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Air purifier test report, the test items are as follows

Purification performance:

Clean air volume (particulate matter, PM2.5, formaldehyde, benzene, ammonia, TVOC)

Cumulative purification amount (particulate matter, formaldehyde)

Power (purification energy efficiency, measured power, standby power)

noise

Debacterial performance (Staphylococcus albicans, Staphylococcus aureus, Escherichia coli, Serratia marcescens, Aspergillus niger, natural air bacteria, etc.)

Release of harmful substances (ozone, TVOC, PM10, UV, ozone 24-hour increment)

Non-standard items:

Removal rate (formaldehyde, benzene, inorganic gas (NO, NO2, CO, CO2, SO2) TVOC, particulate matter, PM0.1, PM2.5, PM10)

Ion concentration (positive ions, negative ion)

One-time pass efficiency (PM2.5)

Identification of bactericidal factor intensity (UV irradiation intensity)

Virus removal performance (phage)

blowing rate

Electrical safety regulations

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New review explores effective sampling techniques for collecting airborne viruses and ultrafine particles

https://sciencespies.com/environment/new-review-explores-effective-sampling-techniques-for-collecting-airborne-viruses-and-ultrafine-particles/

New review explores effective sampling techniques for collecting airborne viruses and ultrafine particles

As the world continues to grapple with the COVID-19 pandemic, an international team of researchers have published a review of the best techniques to collect airborne aerosols containing viruses.

In the review, which was published by the Science of the Total Environment journal, a team led by the University of Surrey concluded that the most effective way to collect and detect airborne pathogens, particularly viruses, was to use cyclone sampling techniques.

For example, the sampler draws the air through the cyclone separator. It then uses centrifugal forces to collect the particles on a sterile cone containing the liquid collection vessel, such as DMEM (Dulbecco’s minimal essential medium). The collected sample can then be readily used for any analysis for virus detection.

The research team hope that this wide-ranging review can serve as an information hub packed with the best methods and samplers involved in airborne virus collection.

The study is part of the INHALE project — an EPSRC funded project that aims to assess air pollution’s impact on personal health in urban environments. The project involves Imperial College London, the University of Surrey and the University of Edinburgh.

The INHALE team also reviewed effective techniques for capturing fine (PM2.5) and ultrafine (PM0.1) particles to understand their toxicity and their role on reactive oxygen species in cells, their elemental composition and carbon content. The team also set out to find the best solution to prevent samples from being destroyed, a common problem found in toxicological experiments that makes large sample collection challenging. The study concluded that Harvard impactor samplers could be used for both indoor and outdoor environments to effectively collect these fine and ultrafine samples.

Professor Prashant Kumar, lead author of the study and Founding Director of the Global Centre for Clean Air Research at the University of Surrey, said: “The scientific community will have to become more efficient and resourceful if we are to overcome foes such as airborne viruses and air pollution. Knowing the right tools to use — as well as how and where to use them — is crucial in our ongoing fight to make the air we breathe cleaner and safer for all.”

Professor Fan Chung, co-lead of INHALE from Imperial College London, said: “I am pleased that this timely review found support for the techniques that have been adopted in the INHALE research program. The collection of ultrafine particles is of particular importance because of the commonly found difficulties of collecting enough for toxicity studies. Ultimately, the success of INHALE will depend on the ability to capture enough of these fine and ultrafine particles as far as possible in their natural state.”

Professor Chris Pain, co-lead of INHALE from Imperial College London, said: “Understanding the application of these sampling techniques is hugely important for environmental and health research in general and for the INHALE project itself, particularly concerning collecting ultra-fine particles.”

This work was supported by the EPSRC INHALE (Health assessment across biological length scales for personal pollution exposure and its mitigation) project (EP/T003189/1).

Story Source:

Materials provided by University of Surrey. Note: Content may be edited for style and length.

#Environment

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強勁吸力，智慧偵測兼備！Dyson V15 Detect 系列在台推出，全機密封 HEPA 過濾讓室內沒有二次污染！

Dyson 今(1/4)日在台推出全新 Dyson V15 Detect，是 Dyson 迄今為止最強勁吸力智慧無線吸塵器 ！Dyson V15 Detect Absolute Extra 吸塵器配備「全機密封 HEPA 過濾系統及 HEPA 濾網」，可有效捕捉過濾 99.97% 小至 PM0.1 微米的超微粒和過敏原 ，將汙染物牢牢鎖住並排出更乾淨的空氣，防止清潔過程中對室內空氣造成二次汙染，打造真正全面高效的清潔體驗。   (more…)

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A combination of behavior change campaigns and technology could help to keep air pollution at a minimum in schools

https://sciencespies.com/environment/a-combination-of-behavior-change-campaigns-and-technology-could-help-to-keep-air-pollution-at-a-minimum-in-schools/

A combination of behavior change campaigns and technology could help to keep air pollution at a minimum in schools

Creating campaigns that tap the diverse community around many of the UK’s schools could help to keep air pollution low, especially as much of the country experiences the cost-of-living crisis, according to a new study from the University of Surrey.

