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本報(bào)警儀由REN300A在線輻射安全報(bào)警儀和REN-3He-N中子探頭和REN-GM-L X、伽瑪探頭組成。該輻射報(bào)警裝置是采用特殊設(shè)計(jì)的前置放大電路,具有靈敏度高、操作方便、自動(dòng)顯示、數(shù)據(jù)存儲(chǔ)和超閾值報(bào)警等特點(diǎn),能實(shí)時(shí)給出x射線、γ射線、中子射線的輻射劑量率?紤]到現(xiàn)場操作、應(yīng)急快速響應(yīng)的需要,主
REN500E輻射劑量率儀是以內(nèi)置高靈敏度蓋格計(jì)數(shù)管為探測(cè)器,測(cè)量χ、γ和硬β輻射的多功能便攜式劑量率儀。作為輻射巡測(cè)儀,能顯示工作場所的劑量當(dāng)量率和累積劑量,自動(dòng)連續(xù)測(cè)量和記錄1600條輻射劑量率數(shù)據(jù),更換電池時(shí),日歷、時(shí)間及檢測(cè)數(shù)據(jù)能永久保存。工
顏色:黃白相間,紅色文字“當(dāng)心電離輻射 嚴(yán)禁進(jìn)入” 材料:滌綸布 規(guī)格:4.5cm*100m 特點(diǎn):電離輻射特有三葉符警示符號(hào)和標(biāo)語 用途:在工業(yè)探傷、石油勘探等使用放射源或射線裝置的場所中需要隔離劃分出監(jiān)督區(qū)和管理
REN500A型環(huán)境監(jiān)測(cè)用X、γ輻射空氣比釋動(dòng)能率儀(又叫 智能化х、γ輻射儀)采用高靈敏的閃爍晶體作為探測(cè)器,反應(yīng)速度快,該儀器具有較寬的劑量率測(cè)量范圍。 該儀器除能測(cè)高能、低能γ射線外,還能對(duì)低能X射線進(jìn)行準(zhǔn)確的測(cè)量,具有良好的能量響應(yīng)特性。此外
REN320立柱式X、γ輻射環(huán)境監(jiān)測(cè)儀主要用于放射性監(jiān)測(cè)場所的行人或行包通過的監(jiān)測(cè)系統(tǒng),采用大體積的閃爍體探測(cè)器作為探測(cè)器,具有體積小,便于攜帶,靈敏度高,誤差小的特點(diǎn),適用與核應(yīng)急等特殊的放射性檢測(cè)場合。該輻射儀由一根便攜式立柱和一個(gè)REN400型多功能輻射儀主機(jī)組成。輻射立柱與探頭之
REN系列智能化輻射探頭均可和REN300、REN300A、REN300B系列主機(jī)配套使用,也可以單獨(dú)配套R(shí)enRiArea輻射區(qū)域監(jiān)測(cè)軟件使用。且具有RS485/RS232的通訊能力。所有探頭均可單獨(dú)外接報(bào)警燈,在超閾值的情況下就地給出聲光報(bào)警。 1、測(cè)量射線類型:X、γ射線2、探測(cè)器:半導(dǎo)體探
REN400型多功能輻射檢測(cè)儀是以內(nèi)置高靈敏度蓋格計(jì)數(shù)管為探測(cè)器,外接不同類型的探頭來實(shí)現(xiàn)對(duì)低劑量χ、γ射線,高劑量χ、γ射線,α、β射線和中子射線的檢測(cè)。作為多功能輻射巡測(cè)儀,能顯示工作場所的輻射值,自動(dòng)連續(xù)測(cè)量和記錄280萬條輻射劑量率數(shù)據(jù),更換
REN系列智能化輻射探頭均可和REN300、REN300A、REN300B系列主機(jī)配套使用,也可以單獨(dú)配套R(shí)enRiArea輻射區(qū)域監(jiān)測(cè)軟件使用。且具有RS485/RS232的通訊能力。所有探頭均可單獨(dú)外接報(bào)警燈,在超閾值的情況下就地給出聲光報(bào)警。 (一)REN-GM-L型 GM管
氡被稱為“導(dǎo)致人類肺癌的第二大‘殺手’
2006/9/9 10:05:00
氡從何處來?
