TWM545785U - Photocatalyst filter module and photocatalyst structure thereof - Google Patents
Photocatalyst filter module and photocatalyst structure thereof Download PDFInfo
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- TWM545785U TWM545785U TW106203780U TW106203780U TWM545785U TW M545785 U TWM545785 U TW M545785U TW 106203780 U TW106203780 U TW 106203780U TW 106203780 U TW106203780 U TW 106203780U TW M545785 U TWM545785 U TW M545785U
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本創作是有關於一種光觸媒結構,且特別是有關於一種光觸媒濾淨模組及其光觸媒結構。 The present invention relates to a photocatalyst structure, and in particular to a photocatalyst filter module and a photocatalyst structure thereof.
隨著科技、工業發展,空氣中的有機化學成分、有毒廢氣、病菌微生物等有害物質,已逐漸影響人類的身體健康。因此,市面上出現一種光觸媒空氣淨化裝置,利用二氧化鈦(TiO2)、氧化鋅(ZnO)、氧化錫(SnO2)、二氧化鋯(ZrO2)等氧化物及硫化鎘(CdS)、硫化鋅(ZnS)等光觸媒本身特性進行消毒、殺菌及除臭之功效。 With the development of science and technology and industry, harmful organic substances such as organic chemical components, toxic exhaust gases, and pathogenic microorganisms in the air have gradually affected human health. Therefore, there is a photocatalyst air purification device on the market that utilizes oxides such as titanium dioxide (TiO 2 ), zinc oxide (ZnO), tin oxide (SnO 2 ), zirconium dioxide (ZrO 2 ), and cadmium sulfide (CdS), zinc sulfide. Photocatalysts such as (ZnS) have the functions of disinfection, sterilization and deodorization.
光觸媒一經UV光照,原料中的電子(e-)便會從價電子帶(Valence Band)躍遷至傳導帶(Conduction Band)並脫離,光觸媒表面流失(e-)形成電子電洞(h+)。當污染物、病菌微生物等有機物質(碳氫化合物)接觸到光觸媒表面時,便會和氫自由基及氫氧自由基結合,自由基會從其他的有機物搶走電子,而被搶走電子的有機物會因為失去鍵結能力(Valence)而降解成為更小的分子(如二氧化碳、水),進而達到潔淨室內空氣之目的。 Once the photocatalyst is UV-irradiated, the electrons (e-) in the raw material will transition from the Valence Band to the Conduction Band and the photocatalyst surface will be lost (e-) to form an electron hole (h+). When organic substances (hydrocarbons) such as pollutants and pathogenic microorganisms come into contact with the surface of the photocatalyst, they will combine with hydrogen radicals and hydroxyl radicals. Free radicals will steal electrons from other organic substances and be taken away by electrons. Organic matter can be degraded into smaller molecules (such as carbon dioxide, water) due to the loss of bonding power (Valence), thereby achieving the purpose of clean indoor air.
然而,習知的光觸媒多附著於網狀、柵欄狀載體或一通道的表面上,當UV光進行照射觸動光觸媒進行如上述之氧化還原反應(Redox Reaction)時,光觸媒載體會因結構上的關係,造成UV光照射上產生死角,且光線因僅能 直線照射,使UV光源不能充分的運用,導致通過的空氣被淨化的效率將會大幅降低。 However, conventional photocatalysts are mostly attached to the surface of a mesh, a fence-like carrier or a channel. When the UV light is irradiated to the photocatalyst to perform a redox reaction as described above, the photocatalyst carrier may be structurally related. , causing a dead angle on the UV light, and the light can only Straight line illumination makes the UV light source not fully utilized, and the efficiency of purifying the passing air will be greatly reduced.
有鑑於此,本創作人遂針對上述現有技術,特潛心研究並配合學理的運用,盡力解決上述之問題點,即成為本創作人改良之目標。 In view of this, the creator has made great efforts to solve the above problems by focusing on the above-mentioned prior art, and has devoted himself to the application of the theory, that is, the goal of the creator's improvement.
