Process to enhance mixing of dry sorbents and flue gas for air pollution control
First Claim
Patent Images
1. A method, comprising:
- introducing an additive to a contaminated gas stream to form an additive-containing gas stream, the additive at least partially removing or causing the removal of the contaminant;
passing the contaminated gas stream through an air heater to transfer thermal energy from the contaminated gas stream to air prior to introduction of the air into the thermal unit;
passing the additive-containing gas stream through a static mixing device, positioned in the gas stream, to form a mixed gas stream, wherein energy for mixing by the static mixing device is from a loss in pressure as the additive-containing gas stream flows through the static mixing device; and
removing, by a particulate control device, particulates from the mixed gas stream, wherein the particulates comprise at least some of the contaminant and/or a derivative thereof.
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Abstract
The disclosure provides an improved means of controlling mercury emissions from coal-fired boiler applications. Specifically, the disclosure comprises a static mixing device placed in the flue gas stream. The static mixing device can enhance dispersion of injected sorbents in the flue gas, resulting in improved mercury capture at a lower sorbent injection rate.
367 Citations
40 Claims
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1. A method, comprising:
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introducing an additive to a contaminated gas stream to form an additive-containing gas stream, the additive at least partially removing or causing the removal of the contaminant; passing the contaminated gas stream through an air heater to transfer thermal energy from the contaminated gas stream to air prior to introduction of the air into the thermal unit; passing the additive-containing gas stream through a static mixing device, positioned in the gas stream, to form a mixed gas stream, wherein energy for mixing by the static mixing device is from a loss in pressure as the additive-containing gas stream flows through the static mixing device; and removing, by a particulate control device, particulates from the mixed gas stream, wherein the particulates comprise at least some of the contaminant and/or a derivative thereof. - View Dependent Claims (5, 6, 11, 12, 13, 14, 15, 33)
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2. A method, comprising:
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introducing an additive to a contaminated gas stream to form an additive-containing gas stream, the additive at least partially removing or causing the removal of the contaminant; passing the additive-containing gas stream through a static mixing device, positioned in the gas stream, to form a mixed gas stream, wherein energy for mixing by the static mixing device is from a loss in pressure as the additive-containing gas stream flows through the static mixing device; and removing, by a particulate control device, particulates from the mixed gas stream, wherein the particulates comprise at least some of the contaminant and/or a derivative thereof, wherein the at least one contaminant comprises mercury, and wherein the additive is one or more of a halogen, halide, and powdered activated carbon. - View Dependent Claims (34)
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3. A method, comprising:
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introducing an additive to a contaminated gas stream to form an additive-containing gas stream, the additive at least partially removing or causing the removal of the contaminant; passing the additive-containing gas stream through a static mixing device, positioned in the gas stream, to form a mixed gas stream; and removing, by a particulate control device, particulates from the mixed gas stream, wherein the particulates comprise at least some of the contaminant and/or a derivative thereof and wherein the at least one contaminant comprises one or more of nitrogen oxides (NOx), sulfur oxides (SOx), hydrochloric acid (HC1), hydrogen sulfide, and hydrofluoric acid (HF) and wherein the additive is one or more of lime, an alkaline earth metal sesquicarbonate, an alkali metal sesquicarbonate, a metal oxide, an alkaline earth metal carbonate, an alkali earth metal carbonate, an alkaline earth metal bicarbonate, and an alkali earth metal bicarbonate.