室內(nèi)氡的來源是多途徑的,但主要是:
1、巖石(土壤)是室內(nèi)氡積累的普遍而直接的來源,而且是主要的來源(當(dāng)居室中各類建材的放射性符合國家標(biāo)準(zhǔn)時(shí))。
2、構(gòu)造帶。構(gòu)造帶不是直接的氡來源,但它是地下氡匯集和遷移的通道,有時(shí)比巖石因素更重要。例如某地房屋建在裂隙不很發(fā)育的花崗巖上,在相同的其他建材條件下,室內(nèi)的氡往往要比房屋建在放射性較低,而裂隙發(fā)育又相當(dāng)厲害的砂巖上為低。
3、水源有時(shí)也是室內(nèi)氡的重要來源,直接來自地下的、鈾礦區(qū)或油氣田區(qū)的水往往有較高的氡濃度。
4、在房屋基底經(jīng)完好密封時(shí),墻地磚的放射性就成了室內(nèi)氡的主要來源。
5、煤氣通常稱液化氣或天然氣,往往有著相對(duì)高的氡濃度。
氡對(duì)人體的主要傷害是什么?
專家們把氡稱為“導(dǎo)致人類肺癌的第二大‘殺手’”,是除吸煙以外引起肺癌的第二大因素。世界衛(wèi)生組織把氡列為使人致癌的19種物質(zhì)之一。
如何降低居室中的氡?
1、不要購買建筑在富鈾區(qū)、伽瑪高值區(qū)、斷裂構(gòu)造區(qū)的樓宇。要知道室內(nèi)的氡含量是否超標(biāo),最有效的方法就是進(jìn)行室內(nèi)氡濃底的檢測(cè),個(gè)人購買住房時(shí),也應(yīng)考慮這個(gè)因素。
2、在裝飾裝修時(shí),要盡量按照國家標(biāo)準(zhǔn)選用放射性含量低的建筑和裝飾材料。
3、室內(nèi)裝飾中,要注意填平、密封地板和墻上的所有裂縫,特別是地下室、一層和平房的住戶更要如此。
4、做好室內(nèi)通風(fēng)換氣,這是最簡便、最省錢的方法。門窗關(guān)閉的房屋內(nèi),氡的濃度往往比敞開門窗時(shí)高數(shù)倍到數(shù)十倍。專家曾做過試驗(yàn),一間氡濃度在151貝可/m3 房間,開窗1小時(shí)后,室內(nèi)氡濃度可降為48貝可/m3。如果配備優(yōu)質(zhì)的室內(nèi)空氣凈化器更好。
5、孩子與婦女比成年男性更易受氡侵害,應(yīng)盡量減少或禁止在室內(nèi)吸煙。
國外相關(guān)報(bào)道:
美國環(huán)保署:http://www.epa.gov/radon/healthrisks.html
Exposure to Radon Causes Lung Cancer In Non-smokers and Smokers Alike
Lung cancer kills thousands of Americans every year. The untimely deaths of Peter Jennings and Dana Reeve have raised public awareness about lung cancer, especially among people who have never smoked. Smoking, radon, and secondhand smoke are the leading causes of lung cancer. Although lung cancer can be treated, the survival rate is one of the lowest for those with cancer. From the time of diagnosis, between 11 and 15 percent of those afflicted will live beyond five years, depending upon demographic factors. In many cases lung cancer can be prevented; this is especially true for radon.
Smoking is the leading cause of lung cancer. Smoking causes an estimated 160,000* deaths in the U.S. every year (American Cancer Society, 2004). And the rate among women is rising. On January 11, 1964, Dr. Luther L. Terry, then U.S. Surgeon General, issued the first warning on the link between smoking and lung cancer. Lung cancer now surpasses breast cancer as the number one cause of death among women. A smoker who is also exposed to radon has a much higher risk of lung cancer.
Radon is the number one cause of lung cancer among non-smokers, according to EPA estimates. Overall, radon is the second leading cause of lung cancer. Radon is responsible for about 21,000 lung cancer deaths every year. About 2,900 of these deaths occur among people who have never smoked. On January 13, 2005, Dr. Richard H. Carmona, the U.S. Surgeon General, issued a national health advisory on radon. Visit www.cheec.uiowa.edu/misc/radon.html7 for more on a study by Dr. William Field on radon-related lung cancer in women.
Secondhand smoke is the third leading cause of lung cancer and responsible for an estimated 3,000 lung cancer deaths every year. About 1,000 of these are people that never smoked, and about 2,000 are former smokers. Smoking affects non-smokers by exposing them to secondhand smoke. Exposure to secondhand smoke can have serious consequences for children’s health, including asthma attacks, affecting the respiratory tract (bronchitis, pneumonia), and may cause ear infections.
Learning more about lung cancer. The following sources provide a wide range of good information about lung cancer, prevention, and treatment.