Surrey’s Global Centre for Clean Air Research (GCARE) found that campaigns aimed at changing the behaviour of parents, teachers and the local community, such as ‘school street’, can reduce outdoor nitrogen dioxide exposure by up to 23 per cent compared to business-as-usual activities. However, the study’s authors believe behavioural change campaigns should be more inclusive and should consider the school’s diverse communities and the local population.

Professor Prashant Kumar, the corresponding author of the study and founding- Director of the GCARE at the University of Surrey, said:

“Schools are going through lean times where every penny matters, and while some of the effective technologies in this study may appear unrealistic, the success of behavioural campaigns is clear from the evidence. Our study indicates that when local communities come together to raise awareness of air pollution, school exposure levels drop significantly.

“However, it is important that schools take into account the rich diversity of the school community, and their general local community. Health could be significantly improved and even lives saved through more air pollution awareness campaigns that target parents, schools and children, as well as business owners and the general public living around the school itself. Ideally this would be in addition to air-cleaning technologies — and those responsible for school and healthcare funding should act on this. But even in isolation a real difference can be made through community-based behavioural changes.”

GCARE researchers conducted a comprehensive literature review of how several technologies, such as HVAC (heating, ventilation and air conditioning) systems, air purifiers, and also behavioural changes can impact the concentration of pollution particles* in classrooms.

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The study also highlighted that installing ventilation and air conditioning systems with high-efficiency filters could reduce by up to 30 percent the concentration of fine particulate matter in classrooms compared with ambient concentration.

Their study also pointed out that air purifiers are effective in reducing the concentration of harmful particles by up to 57 per cent compared with no air purifier, and some were also able to reduce allergens, viruses and bacteria. Interestingly, indoor plants were shown to reduce volatile organic compounds by up to 73 per cent compared with no indoor plants in the classroom.

Professor Kumar, commented:

“If a school is fortunate enough to install many of these interventions, the big take away is that they should not be used in isolation. For example, air purifiers will not magically produce fresh air within a space. Therefore, a holistic approach to how these technologies and campaigns can work in a school context will be key to making sure that clean air is available to as many children as possible in the classroom.”

This study has been published in the journal Science of Total Environment. This work builds upon GCARE’s pioneering research around school guidance that has been released in over 20 countries and numerous co-designed studies with schools.

This work has been supported by the UKRI projects (EP/W001411/1; EP/T003189/1; EP/V052462/1) and network (EP EP/W034034/1; NE/V002341/1) projects.

Note  *Black Carbon, Ultrafine (PM0.1), fine (PM0.1-2.5) and coarse (PM2.5-10) particles

Story Source:

Materials provided by University of Surrey. Note: Content may be edited for style and length.

#Environment

Dyson Purifier Hot+Cool HP07 Unboxing – Captures PM0.1 Dust, Allergens and Viruses Perfectly

We recently unboxed the Dyson V11 Pro cord-free vacuum. As we all know, the Malmesbury, UK headquartered company also sells air purifiers and hair care products. Today, we have the newly launched Dyson Pure Hot+Cool purifier and heater (HP07) to unbox. It has a futuristic design that is noticeable at first glance and comes loaded […]

The post Dyson Purifier Hot+Cool HP07 Unboxing – Captures PM0.1 Dust, Allergens and Viruses Perfectly appeared first on PhoneRadar.

Dyson Purifier Hot+Cool HP07 Unboxing – Captures PM0.1 Dust, Allergens and Viruses Perfectly published first on https://phonetracking.tumblr.com/

Операция Корона. Част 3.4. Нанометрови прахови частици, озон, въглероден монооксид, водороден цианид и Ковид-19 – белодробни заболявания.

Здравейте, приятели. В този последен текст от Част 3 ще разгледаме още някои поразителни прилики между заболяванията, причинени от истинските Ковид патогени, и Ковид инфекцията, грешно диагностицирана като вирусна. Както е видно от приложената снимка, във втората фаза от пр��тичането на Ковид пациентите често развиват пневмония и хипоксия (недостатъчно снабдяване с кислород), а в третата – животозастрашаващ остър респираторен дистрес синдром (ARDS). В предните текстове видяхме, че за разлика от по-големите си братя (PM2.5 и PM10), ултрафините частици (PM0.1) навлизат дълбоко в белия дроб, достигайки бронхиолите и алвеолите, и причиняват оксидативен стрес и възпаление на клетките им. Възпалението на алвеолите е познато още като пневмония. Ако сме изложени на продължително силно замърсяване с наночастици, причиняващо „класическата“ Ковид инфекция, то те могат да засегнат цялата тъкат на белия дроб, а най-малките от тях, с диаметър под 30 нанометра, ще преминат през белодробните стени и ще засегнат кръвоносната система от обратната страна на дроба, възпалявайки първоначално най-малките съдове – капилярите.