本創作提供一種光觸媒濾淨模組及其光觸媒結構,其係利用光源對應光觸媒結構照射時,載體之反射面會產生光線反射作用,讓UV光隨著反射面而重複反射至光觸媒微粒,進而提升光觸媒結構之使用效率,以達到潔淨室內空氣之目的。 The present invention provides a photocatalyst filter module and a photocatalyst structure thereof, wherein when the light source is irradiated with the photocatalyst structure, the reflective surface of the carrier generates a light reflection effect, so that the UV light is repeatedly reflected to the photocatalyst particles along the reflective surface, thereby enhancing The use efficiency of the photocatalyst structure to achieve the purpose of clean indoor air.
於本創作實施例中,本創作係提供一種光觸媒結構,包括:一載體,具有一反射面;以及複數光觸媒微粒,結合在該反射面上。 In the present invention, the present invention provides a photocatalyst structure comprising: a carrier having a reflective surface; and a plurality of photocatalyst particles bonded to the reflective surface.
於本創作實施例中,本創作係提供一種光觸媒濾淨模組,包括:一殼體,具有一氣流通道;至少一如上述之光觸媒結構,容置於該氣流通道;以及複數光源,安裝於該殼體且對應該光觸媒結構配置。 In the present invention, the present invention provides a photocatalyst filter module, comprising: a casing having an air flow passage; at least one photocatalyst structure as described above, being accommodated in the air flow passage; and a plurality of light sources installed on The housing is configured corresponding to the photocatalyst structure.
100‧‧‧光觸媒濾淨模組 100‧‧‧Photocatalyst filter module
10‧‧‧光觸媒結構 10‧‧‧Photocatalyst structure
1、1’‧‧‧載體 1, 1' ‧ ‧ carrier
11‧‧‧反射面 11‧‧‧reflecting surface
12、12’‧‧‧外表面 12, 12' ‧ ‧ outer surface
13‧‧‧反射層 13‧‧‧reflective layer
14‧‧‧孔隙 14‧‧‧ pores
2‧‧‧光觸媒微粒 2‧‧‧Photocatalyst particles
3‧‧‧多邊形塊體 3‧‧‧ Polygonal block
4‧‧‧圓球形塊體 4‧‧‧Spherical blocks
5‧‧‧柱狀形塊體 5‧‧‧columnar block
6‧‧‧薄板狀片體 6‧‧‧Sheet-like sheet
20‧‧‧殼體 20‧‧‧shell
201‧‧‧氣流通道 201‧‧‧Air passage
202‧‧‧內環壁 202‧‧‧ Inner Ring Wall
30‧‧‧光源 30‧‧‧Light source
40‧‧‧風扇 40‧‧‧Fan
s、s’、s”‧‧‧透氣間隙 s, s’, s” ‧ ‧ venting clearance
圖1 係本創作光觸媒結構第一實施例之剖面示意圖。 BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic cross-sectional view showing a first embodiment of a photocatalyst structure.
圖2 係本創作光觸媒濾淨模組之剖面示意圖。 Figure 2 is a schematic cross-sectional view of the photocatalyst filter module.
圖3 係本創作光觸媒結構第二實施例之剖面示意圖。 3 is a schematic cross-sectional view showing a second embodiment of the photocatalyst structure.
圖4 係本創作光觸媒結構第三實施例之剖面示意圖。 4 is a schematic cross-sectional view showing a third embodiment of the present photocatalyst structure.
圖5 係本創作光觸媒結構第四實施例之剖面示意圖。 Figure 5 is a cross-sectional view showing a fourth embodiment of the photocatalyst structure.
圖6 係本創作光觸媒結構第五實施例之剖面示意圖。 Figure 6 is a cross-sectional view showing a fifth embodiment of the photocatalyst structure of the present invention.
圖7 係本創作光觸媒結構第六實施例之剖面示意圖。 Figure 7 is a cross-sectional view showing a sixth embodiment of the present photocatalyst structure.
有關本創作之詳細說明及技術內容,將配合圖式說明如下,然而所附圖式僅作為說明用途,並非用於侷限本創作。 The detailed description and technical content of the present invention will be described below in conjunction with the drawings, but the drawings are for illustrative purposes only and are not intended to limit the present invention.
