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FAQs on Nanobubbles and Nanovus 有關納米氣泡和Nanovus納新的常見問題
1. What are nanobubbles?
Nanobubbles, also known as oxygen nanobubbles or oxygen-containing nanobubbles, refer to tiny oxygen bubbles, typically less than 100 nanometres in size and suspended in a liquid medium such as water. These nanobubbles are so small that they can remain stable in liquids for long periods of time without rising to the surface and escaping as gas. They also possess unique buoyance and special properties as further discussed below.
2. What are nanobubbles used for?
Nanobubbles improve the efficiency of a broad spectrum of chemical, biological, and physical processes. Nanobubbles remove impurities and pathogens from wet environments, making them incredibly effective at improving production and processes across many industries and applications, i.e. medical, water purification, agriculture and aquaculture. For Nanovus, our Nanoglide Radiance series and various shower filters utilize the antibacterial, anti-inflammatory, and analgesic properties of nanobubbles. By using high concentrations of nanobubbles, they effectively alleviate and even eliminate various skin conditions, with remarkable efficacy.
3. Can I drink nanobubbles water?
Of course. Drinking nanobubbles-infused water is safe for all mammals. Several recent studies in both animals and humans have shown that orally administering nanobubbles-infused water is a safe intervention that can improve tissue oxygenation.
4. What are the differences between microbubbles and nanobubbles?
Size: Nanobubbles are composed of nanoscale bubbles, with diameters ranging from about 10-7 to 10-9 meters, which is one ten-millionth to one-billionth of a meter. In contrast, typical micron-sized or so-called 'micro-nano bubbles' available on the market are ten, hundred, or thousand times the size of nanobubbles. This means that microbubbles cannot effectively penetrate the skin or achieve deep cleansing or antibacterial effects.
Stability: Nanobubbles can be suspended in liquid for a longer time than ordinary oxygenated water, which loses dissolved oxygen faster due to factors such as temperature, pressure, stirring and manufacturing processes.
Surface Area: Due to the small size of the bubbles, nanobubbles oxygen has a significantly larger surface area than ordinary oxygenated water. This increased surface area allows oxygen to be transferred to the surrounding liquid more efficiently, leading to efficacy benefits depending on applications.
Concentration: Nanobubbles-infused water contains higher concentration of oxygen than regular oxygenated water because the smaller size, but significantly higher amount, of bubbles can trap more oxygen.
5. How long do nanobubbles stay in water?
Nanobubbles themselves have been observed to last 2-3 months or more, but there are many factors that can affect that time. For example, the greater the biological oxygen demand in a pond, the shorter the bubbles will last because they will be working hard to oxidize the pollutants.
6. How to count nanobubbles?
Several methods exist but the majority of them will require high-tech equipment. In short, it will be difficult for a consumer to determine the density and size of nanobubbles.
7. In that case, how can I test to see if nanobubbles exist in water?
An easy test to see if a water has nanobubbles:
Fill a glass with our filtered water and put a small object in it, such as a metal spoon. Leave the glass for half an hour. When nanobubbles inherently coalesced into bigger ultrafine bubbles, observe the small object that countless ultrafine bubbles adhere to its surface.
Only the existence of nanobubbles would give you this effect! One may further determine that the more and smaller the ultrafine bubbles are, the denser and the more in amount the nanobubbles are in the water.
8. Which industries benefit from nanobubbles technology?
Nanobubbles have diverse applications across industries such as healthcare, water purification, agriculture, and aquaculture. They play a crucial role in improving patient care, enhancing water quality, promoting sustainable irrigation, and optimizing aquaculture practices.
The field of nanobubbles is in its infancy stage, more applications and benefits are being discovered every day.
9. How do nanobubbles contribute to infection control in healthcare settings?
In healthcare, nanobubbles play a crucial role in infection control measures by effectively targeting and eliminating harmful pathogens. Their small size allows for deep penetration into biofilms and hard-to-reach areas, making them a valuable tool in improving patient care and reducing the spread of infections.
