FrankEngineer Apps

CalCulationFM-200® is accepted and respected worldwide, with a history ofprotecting some of the world's most critical and irreplaceableassets. In fact, FM-200® is in use in over one hundred thousandapplications, in more than 70 nations.Many fire suppression systems can cause major damage to – andeven destroy – the very things they are supposed to protect. You'relooking to avoid damage – not cause it. You're looking to reducedowntime – not lengthen it. You want a fire suppression system thatdeploys quickly and cleanly and won't leave behind oily residue,particulate, or water. FM-200® fire suppressant stops fires fast.When you consider the potentially devastating environmental effectsof an uncontrolled fire, it's easy to see that an FM-200® system isan important part of an environmentally responsible firesuppression solution.

Clean agent fire suppression system (CleanAgent Extinguishing System) FM-200.Clean fire extinguishing systems, FM-200 systems are suitable to beused for the fire that occurred in an area equipped with high valueelectrical and electronic equipment is an important part of doingbusiness, such as a computer room. Control rooms,telecommunications rooms, museum or store goods or property of highvalue clean fire at the cabin. Equipment and property will not bedamaged.Clean agent fire suppression system, this Clean fire injectionsystem is a comprehensive whole room (Total Flooding System)protected area must be enclosed well using the standard NFPA2001.The FM-200 material properties and the chemical formula CF3-CHF-CF3or C3HF7 a boiling point of -16.4 ° C, it is a gas at roomtemperature. Slightly soluble in water (260 mg / liter), withelements such as First. Halogenated carbon compounds (HalocarbonAgent), which is a clean agent fire extinguisher with at least onechemical element or more of these substances is chlorine, bromine,fluorine or iodine Marine.Inert substance (Inert Gas Agent) is a clean agent fireextinguisher with at least one chemical element or more. Helium,neon, argon of these gases is carbon dioxide, nitrogen gas mixtureto be used as a secondary elementFor Appilcation FM-200 CalCulaton-2 to calculate the amount of asubstance can be calculated based on the Class A, Class B and ClassC, and can be compared to the size of the tank different cylinder.For use in the installation of FM-200 exotics the organizer candownload Manual Appication byDownload at Link:http://www.4shared.com/office/bQ_VoInT/FM200_Full_Manual_For_Applica.html

Calculation find the amount of pounds.Novec 1230, C6F12O, (Novec -1230) fluid is an environmentallyfriendly Halon replacement for use as a gaseous fire suppressionagent. Novec 1230 is manufactured. It is generally used insituations where water from a fire sprinkler would damage expensiveequipment or where water-based fire protection is impractical, suchas museums, banks, clean rooms and hospitals. Novec 1230 fluid doesnot deplete ozone (ODP 0).Novec -1230 fluid is a high molecular weight material, comparedwith the first generation halocarbon clean agents. The product hasa heat of vaporization of 88.1 kJ/kga and low vapor pressure.Although it is a liquid at room temperature it gasifies immediatelyafter being discharged in a total flooding system.The product is ideal for use in total flooding applications,localized flooding systems, directional spray type applications andmay be used in portable extinguishers for specialized applications.But in addition to the conventional methods of super-pressurizationusing nitrogen, Novec- 1230 fluid also lends itself for use in pumpapplications because it is a liquid.Novec 1230 fluid is based on a proprietary chemistry fromC6-fluoroketone; it is also known asdodecafluoro-2-methylpentane-3-one; its ASHRAE nomenclature is FK5-1-12 — the way it is designated in NFPA 2001 and ISO 14520 cleanagent standards.Chemically, it is a fluorinated ketone with the systematic name1,1,1,2,2,4,5,5,5-nonafluoro-4-(trifluoromethyl)-3-pentanone andthe structural formula CF3CF2C(=O)CF(CF3)2, a fully fluorinatedanalog of ethyl isopropyl ketone.Novec-1230 received certification from UL, FM, NFPA, the use ofopen space and room and shut down to prevent damage caused by firecan be used in the following example, computer rooms, controlrooms, electrical rooms, etc.