Възпалението на съдовете е познато още като васкулит. Възпалените съдове се стесняват, образуват се съсиреци и дробът все по-трудно изпълнява функцията си в засегнатия участък. Така и кръвта не може да минава и да получава нужния ѝ кислород, което пък може да доведе до хипоксия. Нещо повече – ултрафините частици могат да накарат капилярите да пуснат течност, чието натрупване в белодробната тъкан води до появата на белодробен едем, правейки газовата обмяна между алвеолите и кръвта силно затруднена. PM0.1 се задържа в така наречения белодробен сърфактант, чиято функция е да намалява повърхностното напрежение на границата въздух-течност в дробовете. Гледайки типичната картина на пациент с ARDS, виждаме именно горепосоченото – алвеоларно увреждане, дисфункция на сърфактанта, белодробен едем и множество съсиреци. Резултати от различни проучвания показват, че случаите на ARDS в болниците нарастват с повишаване концентрацията на прахови частици във въздуха и – любопитно – на озон.

Когато ултрафините частички започват да проникват в клетките на тялото ни, клетъчният имунитет е от ключово значение за избягването на по-тежка инфекция. Инфектираните клетки започват да образуват екзозоми и микровезикули, които да изхвърлят проникналите нанотоксини. Междувременно, имунната система активира макрофаги, а в последствие и редица други „войници“, които да се справят с нашествието. ��ви, част от влезлите PM0.1 могат все пак да „заседнат“ в тялото, като например в интерстициума – в случая, това е мястото между дихателните пътища и кръвоносната система. Ако това се случи, заседналите частици много по-трудно се изчистват от организма и могат да доведат до хронично възпаление на различни органи, като т.нар. пост-Ковид интерстициална белодробна болест с последващо развитие на белодробна фиброза. Това засядане е и една от причините хора, преминали през болестта, да имат периоди на повишена температура месеци след първоначалната инфекция.

Според една от коспиративните теории, 5G причинява въпросната хипоксия, типична за много Ковид пациенти. Според теорията, при честоти от 60 GHz способността на хемоглобина в кръвта да се свързва с кислорода ще бъде нарушена. В действителност обаче, оставяйки настрана PM0.1, отровни газове като въглеродният монооксид се свързат с хемоглобина в кръвта и във високи концентрации могат да лишат тялото от кислород, причинявайки хипоксия, а в по-тежките случаи и смърт. Водородният цианид също причинява недостатък на кислород в организма или в отделни органи и тъкани, освен редица други стряскащи симптоми и неврологични смущения. Още миналото лято нашумелият д-р Зак Буш правилно посочи, че кръвната картина на хиляди Ковид пациенти в САЩ не показва наличие на вирусна инфекция. Тези хора посиняват и почиват от хипоксия и отказ на органите. Според Зак, те не е следвало да се поставят на механична вентилация, след което са и починали, а да се лекуват като след отравяне с цианид.

Нека разгледаме сега и типичните резултати от диагностиката на Ковид пациентите с по-тежка пневмония. Цитирам: „Компютърната томография показва прозрачни петна (т.нар. матови стъкла или ground glass opacities), инфилтрация в двата дроба, белодробна консолидация и т.нар. „crazy-paving“. Според някои експерти, единствено SARS-CoV-2 може да нанесе подобни щети. Само че още през лятото на 2019 г. CDC докладва вълна от пациенти с VAPI – инфекция, причинена от пушенето на електронни цигари. Те произвеждат аерозоли, чийто химичен състав е сходен с този на праховите частици. Как мислите протича тази VAPI инфекция? Цитирам CDC: “95% от пациентите изпитват респираторни проблеми (кашлица, болки в гърдите, задух), 85% –температура, втрисане и загуба на тегло, 77% – гастроентерологични проблеми (стомашни болки, гадене, повръщане и разстройство). 47% от приетите пациенти са постъ��или в спешните отделения, а 22% са интубирани и поставени на механична вентилация.”

