Tag Archives: roving blue

Leaving our (Water) Mark on Saraburi, Thailand

Where in the World is Roving Blue?

Roving Blue was demonstrated to members of the Thai Military yesterday at Fort Adisorn, a Thai military base in Saraburi, Thailand. They were not familiar with Ozone at all, but very much liked the taste aspect of the water. The MVP unit passed military bacterial water testing with flying colors.

RB_Thailand

Crimson Viper Field Experiments 2016 & Roving Blue

Crmson Viper Logos

 

Roving Blue, Inc. is currently participating in the Crimson Viper Field Experiments in Thailand.  The Crimson Viper Field Experiment (CV) is conducted annually in Thailand by the Royal Thai Ministry of Defence (MOD) Defence Science and Technology Department (DSTD) and US Pacific Command Science and Technology Office (USPACOM J85). Crimson Viper is a technology experimentation venue that promotes S&T collaboration and is a means of obtaining operational feedback for technology development.

DSTD coordinates with Royal Thai Armed Forces science and technology (S&T) service organizations to co-host CV on a rotational basis. This year, the Royal Thai Army (RTA) Research and Development Office (ARDO) will co-host the event with DSTD with assistance from the RTA Fort Adisorn Cavalry Center.

The NAVAIR Technology Experimentation Center (TEC) will coordinate the overall event in support of PACOM J85 while supporting individual technology experiments.

CV16 will consist of field experiments and a visitor/DV day at the Royal Thai Army, Cavalry Center, Fort Adisorn.

The water purification technology experimentation conducted during CV16 will be in direct support of the Integrated Water Purification System (IWPS) project objectives. The purpose of technology experimentation in Crimson Viper 2016 (CV16) is to experiment with leading edge technologies and proposed Concepts of Operation (CONOP) in relevant operational conditions to gather operational feedback. Additionally, CV16 will provide engagement opportunities with Royal Thai Army (RTA) partners.

Crimson Viper is executed under the ambit of the Thai-American Consultations (TAC) Joint Statement. Crimson Viper was discussed during TAC XVI on 9-11 April 2014 under Working Group IV for “Relationship Building, Coordination and Collaboration at All Levels” under subgroup IV.2 for Science and Technology.

Crimson Viper objectives are to experiment with candidate technologies in a field environment to:

•      Support collaboration and promote interoperability between Royal Thai Armed Forces and USPACOM via S&T partnership with DSTD

•      Assess candidate technologies and provide assessment feedback to the science and technology community

•      Confirm technology maturity prior to introducing to warfighters

•      Provide candidate technologies for longer term assessment

INTRODUCING THE ROVING BLUE O-Pen The Power to PURIFY WATER in Your Pocket!

website passport

Now taking pre-orders for a limited supply of the Roving Blue O-Pen! The first 300 units will be a brushed Stainless Steel Pen in an attractive gift box.  Might even be a collector’s item one day!

Anticipated ship date is July 30.

See the O-Pen in Action Here:

ORDER NOW 

Travelers:  TSA approved to bring on board, the O-Pen will allows you to drink water from any tap worldwide, and ensures that you won’t get sick from microbes in the water.

Campers/Hikers: This is as lightweight as it comes! Say goodbye to hauling water around, and say hello to any river, lake or stream in the vicinity.

Preppers:  What are you waiting for? This is the FIRST thing that should go into your bug-out bag!

Drinking water is one of the first things that gets compromised when there is a disaster; floods, hurricanes, or earthquakes. Now you can have peace of mind right in the palm of your hand!

Featuring the SAME advanced technology in our Roving Blue Model MVP-A, dissolved ozone gas IS the cutting edge of water purification today!

Sturdy: Stainless Steel case ensures durability and long-life.

Fast-Acting: It will purify .5 L or 16 oz. of water in under one minute.

Ultra Portable: The O-Pen weighs only 1.2 oz. (30 g).

No Waste: Rechargeable battery with USB cable included. Purifies approximately 15 liters per charge (about 30 uses)

You CAN drink the water!

The O-Pen makes water safe by infusing it with tiny bubbles of ozone gas.

Approved by the FDA and the USDA for use in drinking water, ozone is more powerful than chlorine and is highly effective against bacteria, viruses, giardia, cryptosporidium, typhoid fever, coliform, dysentery, cholera, infectious jaundice, hepatitis, influenza virus, e-coli, enteric and many other dangerous microorganisms.

Ozone also removes unpleasant tastes and odors – you won’t be able to tell the difference between your glass of tap water and bottled water.