Why is radon the public health risk that it is?
EPA estimates that about 20,000 lung cancer deaths each year in the U.S. are radon-related. Exposure to radon is the second leading cause of lung cancer after smoking. Radon is an odorless, tasteless and invisible gas produced by the decay of naturally occurring uranium in soil and water. Radon is a form of ionizing radiation and a proven carcinogen. Lung cancer is the only known effect on human health from exposure to radon in air. Thus far, there is no evidence that children are at greater risk of lung cancer than are adults.
Radon in air is ubiquitous. Radon is found in outdoor air and in the indoor air of buildings of all kinds. EPA recommends homes be fixed if the radon level is 4 pCi/L (pico Curies per Liter) or more. Because there is no known safe level of exposure to radon, EPA also recommends that Americans consider fixing their home for radon levels between 2 pCi/L and 4 pCi/L. The average radon concentration in the indoor air of America’s homes is about 1.3 pCi/L. It is upon this level that EPA based its estimate of 20,000 radon-related lung cancers a year upon. It is for this simple reason that EPA recommends that Americans consider fixing their homes when the radon level is between 2 pCi/L and 4 pCi/L. The average concentration of radon in outdoor air is .4 pCi/L or 1/10th of EPA’s 4 pCi/L action level.
For smokers the risk of lung cancer is significant due to the synergistic effects of radon and smoking. For this population about 62 people in a 1,000 will die of lung-cancer, compared to 7.3 people in a 1,000 for never smokers. Put another way, a person who never smoked (never smoker) who is exposed to 1.3 pCi/L has a 2 in 1,000 chance of lung cancer; while a smoker has a 20 in 1,000 chance of dying from lung cancer. Figure A compares the risks between smokers and never smokers; smokers are at a much higher risk than never smokers, e.g., at 8 pCi/L the risk to smokers is six times the risk to never smokers.
The radon health risk is underscored by the fact that in 1988 Congress added Title III on Indoor Radon Abatement to the Toxic Substances Control Act. It codified and funded EPA’s then fledgling radon program. Also that year, the Office of the U.S. Surgeon General issued a warning about radon urging Americans to test their homes and to reduce the radon level when necessary (U.S. Surgeon General).
Unfortunately, many Americans presume that because the action level is 4 pCi/L, a radon level of less than 4 pCi/L is ‘safe’. This perception is altogether too common in the residential real estate market. In managing any risk, we should be concerned with the greatest risk. For most Americans, their greatest exposure to radon is in their homes; especially in rooms that are below grade (e.g., basements), rooms that are in contact with the ground and those rooms immediately above them.
Radon Risk If You Smoke
Radon Level | If 1,000 people who smoked were exposed to this level over a lifetime*... | The risk of cancer from radon exposure compares to**... | WHAT TO DO: Stop smoking and... |
---|---|---|---|
20 pCi/L | About 260 people could get lung cancer | 250 times the risk of drowning | Fix your home |
10 pCi/L | About 150 people could get lung cancer | 200 times the risk of dying in a home fire | Fix your home |
8 pCi/L | About 120 people could get lung cancer | 30 times the risk of dying in a fall | Fix your home |
4 pCi/L | About 62 people could get lung cancer | 5 times the risk of dying in a car crash | Fix your home |