Звучи ли ви познато отнякъде? А как мислите изглежда белия дроб на тези пациенти в типичния случай? Цитирам: „Компютърната томография показва ground glass opacities, инфилтрация в двата дроба, белодробна консолидация и т.нар. „crazy-paving““. Ха! Някои ще кажат, че VAPI е грешно диагностициран Ковид от лятото на 2019. Да, но не. Първо – защото са засегнати малко хора и вълната е бързо овладяна. Второ – защото пациентите са били изложени на аерозоли от електронни цигари. Трето – защото белодробната инфекция с прахови частици показва сходна картина, а в по-тежките случаи компютърната томография разкрива фиброза и т.нар. „медени пити“. По сходен начин, лекарите са притеснени за част от своите Ковид пациенти, защото месеци след прекарана тежка инфекция в дробовете им се виждат въпросните „медени пити“ – вероятна индикация за необратимо увреждане. Светът в момента е покрит с пелена от дим, но не цигарен, мили хора.

Когато най-малките ултрафини частици проникат в кръвообращението, понякога те причиняват много опасна инфекция, наречена сепсис. В този случай отбранителната реакция на организма срещу нея е толкова силна, че той започва да атакува и унищожава дори собствените си тъкани и органи. Ако процесът не бъде овладян, следва отказ на множество органи и септичен шок – състояния, които най-често завършват със смърт. А кои мислите, са две от водещите причини за поява на горепосочения смъртоносен ARDS? Едната е сепсис инфекцията. Другата – изнендаващо или пък не към днешна дата – вдишването на дим от пожари. А какво съдържа димът от пожари, включително и горските – нанометрови прахови частици, озон, въглероден монооксид и водороден цианид, както и стотици други опасни за здравето ни вещества. И ако сте се сетили за връзката между Ковид и горските пожари, то тя вече стои в официална научна статия и на сайта на нашия приятел от “The Great Reset” – Клаус Шваб от Световния икономически форум.

За финал прилагам едно интересно и изчерпателно интервю с д-р. Симидчиев на тема излагане на ултрафини прахови частици, известно от миналата година като Ковид-19. В края на 2019 г. медиите отново споменаха името на Симидчиев във връзка със силно замърсения въздух в столицата. Симидчиев пак изтъкна множеството проблеми, които той създава, включително и васкулит. Само няколко месеца по-късно той даде и въпросното интервю, заключавайки, че Ковид е в по-голяма степен васкулит, отколкото пневмония. В коментари – използвани източниици. Следва продължение. Благодаря ви за вниманието.

https://infacto.bg/d-r-simidchiev-kovid-e-v-po-golyama.../

AIR PURIFYING BUS STOP REDUCES POLLUTION, KILLS VIRUSES & CAN BE INTEGRATED WITH URBAN ARCHITECTURE!

This design is basically a giant air purifier that meets a bus stop and BOOM. We have a chance at cleaner, greener cities. CAPS 2.0 is a smart bus shelter that filters polluted air, rids it of airborne allergens while killing viruses, bacteria, and fungi within seconds. Designed by Charis NG in collaboration with Sino Inno Lab and Arup. This city air purification system can be swiftly integrated into our new normal. It has been proven to reduce pollution exposure by half, remove 99.95% of PM0.1 airborne allergens. And kill viruses, bacteria, and fungi within seconds! The first prototype was made in 2015 and then the second-generation system (patented) is now on a mission to protect the city folk with advanced spatial filtration and sanitization technologies. The improvement in air quality will have a direct impact on the health if the city’s residents. While also encouraging more people to use public transport because of increased cleanliness around the entire experience. CAPS 2.0 is essentially a purifier that takes the form of a bus shelter. So that it can draw in large quantities of surrounding polluted air to work with. It creates an air curtain from the underside of the canopy which shields the people. While simultaneously generating air currents within that space to purify the air. The polluted air is internally purified thanks to its dual protection technology, Plascide air sanitizer. And multi-HEPA filters that all work together to removing harmful suspended particles and eliminates corona viruses. CAPS 2.0 is a smart city solution that aesthetically fits with urban architecture. It incorporates all the technological innovations in a modern and sleek design like multiple air purification and sanitization systems. Real-time display panels, solar panels, and more while also serving as a bus shelter. CAPS 2.0 is a testament to how connecting like-minded partners. Designers and developers can accelerate innovative solutions for real-life challenges! Read the full article

【台灣製造】InfoThink 隨身負離子空氣清淨機 iAnion-100 特價發售

【台灣製造】InfoThink 隨身負離子空氣清淨機 iAnion-100 特價發售

疫情嚴重加上空氣污染嚴重，雖然現時大家都要戴口罩，但係再多一部可去除 PM0.1 InfoThink 隨身負離子空氣清淨機 的話，自然都身體健康多一份保障，而這台產品由台灣製造，加上歐盟 CE 認證，絕對係信心之選。 (more…)

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