Product Information Sheet:

RovBlu_O-Pen Sell Sheet-LENA_ƒ

Roving Blue’s Eric Clayton Interviews Expert Health Writer Jan Modric on Dehydration

Picture2

Fresshwater.Com interviews health writer Jan Modric who writes for Ehealthstar.com and Nutrientsreview.com.

 

Where are you from, what is your educational background, and what kind of work have done?  What projects are you presently working on?

I am a health writer from Ljubljana/Slovenia and I have finished a medical faculty at University of Ljubljana. Currently, I write for Ehealthstar.com and Nutrientsreview.com. In my writing, I rely on systematic reviews of studies, experience from doctors from various American hospitals and, when it comes to dehydration and water intoxication, also on the newspaper reports.

How long can you survive without water?  Eights days sounds like a lot, why do I hear that 72 hours without water is a death sentence?

According to various newspaper reports, people–from a newborn to a 97 years old woman–have survived up to eight days without any water and food. I’ve collected some of these stories in this article. Eight days really sounds a lot and not everyone can survive so long. Most people might survive for at least 72 hours without water, so this is often used as an estimation that does not want to promise too much. I believe that in ideal circumstances (sitting in a shadow at 50-70 °F or 10-21 °C), many people can survive at least for 4 or 5 days. On the other hand, while walking in a hot desert you can expect to survive only for about 1 day without water.

What are the symptoms of mild, moderate, and severe dehydration?

 

You are mildly dehydrated when you lose 1-2% of your body weight due to lack of water. Two typical symptoms are thirst and dry mouth, but they are both quite unreliable. You can be thirsty and not dehydrated or severely dehydrated and not thirsty at all. Dry mouth can be also caused by anxiety, breathing through the mouth or drinking alcohol. Some people, when thirsty, feel like they are hungry.

 

In moderate dehydration (3-6% loss of body weight) your lips become dry, you can be tired or have mild headache. You urinate only a little and the urine becomes dark yellow.

 

In severe dehydration (loss of more than 6% of body weigh) you can be very thirsty and exhausted and you can have a severe headache. Despite a warm ambient, you sweat very little; you also urinate very little or not at all and your urine becomes brown.

 

Is there a way to tell how dehydrated you are based on urine color? Is urine color a dependable indicator?

 

Urine color is very “telling” — in mild dehydration it is usually pale yellow and in severe dehydration it is brown. Various urine color charts can help you estimate the extent of dehydration but not to calculate the exact amount of water you need to drink. Note that foods high in beta-carotene (carrots, sweet potatoes), vitamin B2 supplements and artificial dyes (candies, morning cereals, alcoholic beverages) can also make your urine yellow.

Are there other ways to self test for dehydration?

The most exact self test for dehydration is checking your morning body weight. One morning (when you assume you are well hydrated because you have been drinking enough for several days), weigh yourself after emptying your bladder and bowel and before eating or drinking anything. This is then your “normal morning body weight.” If at any later day you think you may be dehydrated, check your morning weight again; if, for example, your body weight has dropped by four pounds, it probably means you miss about two liters of water. A sudden loss of weight (within hours to few days) is much more likely caused by water loss rather than fat loss.

 

The other much simpler but less reliable test is a skin turgor test. Pinch the skin between the thumb and index finger on the back of your hand. When you are well hydrated, the skin fold should flatten immediately, but the fold will persist for a second or two if you are mildly dehydrated or for several seconds or even minutes if you are severely dehydrated. The skin turgor test does not work well in old people with wrinkled skin and in obese people with tense skin.

Which are the optimal beverages for re-hydration and does it depend on the type of dehydration you have?

The optimal beverage for rehydration for children older than four years of age and adults is water. Mineral water that contains some sodium can be more tasty and thus easier to drink. A herbal tea can be also fine. If water is not available, coffee, real tea, soda, fruit juice, sport drinks, milk and even beer can also rehydrate you. Caffeine and alcohol stimulate urination slightly, but this should not be a problem, because you usually consume more water from caffeinated drinks or beer than you lose it with urine. By drinking sugary drinks you may consume more sugar (and thus calories than you intended.

 

Infants and children younger than four years who become dehydrated due to persistent diarrhea or vomiting should receive an oral rehydration solution, which contains sugar and electrolytes — various brands are available in supermarkets and drug stores. Giving plain water to a dehydrated infant can result in a life-threatening drop of blood sodium.

 

When you see a person that appears severely dehydrated, exhausted and not able to walk, call a doctor before you give him or her anything to drink. Such a person will likely need an intravenous infusion of saline.

 

A doctor in a hospital needs to be aware of three types of dehydration –isotonic, hypotonic and hypertonic (depending on the amount of water and electrolytes lost)–, which are treated differently, but a layman person does not need to worry about this in everyday situations.

