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WNI dari Wuhan Tiba di Natuna, Kerusuhan Pecah
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WNI dari Wuhan Tiba di Natuna, Kerusuhan Pecah
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Suara.com - Ratusan WNI dari Wuhan, Provinsi Hubei, China yang sebelumnya transit di Batam saat ini telah tiba di Bandara Raden Sadjad, Ranai Kabupaten Natuna, Minggu (2/2/2020).
Dua pesawat milik TNI AU jenis Boeing 737 sudah mendarat Ranai. Dua pesawat mendarat pukul 11.22 WIB dan 11.05 WIB. Gelombang terakhir akan datang menggunakan Pesawat Hercules.
Ada sebanyak 238 WNI yang dievakuasi dari Wuhan, China. Mereka sebelumnya dijemput dengan Maskapai Batik Air dari Wuhan ke Batam. Dari Batam petugas yang dilengkapi dengan pakaian pengamanan memindahkan mereka menuju dua pesawat Boeing 737 milik TNI AU dan satu pesawat Hercules.
Para WNI evakuasi Wuhan memasuki hanggar Lanud Raden Sadjad Natuna.
Ratusan WNI dari Wuhan itu akan diobservasi di hanggar Lanud Raden Sadjad, Ranai Kabupaten Natuna yang direncanakan selama 14 hari. Di dalam hanggar sudah didirikan tenda dan peralatan medis.
Dari 245 WNI di Wuhan, sebanyak 238 yang dievakuasi, sisanya menolak dan ada yang sedang menjalani pemeriksaan kesehatan di Wuhan.
Sementara itu skema yang dijalankan dalam evakuasi ini, para WNI nantinya akan diobservasi selama 14 hari. Sedangkan kru pesawat yang bertugas dalam pemulangan WNI ini juga akan diobservasi selama 2 atau 3 hari.
Sementara itu, tak jauh bandara ratusan massa bentrok dengan aparat TNI menentang kedatangan WNI evakuasi di Wuhan. Massa yang khawatir dengan virus corona ini menjadi tak terkendali. Mereka dihantui terjangkit virus mematikan itu.
Demonstrasi pecah selama dua hari. Bahkan Minggu (2/2/2020) pagi, kerusuhan terjadi di dekat Bandara Raden Sadjad persisnya di depan Mako Lanal Ranai. Aksi massa rusuh menentang kedatangan evakuasi WNI Wuhan.
Sehari sebelumnya massa yang melakukan demonstrasi di Kantor DPRD Natuna sempat dijumpai oleh Menteri Kesehatan, Terawan Agus Putranto, Sabtu (1/2/2020) petang.
Menkes meminta warga untuk tidak khawatir. Ia memastikan ratusan WNI Wuhan yang akan dievakuasi ke Natuna tersebut tidak terinfeksi corona.
“Mereka itu sehat semua, Bapak-bapak Ibu-ibu jangan khawatir, mereka tidak terinfeksi penyakit corona,” ujarnya.
Dia juga menegaskan bahwa WHO telah menginstruksikan untuk tidak mengeluarkan Warga Negara Asing (WNA) dari China jika diketahui terinveksi corona
"Kami pun tidak sembarang berani menjemput dan menyambut mereka kalau memang mereka terinveksi,” ujar Menkes dihadapan massa.
Namun hal itu tak membuat penolakan massa berubah. Anggota DPRD Natuna Wan Aris Munandar mewakili warga.
Menurutnya warga Natuna yang sudah paranoid dengan corona memiliki dua opsi. "Tidak turun di Natuna atau dioservasi di kapal KRI," ujarnya.
Sumber: Batamnews.co.id (jaringan Suara.com)
https://www.suara.com/news/2020/02/0...erusuhan-pecah
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Keistimewaan tembaga (Cu+) melawan microbial (bakteri, virus, dst)
Antibiofouling
Main articles: Copper alloys in aquaculture and Copper sheathing
Copper is biostatic, meaning bacteria and many other forms of life will not grow on it. For this reason it has long been used to line parts of ships to protect against barnacles and mussels. It was originally used pure, but has since been superseded by Muntz metal and copper-based paint. Similarly, as discussed in copper alloys in aquaculture, copper alloys have become important netting materials in the aquaculture industry because they are antimicrobial and prevent biofouling, even in extreme conditions[116] and have strong structural and corrosion-resistant[117] properties in marine environments.
