7. Which constitutes Combined with the procedure of (i) the metal sulphide-forming metal compound is combined with the substrate, the first binder and the second binder in a watery state to form the precursor material. Particle type sorbent, (ii) drying for this sorbent precursor material, and (iii) sulphidation of the precursor material to form metal sulphides from the compound. Metal where this first binder is cement type binder and this second binder It is a high-characteristic binder with a characteristic ratio greater than 2. 9. Method according to claim 8, where metal compounds capable of forming sulfides of this metal Were assembled with substrate, first binder and second binder in a watery state. In the granulator 1 0. Any method of claim 8 or 9. Where this sulphidation procedure is performed by Conducted a selective reaction of sulfur compounds from hydrogen sulphide, carbonyl sulfide, mercaptan and polysulfide to metal compounds that can form metal sulphides in Dry absorbent pre-cursor material 1 1. a mercury removal process, which consists of an input current in which mercury is in contact with Absorbent according to claim 1 to 7, any one or prepared according to claim 8 to 10, any one. 2. Pre-cursor A particle-type mercury-absorbing agent containing a metal compound capable of Metal sulphides can be formed when dealing with sulfur compounds, backing material, first binder. And the second binder Where this first binder is a cementitious binder and a binder that These two are high characteristic ratio binders with characteristic ratios greater than 1. 3. Pre-cursor mercury absorbent according to claim 12, where metal compounds that can The sulfide of a metal is obtained when treated with this sulfur compound as a compound of iron, copper or nickel. 4. mercury absorbent pre-cursor in accordance with Clause 12 or 13. Where this support material Is alumina or hydrated alumina 1 5. Mercury absorbent pre-cursor in accordance with Clause 12 or 14, binder first. This is a cementitious binder of calcium aluminate 1. 6. mercury absorbent pre-cursor in accordance with Clause 12 or 15, which binder These two are aluminosilicate clay 1. 7. mercury absorbent pre-cursor in accordance with Clause 12 or 16, which binder These two are Attack Clay 1. 8. The mercury elimination process consists of a feeder which is exposed to Sorbent containing metal sulfides capable of absorbing mercury and where the sorbent is formed. It is formed by exposure of a pre-cursor consisting of a metal compound that can form metal sulphides, a backing, a first binder and a second binder in contact with the current one with Sulfur compounds Where the first binder is a cement-type binder and This second binder is a high characteristic ratio binder with a characteristic ratio greater than 2.