 

The other much simpler but less reliable test is a skin turgor test. Pinch the skin between the thumb and index finger on the back of your hand. When you are well hydrated, the skin fold should flatten immediately, but the fold will persist for a second or two if you are mildly dehydrated or for several seconds or even minutes if you are severely dehydrated. The skin turgor test does not work well in old people with wrinkled skin and in obese people with tense skin.

 

What is the affect of drinking distilled water all the time? Does it dehydrate you?

 

As long as you eat regularly, which means you consume sodium and other minerals, you can drink distilled, demineralized or deionized water and you will not likely experiencing any side effect. Distilled water does not dehydrate you.

 

During fasting for several weeks, drinking only distilled water and consuming no sodium, could theoretically leach too much sodium from your body and result in a drop of blood sodium levels (hyponatremia). Again, this is not a realistic scenario when you eat regularly. The claim that distilled water is dangerous for your health is a hype. But then, why would you want to drink distilled water at all? It lacks minerals and, by itself, is not healthier than other types of water.

 

 

What is the difference between water intoxication and polydipsia?  Are both of these conditions life threatening?

 

Polydipsia means “excessive thirst,” so this describes only the feeling or behavior rather than a health condition.

 

In otherwise healthy individuals, excessive drinking can result in water intoxication (a drop of blood sodium levels or hyponatremia) only when they do not consume enough sodium from food. This typically occurs in women on “water diets,” in alcoholics who consume nothing but beer, in participants of water drinking contests and in marathon runners who drink too much during the race. Some young people with psychological problems may drink more than 10 liters of water per day.

 

The lowest amount of water for which I’ve read it caused water intoxication resulting in death was four liters of diet soda in two hours drunk by a woman who was on a low-calorie (and hence low-sodium) diet for.

 

Athletes who train in hot weather may need to drink more than two gallons of water per day, but as long as they consume food with enough sodium they are not at risk of water intoxication. According to Current U.S. Military Fluid Replacement Guidelines from 2003, an individual should not drink more than 1.4 liters of water per hour when drinking for several hours in a row.

 

Do you have any closing statements, tips, or warnings about dehydration that I have not covered with the questions above

 

You can become dehydrated, tired and constipated without being thirsty by just sitting at your desk and not drinking enough. Having a bottle of water at hand can remind you that you need to drink. You do not need to drink “a lot,” of water, but just as much as you lose it from your body. Sedentary adults living in moderate climates need about two liters of water per day (from beverages and foods combined). The more you sweat the more water you need to consume. To check if you are dehydrated you can weigh yourself or check your skin turgor on the back of your hand.

 

Plain bottled or tap water may be boring to drink. You may want to find some delicious mineral water that contains some sodium and you may enjoy drinking more. Try to avoid sugary drinks — they can be addictive, they cost money and can make you fat.

 

Water intoxication does not likely occur by accident; it usually results from consciously exaggerated water drinking.

 

 

Authors:

Jan Modric, a 49 years old male health writer from Ljubljana/Slovenia. He finished a medical faculty at University of Ljubljana, but does not work as a doctor. Currently he writes for Ehealthstar.com and Nutrientsreview.com. He searches through systematic reviews of studies and other evidence-based sources and writes for people who want to better understand the health problems they have and for those interested in the effects and side effects of nutrients.

Eric Clayton, Founder and Owner of Fresshwater.Com
Born in Chicago IL 1955

Raised on the gang infested streets of Harvey,IL ( a south suburb of Chicago).  Went  to college in Kansas and acquired both my Bachelors and Masters degrees in Political Science. Worked as a staff member at Wichita State University , attempted to sell life insurance, assistant retail managers, have spent 30 years plus as a telecommunications engineer, a certified tennis instructor, and a Roving Blue sales representative. Is a very avid un-ranked competitive chess player and a former youth assistant football coach.

Fresshwater.Com  was created to help people prepare for water crisis situations.  It presents information about DIY water gathering solutions to the most sophisticated water filtration and purification solutions. People can’t afford to go 72 hours without water and Fresshwater’s presence is assurance that the average citizens will be educated and prepared for the worst.

Roving Blue, Inc. Announces Key Additions to their Advisory Board

MEDIA RELEASE:  For Immediate Distribution

Roving Blue, Inc. Announces Key Additions to their Advisory Board

Lena, Wisconsin – February 23, 2016

Roving Blue, Inc., a Lena, Wisconsin startup that manufactures a briefcase-sized portable water purification system is pleased to announce the addition of two key professionals, John Katers, Ph.D., and Ryan Holzem, Ph.D., to Roving Blue’s Advisory Board.  Both gentlemen bring a vast amount of experience in Applied Sciences in the water industry to the board.  Moving forward, they will assist Roving Blue with issues such as arsenic, lead, nitrates and other water related contaminants.