10. How do nanobubbles improve water quality in aquaculture?
Nanobubbles enhance oxygen transfer efficiency in aquaculture systems, promoting better water quality for aquatic organisms. By increasing dissolved oxygen levels and reducing harmful pathogens, nanobubbles contribute to healthier aquatic environments and improved fish growth rates.
11. How do nanobubbles improve aspects of agricultural irrigation?
Nanobubbles are increasingly being adopted in agriculture for sustainable irrigation. By delivering oxygen directly to plant roots, nanobubbles promote better nutrient uptake, root development, and overall plant growth, all the while eliminating harmful pathogens in the soils. This technology offers a chemical-free and environmentally friendly approach to enhancing crop yields.
12. What is so special about Nanovus’ products and services?
We are likely the first company in the world to be able to stably produce so much nanobubbles, in such an economically feasible scale, with such small sized equipment, and with such an efficiency.
Feel free to challenge and compare.
13. How can businesses integrate our nanobubbles technology into their operations?
Businesses interested in integrating nanobubbles technology can collaborate with Nanovus to explore customized solutions tailored to their specific needs.
Our team of experts can provide guidance on implementation, optimization, and ongoing support to maximize the benefits of nanobubbles in various applications.
Contact us for more details.
14. How can I learn more about nanobubbles and Nanovus’ services and products?
For more information about Nanovus, our products, and the innovative solutions we offer, please explore our website or contact us directly by sending an enquiry email to info@nanovus.com or WhatsApp to (852) 5287 2099.
15. What research supports the beneficial claims nanobubbles in various applications?
Numerous studies and research articles have demonstrated the efficacy of nanobubbles in water treatment, agriculture, aquaculture, and healthcare. These studies highlight the benefits of nanobubbles in enhancing processes, improving efficiency, and promoting sustainability across different industries.
Nanobubbles will be the next ‘big’ thing around the corner and for more information on these supporting articles, contact us directly by sending an enquiry email to info@nanovus.com or WhatsApp to (852) 5287 2099.
1. 甚麼是納米氣泡?
納米氣泡,也稱為氧氣納米氣泡或含氧納米氣泡,是指直徑通常小於100納米,並懸浮在水等液體介質中的極微小氧氣氣泡。這些納米氣泡非常小,以至於可以在液體中長時間保持穩定,而不會上升到表面或逸散成氣體。它們具有獨特的浮力和特殊的性質,詳見以下各題。
2. 納米氣泡有甚麼用途?
納米氣泡可以提高各種化學、生物和物理過程的效率。它們能夠去除潮濕環境中的雜質和病原體,使其在許多行業和應用中(如醫療、水質淨化、農業和水產養殖)非常有效地改善生產和工藝。 以Nanovus納新而言,我們的Nanoglide Radiance 系列和各種淋浴濾芯,正正是利用納米氣泡抗菌、消炎、鎮痛等的特性,以高濃度的納米氣泡去舒緩甚至根除各種皮膚病,效能顯著。
3. 我可以飲用含有納米氣泡的水嗎?
當然可以。飲用含納米氣泡的水對所有哺乳動物都是安全的。眾多研究表明,飲用含納米氣泡的水既安全,又可以改善組織氧合,增強身體健康。
4. 納米氣泡和微米氣泡有什麼區別?
大小:納米氣泡由納米級的小氣泡組成,是直徑約公米的10-7至10-9的小氣泡,亦即一米的一千萬分之一至十億分之一,而一般微米級或市面上的聲稱的「微納氣泡」,都是較納米氣泡有十倍、百倍、千倍的溶解氧,亦即意味着微米氣泡不能夠有效滲透皮膚或達到深層清潔或抗菌效果。
穩定性:納米氣泡可以在液體中懸浮更長時間,而普通含氧水因為溫度、壓力、攪拌和製造過程等因素,會更快失去溶解氧。
表面積:由於氣泡較小,納米氣泡氧具有比普通含氧水顯著更大的表面積。這種增大的表面積使氧氣能更有效地傳遞到周圍液體中,從而根據應用獲得效益。
濃度:含納米氣泡的水比普通含氧水含有更高濃度的氧,因為較小但數量顯著更多的氣泡能夠捕捉更多氧氣。
5. 納米氣泡在水中能懸浮多久?