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4. A method, comprising:
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introducing an additive to a contaminated gas stream to form an additive-containing gas stream, the additive at least partially removing or causing the removal of the contaminant; passing the additive-containing gas stream through a static mixing device, positioned in the gas stream, to form a mixed gas stream, wherein energy for mixing by the static mixing device is from a loss in pressure as the additive-containing gas stream flows through the static mixing device; and removing, by a particulate control device, particulates from the mixed gas stream, wherein the particulates comprise at least some of the contaminant and/or a derivative thereof and wherein a distance from an output of the static mixing device to an input of the downstream particulate control device is at least about one times the hydraulic diameter of a conduit positioned between the static mixing device and particulate control device. - View Dependent Claims (35)
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7. A method, comprising:
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introducing an additive to a contaminated gas stream to form an additive-containing gas stream, the additive at least partially removing or causing the removal of the contaminant; passing the additive-containing gas stream through a static mixing device, positioned in the gas stream, to form a mixed gas stream, wherein energy for mixing by the static mixing device is from a loss in pressure as the additive-containing gas stream flows through the static mixing device; and removing, by a particulate control device, particulates from the mixed gas stream, wherein the particulates comprise at least some of the contaminant and/or a derivative thereof and wherein a distance from a point of introduction of the additive into the contaminated gas stream to an input to the static mixing device is at least about one times the hydraulic diameter of a conduit positioned between the point of introduction and the input. - View Dependent Claims (36)
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8. A method, comprising:
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introducing an additive to a contaminated gas stream to form an additive-containing gas stream, the additive at least partially removing or causing the removal of the contaminant; passing the additive-containing gas stream through a static mixing device, positioned in the gas stream, to form a mixed gas stream, wherein energy for mixing by the static mixing device is from a loss in pressure as the additive-containing gas stream flows through the static mixing device; and removing, by a particulate control device, particulates from the mixed gas stream, wherein the particulates comprise at least some of the contaminant and/or a derivative thereof, wherein the additive is introduced into the contaminated gas stream downstream of an air heater, and wherein the static mixing device is positioned downstream of both the air heater and the point of introduction of the additive. - View Dependent Claims (9, 10, 37)
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16. A method, comprising:
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introducing an additive to a contaminated gas stream to form an additive-containing gas stream, the additive at least partially removing or causing the removal of the contaminant; passing the additive-containing gas stream through a static mixing device, positioned in the gas stream, to form a mixed gas stream, wherein energy for mixing by the static mixing device is from a loss in pressure as the additive-containing gas stream flows through the static mixing device; and removing, by a particulate control device, particulates from the mixed gas stream, wherein the particulates comprise at least some of the contaminant and/or a derivative thereof, wherein the additive comprises both an alkaline sorbent and a mercury capture sorbent, and wherein both the alkaline and mercury capture sorbents are introduced into the contaminated gas stream upstream of the static mixing device. - View Dependent Claims (38)
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17. A method, comprising:
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introducing an additive to a contaminated gas stream to form an additive-containing gas stream, the additive at least partially removing or causing the removal of the contaminant; passing the additive-containing gas stream through a static mixing device, positioned in the gas stream, to form a mixed gas stream, wherein energy for mixing by the static mixing device is from a loss in pressure as the additive-containing gas stream flows through the static mixing device; and removing, by a particulate control device, particulates from the mixed gas stream, wherein the particulates comprise at least some of the contaminant and/or a derivative thereof, wherein the static mixing device comprises an arrangement of substantially stationary mixing elements that induce turbulence in the additive-containing gas stream, wherein the mixing elements are one or more of static fan-type blades, baffles, and/or plates, wherein the additive-containing gas stream has substantially non-laminar flow, and wherein the static mixing device simultaneously causes flow division and radial mixing in the additive-containing gas stream, and wherein the arrangement of mixing elements comprises from about 1 to about 5 mixing elements. - View Dependent Claims (39)
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18. A contaminated gas treatment system, comprising:
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a thermal unit to combust a contaminated feed material and produce a contaminated gas stream; an air heater to transfer thermal energy from the contaminated gas stream to air prior to introduction of the air into the thermal unit; an additive injection system to introduce an additive into the contaminated gas stream, the additive controlling a contaminate level in a treated gas stream prior to discharge of the treated gas stream into the environment; a static mixing device positioned downstream of the additive injection system to form a mixed gas stream comprising a substantially homogeneous distribution of the additive in the mixed gas stream, wherein energy for mixing by the static mixing device is from a loss in pressure as the additive-containing gas stream flows through the static mixing device; and a downstream particulate control device to remove particulates from the mixed gas stream and form the treated gas stream. - View Dependent Claims (19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 40)
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Specification