Antimicrobial
Main articles: Antimicrobial properties of copper and Antimicrobial copper-alloy touch surfaces
Copper-alloy touch surfaces have natural properties that destroy a wide range of microorganisms (e.g., E. coli O157:H7, methicillin-resistant Staphylococcus aureus (MRSA), Staphylococcus, Clostridium difficile, influenza A virus, adenovirus,and fungi).[118] Some 355 copper alloys[clarification needed] were proven to kill more than 99.9% of disease-causing bacteria within just two hours when cleaned regularly.[119] The United States Environmental Protection Agency (EPA) has approved the registrations of these copper alloys as "antimicrobial materials with public health benefits";[119] that approval allows manufacturers to make legal claims to the public health benefits of products made of registered alloys. In addition, the EPA has approved a long list of antimicrobial copper products made from these alloys, such as bedrails, handrails, over-bed tables, sinks, faucets, door knobs, toilet hardware, computer keyboards, health club equipment, and shopping cart handles (for a comprehensive list, see: Antimicrobial copper-alloy touch surfaces#Approved products). Copper doorknobs are used by hospitals to reduce the transfer of disease, and Legionnaires' disease is suppressed by copper tubing in plumbing systems.[120] Antimicrobial copper alloy products are now being installed in healthcare facilities in the U.K., Ireland, Japan, Korea, France, Denmark, and Brazil[citation needed] and in the subway transit system in Santiago, Chile, where copper-zinc alloy handrails will be installed in some 30 stations between 2011 and 2014.[121][122][123] Textile fibers can be blended with copper to create antimicrobial protective fabrics.[124]
https://en.m.wikipedia.org/wiki/Copper
The antimicrobial halo effect of copper surfaces Edit
Copper surfaces have an antimicrobial 'halo' effect on surrounding non-copper materials. This effect is also helpful in reducing the presence of bacteria in healthcare environments. Research implemented in the neonatal intensive care unit (ICU) at Aghia Sofia Children's Hospital in Greece showed that non-copper surfaces up to 50 centimeters from the antimicrobial copper surfaces exhibited a microbial reduction of 70% compared to surfaces not in such close proximity. The halo effect was first observed during trials at a U.S. outpatient clinic in 2010.[47]
https://en.m.wikipedia.org/wiki/Antimicrobial_copper-alloy_touch_surfaces
Quote:
Antibiofouling
Main articles: Copper alloys in aquaculture and Copper sheathing
Copper is biostatic, meaning bacteria and many other forms of life will not grow on it. For this reason it has long been used to line parts of ships to protect against barnacles and mussels. It was originally used pure, but has since been superseded by Muntz metal and copper-based paint. Similarly, as discussed in copper alloys in aquaculture, copper alloys have become important netting materials in the aquaculture industry because they are antimicrobial and prevent biofouling, even in extreme conditions[116] and have strong structural and corrosion-resistant[117] properties in marine environments.
Antimicrobial
Main articles: Antimicrobial properties of copper and Antimicrobial copper-alloy touch surfaces
Copper-alloy touch surfaces have natural properties that destroy a wide range of microorganisms (e.g., E. coli O157:H7, methicillin-resistant Staphylococcus aureus (MRSA), Staphylococcus, Clostridium difficile, influenza A virus, adenovirus,and fungi).[118] Some 355 copper alloys[clarification needed] were proven to kill more than 99.9% of disease-causing bacteria within just two hours when cleaned regularly.[119] The United States Environmental Protection Agency (EPA) has approved the registrations of these copper alloys as "antimicrobial materials with public health benefits";[119] that approval allows manufacturers to make legal claims to the public health benefits of products made of registered alloys. In addition, the EPA has approved a long list of antimicrobial copper products made from these alloys, such as bedrails, handrails, over-bed tables, sinks, faucets, door knobs, toilet hardware, computer keyboards, health club equipment, and shopping cart handles (for a comprehensive list, see: Antimicrobial copper-alloy touch surfaces#Approved products). Copper doorknobs are used by hospitals to reduce the transfer of disease, and Legionnaires' disease is suppressed by copper tubing in plumbing systems.[120] Antimicrobial copper alloy products are now being installed in healthcare facilities in the U.K., Ireland, Japan, Korea, France, Denmark, and Brazil[citation needed] and in the subway transit system in Santiago, Chile, where copper-zinc alloy handrails will be installed in some 30 stations between 2011 and 2014.[121][122][123] Textile fibers can be blended with copper to create antimicrobial protective fabrics.[124]
https://en.m.wikipedia.org/wiki/Copper
Quote:
The antimicrobial halo effect of copper surfaces Edit
Copper surfaces have an antimicrobial 'halo' effect on surrounding non-copper materials. This effect is also helpful in reducing the presence of bacteria in healthcare environments. Research implemented in the neonatal intensive care unit (ICU) at Aghia Sofia Children's Hospital in Greece showed that non-copper surfaces up to 50 centimeters from the antimicrobial copper surfaces exhibited a microbial reduction of 70% compared to surfaces not in such close proximity. The halo effect was first observed during trials at a U.S. outpatient clinic in 2010.[47]
https://en.m.wikipedia.org/wiki/Antimicrobial_copper-alloy_touch_surfaces
Diubah oleh daimond25 02-02-2020 06:36
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