納米氣泡可以於水中懸浮2到3個月甚至更長時間,但許多因素會影響長久。例如,池塘中的生物需氧量越大,氣泡持續的時間就會越短,因為納米氣泡會氧化污染物,達到抗菌效能。
6. 如何計算納米氣泡的數量?
有多種方法可以計算,但大多數需要高科技設備。簡而言之,對於消費者來說,確定納米氣泡的密度和大小是相對困難的。\
7. 那我該如何測試水中是否存在納米氣泡?
一個簡單的測試方法是:
將過濾過的水倒入玻璃杯中,放入一個小物體,如金屬湯匙。半小時後,納米氣泡會自然聚集成較大的超細氣泡,屆時觀察小物體表面附著的無數超細氣泡,便會得知水中之否原有納米氣泡。
此外,形成的超細氣泡越多且越小,就可以判斷水中原有的納米氣泡越密集且數量越多。
8. 哪些行業受益於納米氣泡技術?
納米氣泡在醫療保健、水淨化、農業和水產養殖等行業有廣泛應用。它們在改善患者護理(例如皮膚病)、提升水質、促進可持續灌溉以及優化水產養殖實踐方面發揮著關鍵作用。納米氣泡的應用仍處於早期階段,每天都有新的應用和益處被發現。
9. 納米氣泡如何在醫療環境中促進感染控制?
在醫療領域,納米氣泡通過有效針對並消除有害病原體,在感染控制措施中發揮著關鍵作用。它們的小尺寸允許深入滲透到生物膜和難以觸及的區域,使其成為改善患者護理和減少感染傳播的寶貴工具。
10. 納米氣泡如何改善水產養殖中的水質?
納米氣泡提高了水產養殖系統中的氧傳輸效率,通過增加溶解氧水平並減少有害病原體,促進水質。納米氣泡有助於創造更健康的水生環境和改善魚類生長率。
11. 納米氣泡如何改善農業灌溉的各個方面?
納米氣泡在農業中越來越多地被用於可持續灌溉。通過直接將氧氣輸送到植物根部,納米氣泡促進了更好的養分吸收、根系發展和整體植物生長,同時消除土壤中的有害病原體。這項技術提供了一種無化學品且環保的方式來提高農作物產量。
12. Nanovus 的產品和服務有什麼特別之處?
我們可能是世界上首家能夠在經濟可行的規模上穩定生產大量納米氣泡的公司。 Nanovus使用的設備體積小、效率高。歡迎行家挑戰和比較。
13. 我的企業可以如何利用Nanovus 納新的納米氣泡技術?
對納米氣泡技術感興趣的企業可以與 Nanovus 合作,探索針對其特定需求的定制解決方案。我們的專家團隊可以提供實施、優化和持續支持的指導,以最大限度地發揮納米氣泡在各種應用中的益處。請聯繫我們了解更多詳情。
14. 如何了解有關納米氣泡和 Nanovus 產品與服務的更多信息?
如需了解有關 Nanovus、我們的產品以及我們提供的創新解決方案的更多信息,請訪問我們的網站或通過發送查詢電子郵件至 info@nanovus.com 或 WhatsApp 至 (852) 5287 2099 與我們直接聯繫。
15. 以上的種種,是否有科學理據? 是否有研究支持納米氣泡存有的眾多益處?
大量研究和研究文章已經證明了納米氣泡在水處理、農業、水產養殖和醫療保健中的有效性。這些研究強調了納米氣泡在增強流程、提高效率以及促進各行業可持續性方面的益處。納米氣泡將成為下一個“重大”趨勢。如需了解更多有關這些支持性文章的信息,請通過發送查詢電子郵件至 info@nanovus.com 或 WhatsApp 至 (852) 5287 2099 與我們直接聯繫。