Novec-1230, fluid is an environmentallyfriendly Halon replacement for use as a gaseous fire suppressionagent. Novec-1230 is manufactured. It is generally used insituations where water from a fire sprinkler would damage expensiveequipment or where water-based fire protection is impractical, suchas museums, banks, clean rooms and hospitals. Novec -1230 fluiddoes not deplete ozone (ODP 0).Novec-1230 Fire Protection Fluid is a next-generation holanalternative offering outstanding performance, large margin ofsafety and excellent environmental profile• Zero ozone depletion potential• A global warning potential of 1• 5-day atmospheric lifetime• A large margin of safety for occupied spacesNovec-1230 Fire Protection Fluid is Based on a proprietary chemicalA fluorketone. The full chemical name for this compound isdodecafluoro-2-methylpentan-3-one. Its ASHRAE nomenclature-the wayit is designaed in the NFPA 2001 and ISO 14520 clean agentstandars-is FK-5-1-12. Novec-1230 Fluid offers a unique combinationof safety, low environmental impact and extinguishingperformance,making it the first chemical halon replacement to offera viable, long-term,sustainable technology for special hazards fireprotection.Download Manual Novec-1230 Desing Linkhttps://drive.google.com/file/d/0BxaWWGlfYY6NVmtSU0ctZ0djdTg/view?usp=sharingFunction in Novec-1230 Design1. Calculation Room Volume For Design Room2. Function Data Design Class concentration3. Calculation Novec-12304. Calculation Number Nozzle Novec-1230 For design Pipe5. Calculation design Pipe For6. Table design Pipe Novec-1230Novec-1230 Fluid is Applied as a gas, but is liquid at roomtemperature. It is electrically non-conducting in both the liquidand gasesous state. The breakdown voltage of Novec-1230 fluid vaporubder saturated conditions at 1 atm ,21 C over a 2.7 mm electrodegap is 15.6 kV, nearly 2.3 time that of dry nitrogen. The breakdownvoltage of liquid Novec-1230 fluid under the same conditions is 48kV.The properties of Novec-1230 are similar to many of the firestgeneration halon alternatives with one primary exception –thiscompound is a liquid at ambient conditions. The boiling point ofNovec-1230 fluid is 49.2 C , meaning this product has a much lowervapor pressure than other clean agents, which are gases at ambientconditions.Novec-1230 fluid has a very low heat of vaporization,approximately 25 times less then that of water. This allows theagent to transition from a liquid to a gaseous state very rapidlywhen discharged through a nozzle. In a properly designed system,Novec-1230 fluid will rapidly vaporize and evenly distributethroughout the protected space.Novec-1230, fluid is anenvironmentally friendly Halon replacement for use as a gaseousfire suppression agent. Novec-1230 is manufactured. It is generallyused in situations where water from a fire sprinkler would damageexpensive equipment or where water-based fire protection isimpractical, such as museums, banks, clean rooms and hospitals.Novec -1230 fluid does not deplete ozone (ODP 0).Novec-1230 Fire Protection Fluid is a next-generation holanalternative offering outstanding performance, large margin ofsafety and excellent environmental profile.• Zero ozone depletion potential• A global warning potential of 1.• 5-day atmospheric lifetime• A large margin of safety for occupied spaces.Novec-1230 Fire Protection Fluid is Based on a proprietary chemicalA fluorketone. The full chemical name for this compound isdodecafluoro-2-methylpentan-3-one. Its ASHRAE nomenclature-the wayit is designaed in the NFPA 2001 and ISO 14520 clean agentstandars-is FK-5-1-12. Novec-1230 Fluid offers a unique combinationof safety, low environmental impact and extinguishing performance,making it the first chemical halon replacement to offer a viable,long-term, sustainable technology for special hazards fireprotection.Download Manual Novec-1230 Desing Link.https://drive.google.com/file/d/0BxaWWGlfYY6NVmtSU0ctZ0djdTg/view?usp=sharingFunction in Novec-1230 Design1. Calculation Room Volume For Design Room.2. Function Data Design Class concentration3. Calculation Novec-12304. Calculation Number Nozzle Novec-1230 For design Pipe.5. Calculation design Pipe For6. Table design Pipe Novec-1230.Novec-1230 Fluid is Applied as a gas, but is liquid at roomtemperature. It is electrically non-conducting in both the liquidand gasesous state. The breakdown voltage of Novec-1230 fluid vaporubder saturated conditions at 1 atm, 21 C over a 2.7 mm electrodegap is 15.6 kV, nearly 2.3 time that of dry nitrogen. The breakdownvoltage of liquid Novec-1230 fluid under the same conditions is 48kV.The properties of Novec-1230 are similar to many of the firestgeneration halon alternatives with one primary exception -thiscompound is a liquid at ambient conditions. The boiling point ofNovec-1230 fluid is 49.2 C, meaning this product has a much lowervapor pressure than other clean agents, which are gases at ambientconditions.Novec-1230 fluid has a very low heat of vaporization,approximately 25 times less then. that of water. This allows theagent to transition from a liquid to a gaseous state very rapidlywhen discharged through a nozzle. In a properly designed system,Novec-1230 fluid will rapidly vaporize and evenly distributethroughout the protected space.