請參考圖1至圖2所示,本創作係提供一種光觸媒濾淨模組及其光觸媒結構之第一實施例,此光觸媒結構10主要包括一載體1及複數光觸媒微粒2;光觸媒濾淨模組100包括一殼體20、一或複數光觸媒結構10及複數光源30。 Referring to FIG. 1 to FIG. 2, the present invention provides a photocatalyst filter module and a photocatalyst structure thereof. The photocatalyst structure 10 mainly includes a carrier 1 and a plurality of photocatalyst particles 2; a photocatalyst filter module 100 includes a housing 20, a plurality or photocatalyst structures 10, and a plurality of light sources 30.
如圖1所示,載體1具有一反射面11,詳細說明如下,載體1具有一外表面12,外表面12披覆有一反射層13,反射面11形成在反射層13遠離載體1的表面上。其中,載體1的材質可為陶瓷、金屬或塑膠,其中陶瓷材質本身具有多孔特性,反射層13的材質可為反射漆、玻璃、玻璃陶瓷、透明石英或高反射陶瓷。 As shown in Fig. 1, the carrier 1 has a reflecting surface 11, which is described in detail below. The carrier 1 has an outer surface 12, the outer surface 12 is covered with a reflective layer 13, and the reflecting surface 11 is formed on the surface of the reflecting layer 13 away from the carrier 1. . The material of the carrier 1 may be ceramic, metal or plastic, wherein the ceramic material itself has porous characteristics, and the material of the reflective layer 13 may be reflective paint, glass, glass ceramic, transparent quartz or highly reflective ceramic.
另外,本實施例之載體1具有複數孔隙14,但不以此為限制,若載體1具有複數孔隙14,則外表面12形成在載體1的外壁及孔隙14的內壁上;若載體1不具有複數孔隙14,則外表面12僅形成在載體1的外壁上。 In addition, the carrier 1 of the present embodiment has a plurality of apertures 14, but is not limited thereto. If the carrier 1 has a plurality of apertures 14, the outer surface 12 is formed on the outer wall of the carrier 1 and the inner wall of the aperture 14; With a plurality of apertures 14, the outer surface 12 is formed only on the outer wall of the carrier 1.
如圖1所示,複數光觸媒微粒2結合在反射面11上,光觸媒微粒2可為氧化鈦(TiO2)微粒、氧化鋅(ZnO)微粒、氧化錫(SnO2)微粒、二氧化鋯(ZrO2)微粒等氧化物及硫化鎘(CdS)微粒或硫化鋅(ZnS)微粒。 As shown in FIG. 1, a plurality of photocatalyst particles 2 are bonded to a reflecting surface 11, and the photocatalyst particles 2 may be titanium oxide (TiO 2 ) particles, zinc oxide (ZnO) particles, tin oxide (SnO 2 ) particles, and zirconium dioxide (ZrO). 2 ) Oxide oxides and cadmium sulfide (CdS) particles or zinc sulfide (ZnS) particles.
如圖2所示,殼體20具有一氣流通道201及設置在氣流通道201內部的一內環壁202;上述一或複數光觸媒結構10容置於氣流通道201。 As shown in FIG. 2, the housing 20 has an air flow passage 201 and an inner ring wall 202 disposed inside the air flow passage 201. The one or more photocatalyst structures 10 are received in the air flow passage 201.
如圖2所示,複數光源30安裝於殼體20且對應光觸媒結構10配置,進一步說明如下,複數光源30固置於內環壁202,光源30用於產生UV光以照射光觸媒結構10。 As shown in FIG. 2, the plurality of light sources 30 are mounted to the housing 20 and are disposed corresponding to the photocatalyst structure 10. As further described below, the plurality of light sources 30 are fixed to the inner ring wall 202, and the light source 30 is used to generate UV light to illuminate the photocatalyst structure 10.
如圖2所示,本創作光觸媒濾淨模組10更包括一風扇40,風扇40設置在氣流通道201的一側,風扇40用於導引氣流流通於氣流通道201及孔隙14。 As shown in FIG. 2, the photocatalyst filter module 10 further includes a fan 40. The fan 40 is disposed at one side of the airflow channel 201, and the fan 40 is configured to guide the airflow to the airflow channel 201 and the aperture 14.