2 pCi/L | About 32 people could get lung cancer | 6 times the risk of dying from poison | Consider fixing between 2 and 4 pCi/L |
1.3 pCi/L | About 20 people could get lung cancer | (Average indoor radon level) | (Reducing radon levels below 2 pCi/L is difficult.) |
0.4 pCi/L | About 3 people could get lung cancer | (Average outdoor radon level) | |
Note: If you are a former smoker, your risk may be lower. pCi/L (pico Curies per Liter) * Lifetime risk of lung cancer deaths from EPA Assessment of Risks from Radon in Homes (EPA 402-R-03-003). ** Comparison data calculated using the Centers for Disease Control and Prevention''s 1999-2001 National Center for Injury Prevention and Control Reports. |
Radon Risk If You''ve Never Smoked
Radon Level | If 1,000 people who never smoked were exposed to this level over a lifetime*... | The risk of cancer from radon exposure compares to**... | WHAT TO DO: |
---|---|---|---|
20 pCi/L | About 36 people could get lung cancer | 35 times the risk of drowning | Fix your home |
10 pCi/L | About 18 people could get lung cancer | 20 times the risk of dying in a home fire | Fix your home |
8 pCi/L | About 15 people could get lung cancer | 4 times the risk of dying in a fall | Fix your home |
4 pCi/L | About 7 people could get lung cancer | The risk of dying in a car crash | Fix your home |
2 pCi/L | About 4 person could get lung cancer | The risk of dying from poison | Consider fixing between 2 and 4 pCi/L |
1.3 pCi/L | About 2 people could get lung cancer | (Average indoor radon level) | (Reducing radon levels below 2 pCi/L is difficult.) |
0.4 pCi/L | (Average outdoor radon level) | ||
Note: If you are a former smoker, your risk may be higher. pCi/L (pico Curies per Liter) * Lifetime risk of lung cancer deaths from EPA Assessment of Risks from Radon in Homes (EPA 402-R-03-003). ** Comparison data calculated using the Centers for Disease Control and Prevention''s 1999-2001 National Center for Injury Prevention and Control Reports. |
產(chǎn)品名稱:REN500T長桿x-γ劑量率儀
產(chǎn)品描述: REN500T是手持式儀表可用來監(jiān)測(cè)X、γ輻射劑量率。用于各種γ輻射場或環(huán)境γ輻射的監(jiān)測(cè)工作。儀器配有伸縮長桿,可用于測(cè)量人員不易到達(dá)或有較強(qiáng)放射性存在的場所,為使用人員提供有效保護(hù)。此外通過配套的RenRiRate輻射劑量管理軟件可將存
產(chǎn)品名稱:REN310型立柱式輻射監(jiān)測(cè)系統(tǒng)
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產(chǎn)品名稱:REN200B型X-γ個(gè)人劑量報(bào)警儀
產(chǎn)品描述:REN200B型X、γ輻射個(gè)人劑量當(dāng)量HP(10)監(jiān)測(cè)儀(簡稱:個(gè)人劑量報(bào)警儀)內(nèi)置高量程蓋格計(jì)數(shù)管為探測(cè)器,主要用來監(jiān)測(cè)各種放射性工作場所的X、γ以及硬β射線的輻射,具有較寬的測(cè)量范圍。能顯示工作場所的劑量當(dāng)量率和累積劑量,更換電池時(shí),日期及累積數(shù)據(jù)能永久保存?蛇x配RenRiPersonal個(gè)人
產(chǎn)品名稱:REN200A型X-γ個(gè)人劑量報(bào)警儀
產(chǎn)品描述:REN200A型X、γ輻射個(gè)人劑量當(dāng)量HP(10)監(jiān)測(cè)儀(簡稱:個(gè)人劑量報(bào)警儀)內(nèi)置高靈敏度蓋格計(jì)數(shù)管為探測(cè)器,主要用來監(jiān)測(cè)各種放射性工作場所的X、γ以及硬β射線的輻射,具有響應(yīng)快,測(cè)量范圍寬的特點(diǎn)。能顯示工作場所的劑量當(dāng)量率和累積劑量,更換電池時(shí),日期及累積數(shù)據(jù)能永久保存?蛇x配RenRiPers
產(chǎn)品名稱:REN300型在線x-γ輻射安全報(bào)警儀
產(chǎn)品描述: REN300在線x-γ輻射安全報(bào)警儀是一種新型的x-γ輻射連續(xù)監(jiān)測(cè)報(bào)警裝置,它采用特殊設(shè)計(jì)的前置放大電路,具有靈敏度高、操作方便、自動(dòng)顯示、數(shù)據(jù)存儲(chǔ)和超閾值報(bào)警等特點(diǎn),能實(shí)時(shí)給出xγ輻射劑量率?紤]到現(xiàn)場操作、應(yīng)急快速響應(yīng)的需要,主機(jī)安裝在輻射現(xiàn)場,實(shí)現(xiàn)實(shí)時(shí)監(jiān)測(cè)與就地報(bào)警,通過RS48
產(chǎn)品名稱:REN500H輻射防護(hù)用X、γ輻射劑量當(dāng)量(率)儀
產(chǎn)品描述:REN500H輻射防護(hù)用X、γ輻射劑量當(dāng)量(率)儀是監(jiān)測(cè)各種高劑量放射性工作場所的輻射劑量率專用儀器。儀器滿足《環(huán)境地表γ輻射劑量率測(cè)定規(guī)范》中高劑量部分的要求。該儀器除能測(cè)高能γ射線外,還能對(duì)低能X射線進(jìn)行準(zhǔn)確的測(cè)量,具有良好的能量響應(yīng)特性。此外通過配套的RenRiRate輻射劑量管理軟件可將存儲(chǔ)