About John Katers:

 John Katers

 

John F. Katers, Professor and Chair of Natural and Applied Sciences (Engineering) at the University of Wisconsin – Green Bay (UWGB), teaches courses on pollution control, pollution prevention, waste management, renewable energy and resource management.  His research has been in these same areas, where he has been able to consistently obtain external funding for his research, supporting more than thirty master thesis projects and numerous other undergraduate research projects.  Most notably, Katers has worked with anaerobic digestion and solids separation systems for dairy farms, where Wisconsin is a national leader, and on solid waste and recycling issues in Wisconsin, with Katers serving as the Chair of the Brown County Solid Waste Board.  Katers is also the Director the University’s Environmental Management and Business Institute (EMBI) and Chair of the on-line Masters in Sustainable Management.  More recently, he was named as the Frederick E. Baer Professor in Business at UWGB.

Katers has been at UWGB since 1995, initially working for the University of Wisconsin Solid and Hazardous Waste Education Center as a Recycling Specialist before joining the Natural and Applied Sciences faculty in 1999.  He holds a B.S. in Environmental Science and Business Administration and an M.S. in Environmental Science and Policy from UWGB and a Ph.D. in Civil and Environmental Engineering from Marquette University.  Katers has received numerous awards, including the UWGB Founders Award for Community Outreach, the UWGB Student Nominated Teaching Award, and the Distinguished Alumni Award from Green Bay Southwest High School.  EMBI was also honored with a UWGB Founders Award for Collaborative Achievement and Katers was named a Wisconsin Idea Fellow by the University of Wisconsin System in recognition of his outstanding public service and outreach to business and industry.  Finally, in 2013 Katers was awarded a Fulbright Specialist position in 2013 that allowed him to travel to Santiago, Chile, to work collaboratively on sustainability issues with faculty at the Universidad del Desarrollo, where he also just led a student travel course in August.

About Ryan Holzem:

Ryan Holzem

Ryan M. Holzem is currently an assistant professor in the new Environmental Engineering Technology Program at the University of Wisconsin – Green Bay (UWGB). Ryan completed his undergraduate studies at the University of Wisconsin – Platteville and earned a Bachelor’s of Science in Civil Engineering with emphases in transportation and environmental engineering. He then went on to UW – Madison to earn his Masters of Science degree in Environmental Engineering. Following graduation from UW-Madison, Ryan went to work for CH2M as an environmental engineer, specializing in drinking water treatment. There he worked on stormwater and drinking water projects. Ryan then returned to academia and earned his Ph.D. from Duke University in Environmental Engineering. At Duke, Ryan examined emerging contaminants found in human biosolids on soil microorganisms following the land application of the biosolids. After Duke, Ryan worked as an Environmental Engineer at Donohue and Associates out of Sheboygan, WI for a year prior to joining UWGB in 2015.

At UWGB, Ryan has been involved with the startup of the new Engineering Technology program, which offers students B.S. degrees in Electrical, Environmental, and Mechanical Engineering Technology. Ryan’s responsibilities have included teaching courses in engineering drawing, surveying, water and wastewater, fluids, and project management, as well as, preparing the program for ABET accreditation. Ryan’s research at UWGB has expanded upon his academic and professional experience and focuses on biological, chemical, and physical processes of drinking water and wastewater treatment. He is especially interested in processes and technologies associated with nutrient and energy recovery, such as anaerobic digestion, biosolids management and disposal, and phosphorus, nitrogen, and potassium recovery. Ryan has already obtained external funding that supports the work of several undergraduate researchers on projects dealing with anaerobic digestion and manure dewatering and water treatment for large dairy farms, manure stabilization in lagoons using a biological additive, pretreatment options for the anaerobic digestion of an invasive grass species, and chloride reduction practices in meat processing facilities. In addition, Ryan serves on the Brown County Solid Waste Board.

About Roving Blue, Inc.:

The Roving Blue SWP is a lightweight, portable water purification system that produces purified drinking water from fresh water sources such as ponds, streams and ditches. It represents a significant advancement over microfiltration and UV systems due to its employment of dissolved ozone gas (more powerful than chlorine) for highly effective microbiological control. Advanced filtration + ozone gas is how many water bottling companies produce their bottled water.

Photos and Hi-Def videos of our military interactions are available upon request.

 

Contact Information:

Yana DeMyer, CEO

Roving Blue, Inc.

yana@rovingblue.com

(920) 621-2163