如圖1至圖2所示,本創作光觸媒濾淨模組100及光觸媒結構10之組合,其係利用殼體20具有氣流通道201;光觸媒結構10容置於氣流通道201,光觸媒結構10包含載體1及複數光觸媒微粒2,載體1具有反射面11;複數光觸媒微粒2結合在反射面11上;複數光源30安裝於殼體20且對應光觸媒結構10配置。 As shown in FIG. 1 to FIG. 2, the combination of the photocatalyst filter module 100 and the photocatalyst structure 10 has a gas flow channel 201 through the housing 20; the photocatalyst structure 10 is received in the gas flow channel 201, and the photocatalyst structure 10 comprises a carrier. 1 and a plurality of photocatalyst particles 2, the carrier 1 has a reflecting surface 11; a plurality of photocatalyst particles 2 are bonded to the reflecting surface 11; and a plurality of light sources 30 are mounted on the casing 20 and disposed corresponding to the photocatalyst structure 10.
如圖1至圖2所示,本創作光觸媒濾淨模組100及光觸媒結構10之使用狀態,其係利用光觸媒結構10容置於氣流通道201,風扇40導引氣流流通於氣流通道201及孔隙14,光觸媒結構10之載體1具有反射面11,光觸媒微粒2結合在反射面11上,當光源30對應光觸媒結構10照射時,載體1之反射面11會產生光線反射作用,讓UV光隨著反射面11而重複反射至光觸媒微粒2,進而提升光觸媒結構10之使用效率,更激發光觸媒微粒2快速進行氧化還原反應(Redox Reaction),以催化空氣中的污染物、病菌微生物等有機物質(碳氫化合物)之電子,而被搶走電子的污染物、病菌微生物等有機物質(碳氫化合物)會因為失去鍵結能力(Valence)而降解成為更小的分子(如二氧化碳、水),以達到潔淨室內空氣之目的。 As shown in FIG. 1 to FIG. 2, the state of use of the photocatalyst filter module 100 and the photocatalyst structure 10 is accommodated in the airflow channel 201 by the photocatalyst structure 10, and the fan 40 guides the airflow to flow through the airflow channel 201 and the aperture. 14. The carrier 1 of the photocatalyst structure 10 has a reflective surface 11 on which the photocatalyst particles 2 are bonded. When the light source 30 is irradiated to the photocatalyst structure 10, the reflective surface 11 of the carrier 1 generates a light reflection effect, so that the UV light follows The reflective surface 11 is repeatedly reflected to the photocatalyst particles 2, thereby improving the use efficiency of the photocatalyst structure 10, and further exciting the photocatalyst particles 2 to undergo a redox reaction to catalyze airborne pollutants, pathogenic microorganisms and other organic substances (carbon). The electrons of hydrogen compounds, and the organic substances (hydrocarbons) such as pollutants and pathogenic microorganisms that are stolen by electrons are degraded into smaller molecules (such as carbon dioxide and water) due to the loss of bonding power (Valence). The purpose of clean indoor air.
另外,反射面11形成在載體1的外壁及孔隙14的內壁上,因反射面11本身較光滑,所以載體1的外壁及孔隙14的內壁也較不易附著髒汙,使光觸媒濾淨模組100及光觸媒結構10具有易於清洗及重覆使用之特點。 In addition, the reflecting surface 11 is formed on the outer wall of the carrier 1 and the inner wall of the aperture 14. Since the reflecting surface 11 itself is relatively smooth, the outer wall of the carrier 1 and the inner wall of the aperture 14 are also less likely to adhere to the dirt, so that the photocatalyst filter is cleaned. Group 100 and photocatalytic structure 10 are characterized by ease of cleaning and repeated use.
請參考圖3至圖4所示,係本創作光觸媒結構2之第二、第三實施例,圖3至圖4之實施例與圖1至圖2之實施例大致相同,但圖3至圖4之實施例與 圖1至圖2之實施例不同之處在於光觸媒結構10的數量為複數,且複數載體1相互任意堆疊設置。 Please refer to FIG. 3 to FIG. 4 , which are the second and third embodiments of the photocatalyst structure 2 . The embodiments of FIGS. 3 to 4 are substantially the same as the embodiments of FIGS. 1 to 2 , but FIG. 3 to FIG. 4 examples and The embodiment of FIGS. 1 to 2 differs in that the number of photocatalyst structures 10 is plural, and the plurality of carriers 1 are arbitrarily stacked on each other.
詳細說明如下,每一載體1可為一多邊形塊體3、一圓球形塊體4、一柱狀形塊體、一管狀形塊體、一環形塊體、一錐形塊體或一薄板狀片體等幾何形體,複數載體1相互任意堆疊設置在氣流通道201(請參照圖2所示),從而在複數載體1之間形成有一透氣間隙s,氣流利用透氣間隙s而流通過氣流通道201。藉此,以達到相同於圖1至圖2之實施例的功能及優點。 DETAILED DESCRIPTION As follows, each carrier 1 can be a polygonal block 3, a spherical block 4, a column-shaped block, a tubular block, an annular block, a tapered block or a thin plate. The plurality of carriers 1 are arbitrarily stacked on each other in the air flow passage 201 (refer to FIG. 2), so that a gas permeable gap s is formed between the plurality of carriers 1, and the air flow flows through the air flow passage 201 by the gas permeable gap s. Thereby, the functions and advantages similar to the embodiment of FIGS. 1 to 2 are achieved.
請參考圖5所示,係本創作光觸媒結構2之第四實施例,圖5之實施例與圖1至圖2之實施例大致相同,但圖5之實施例與圖1至圖2之實施例不同之處在於光觸媒結構10的數量為複數,且複數載體1相互間隔排列設置。 Please refer to FIG. 5 , which is a fourth embodiment of the photocatalyst structure 2 . The embodiment of FIG. 5 is substantially the same as the embodiment of FIG. 1 to FIG. 2 , but the embodiment of FIG. 5 and the implementation of FIG. 1 to FIG. 2 . The difference is that the number of photocatalyst structures 10 is plural, and the plurality of carriers 1 are arranged at intervals.
進一步說明如下,每一載體1可為一柱狀形塊體5或一管狀形塊體,複數柱狀形塊體5相互間隔排列設置在氣流通道201(請參照圖2所示),從而在複數載體1之間形成有一透氣間隙s’,氣流利用透氣間隙s’而流通過氣流通道201。藉此,以達到相同於圖1至圖2之實施例的功能及優點。 Further, as follows, each of the carriers 1 may be a columnar block 5 or a tubular block, and the plurality of columnar blocks 5 are arranged at intervals in the air flow passage 201 (refer to FIG. 2), thereby A gas permeable gap s' is formed between the plurality of carriers 1, and the gas flow flows through the gas flow passage 201 by the gas permeable gap s'. Thereby, the functions and advantages similar to the embodiment of FIGS. 1 to 2 are achieved.
請參考圖6所示,係本創作光觸媒結構2之第五實施例,圖6之實施例與圖1至圖2之實施例大致相同,但圖6之實施例與圖1至圖2之實施例不同之處在於光觸媒結構10的數量為複數,且複數載體1相互層疊排列設置。 Please refer to FIG. 6 , which is a fifth embodiment of the photocatalyst structure 2 . The embodiment of FIG. 6 is substantially the same as the embodiment of FIG. 1 to FIG. 2 , but the embodiment of FIG. 6 and the implementation of FIG. 1 to FIG. 2 . The difference is that the number of photocatalyst structures 10 is plural, and the plurality of carriers 1 are arranged one on another.
詳細說明如下,每一載體1為一薄板狀片體6,複數薄板片體6相互層疊排列設置在氣流通道201(請參照圖2所示),從而在彼此相對設置的複數孔隙14之間形成有一透氣間隙s”(因相對的孔隙14相互連通而形成透氣間隙s”),氣流利用透氣間隙s”而流通過氣流通道201。藉此,以達到相同於圖1至圖2之實施例的功能及優點。 DETAILED DESCRIPTION As follows, each carrier 1 is a thin plate-like sheet body 6, and a plurality of thin plate sheets 6 are stacked one on another in an air flow passage 201 (refer to FIG. 2) so as to be formed between a plurality of apertures 14 disposed opposite each other. There is a gas permeable gap s" (because the opposing pores 14 communicate with each other to form a gas permeable gap s"), and the gas stream flows through the gas flow passage 201 using the gas permeable gap s". Thereby, to achieve the same embodiment as the embodiment of FIGS. Features and benefits.
請參考圖7所示,係本創作光觸媒結構2之第六實施例,圖7之實施例與圖1至圖2之實施例大致相同,但圖7之實施例與圖1至圖2之實施例不同之處在於載體1’本身為一高反射體或一透光體。 Please refer to FIG. 7 , which is a sixth embodiment of the photocatalyst structure 2 . The embodiment of FIG. 7 is substantially the same as the embodiment of FIG. 1 to FIG. 2 , but the embodiment of FIG. 7 and the implementation of FIG. 1 to FIG. 2 . The difference is that the carrier 1' itself is a high reflector or a light transmissive body.
進一步說明如下,載體1’的材質為玻璃、玻璃陶瓷或透明石英等高反射體,所以圖7之載體1’不需要披覆一層反射層,載體1’之外表面12即自然具備有光線反射作用,使反射面11直接形成在載體1’的外表面12’上,讓UV光隨著反射面11而重複反射至光觸媒微粒2。藉此,以達到相同於圖1至圖2之實施例的功能及優點。 Further, as follows, the carrier 1' is made of a high reflector such as glass, glass ceramic or transparent quartz, so that the carrier 1' of FIG. 7 does not need to be covered with a reflective layer, and the outer surface 12 of the carrier 1' is naturally provided with light reflection. Acting, the reflecting surface 11 is directly formed on the outer surface 12' of the carrier 1', and the UV light is repeatedly reflected to the photocatalyst particles 2 along with the reflecting surface 11. Thereby, the functions and advantages similar to the embodiment of FIGS. 1 to 2 are achieved.
綜上所述,本創作之光觸媒濾淨模組及其光觸媒結構,確可達到預期之使用目的,而解決習知之缺失,並具有產業利用性、新穎性與進步性,完全符合新型專利申請要件,爰依專利法提出申請,敬請詳查並賜准本案專利,以保障創作人之權利。 In summary, the photocatalyst filter module and its photocatalyst structure of the present invention can achieve the intended use purpose, and solve the lack of conventional knowledge, and have industrial utilization, novelty and progress, and fully comply with the requirements of the new patent application. If you apply for an application under the Patent Law, please check and grant the patent in this case to protect the rights of the creator.
100‧‧‧光觸媒濾淨模組 100‧‧‧Photocatalyst filter module
10‧‧‧光觸媒結構 10‧‧‧Photocatalyst structure
1‧‧‧載體 1‧‧‧ Carrier
11‧‧‧反射面 11‧‧‧reflecting surface
12‧‧‧外表面 12‧‧‧ outer surface
13‧‧‧反射層 13‧‧‧reflective layer
14‧‧‧孔隙 14‧‧‧ pores
2‧‧‧光觸媒微粒 2‧‧‧Photocatalyst particles
3‧‧‧多邊形塊體 3‧‧‧ Polygonal block
20‧‧‧殼體 20‧‧‧shell
201‧‧‧氣流通道 201‧‧‧Air passage
202‧‧‧內環壁 202‧‧‧ Inner Ring Wall
30‧‧‧光源 30‧‧‧Light source
40‧‧‧風扇 40‧‧‧Fan
Claims (10)
Priority Applications (2)
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TW106203780U TWM545785U (en) | 2017-03-17 | 2017-03-17 | Photocatalyst filter module and photocatalyst structure thereof |
CN201720299134.7U CN206823541U (en) | 2017-03-17 | 2017-03-24 | Photocatalyst filtering module and photocatalyst structure thereof |
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TW106203780U TWM545785U (en) | 2017-03-17 | 2017-03-17 | Photocatalyst filter module and photocatalyst structure thereof |
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TWM545785U true TWM545785U (en) | 2017-07-21 |
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TW (1) | TWM545785U (en) |
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CN108844128A (en) * | 2018-07-11 | 2018-11-20 | 芜湖帮许来诺医疗设备科技有限公司 | A kind of isolation ward air cleaning unit |
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2017
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