Financial ratios are relationships determinedfrom a company's financial information and used for comparisonpurposes. Examples include such often referred to measures asreturn on assets (ROA),return on Equity, and debt-to-equity, toname just three. And financial Ratios analysis budget a company'sfinancial. These ratios are the result of dividing one accountbalance or financial measurement with another. Usually thesemeasurements or account balances are found on one of the company'sfinancial statements balance sheet, income statement, cashflowstatement, and/or statement of changes in owner's equity. Financialratios can provide small business owners and managers with avaluable tool with which to measure their progress againstpredetermined internal goals, a certain competitor, or the overallindustry. In addition, tracking various ratios over time is apowerful means of identifying trends in their early stages. Ratiosare also used by bankers, investors, and business analysts toassess a company's financial status.Ratios are calculated by dividing one number by another, totalsales divided by number of employees, for example. Ratios enablebusiness owners to examine the relationships between items andmeasure that relationship. Financial ratios Calculate are simple tocalculate, easy to use, and provide business owners with insightinto what is happening within their business, insights that are notalways apparent upon review of the financial statements alone.Ratios are aids to judgment and cannot take the place ofexperience. But experience with reading ratios and tracking themover time will make any manager a better manager. Ratios can helpto pinpoint areas that need attention before the looming problemwithin the area is easily visible. For financial Ratios Calculateis application Ratios CalculateDownload Manual Financial Ratios Calculate Linkhttps://drive.google.com/file/d/0BxaWWGlfYY6NS0dXRnZXcHlsN1U/view?usp=sharingFunction Financial Ratios Calculate1. Liquidity analysis ratios2. Profitability Analysis Ratios3. Asset Management Ratios4. Debt Management Ratios5. Capital Market Analysis Ratios6. Cash Flow Indicator RatiosDownload Manual Financial Ratios Calculate Linkhttps://drive.google.com/file/d/0BxaWWGlfYY6NS0dXRnZXcHlsN1U/view?usp=sharingFinancial ratios aredetermined to relationships from a company's financial informationand used for comparison purposes. Such examples include MeasuresOften Referred to as return on assets (ROA), return on equity, anddebt-to-equity, to name just three. Ratios and financial analysisto company's financial budget. These ratios are the result ofdividing one account balance or financial measurement with another.Usually These measurements or account balances are found on one ofthe company's financial statements balance sheet, income statement,cash flow statement, and / or statement of Changes in owner'sequity. Financial ratios can Provide small business owners andmanagers with a valuable tool to measure Which With Their progressagainst predetermined internal goals to Certain competitor, or theoverall industry. In Addition, tracking various ratios over time isa powerful Means of Identifying trends in Their early stages. Alsoratios are used by bankers, investors, and business analysts toassess a company's financial status.Ratios are Calculated by dividing one number by another, Totalsales divided by number of employees, for example. Ratios enablebusiness owners to examine the relationships Between items andmeasure That relationship. Calculate financial ratios are simplerto calculate, easy to use, and Provide With business owners insightinto what is happening Within Their business, insights That are notalways apparent upon review of the financial statements alone.Ratios are aids to judgment and can not take the place ofexperience. But experience with reading ratios and tracking themover time will make any manager to better manager. Ratios can helpto pinpoint areas That need attention before the looming problemEasily Within the area is visible. For financial ratios RatiosCalculate Calculate is applicationCalculate Financial Ratios Manual Download Linkhttps://drive.google.com/file/d/0BxaWWGlfYY6NS0dXRnZXcHlsN1U/view?usp=sharingFunction Calculate Financial Ratios1. Liquidity analysis ratios2. Analysis Profitability Ratios3. Asset Management Ratios4. Debt Management Ratios5. Capital Market Analysis Ratios6. Cash Flow Indicator RatiosCalculate Financial Ratios Manual Download Linkhttps://drive.google.com/file/d/0BxaWWGlfYY6NS0dXRnZXcHlsN1U/view?usp=sharing

Fire Suppression SystemInert Gas With the big push toward "Green", inert gasses havebecome a good choice as they are the most green of all of the CleanAgents. Inert gasses are defined as using one or more of the gassesNitrogen, argon. CO2 is also found in one of the inert gas blends.Inert gasses work by removing the oxygen in the hazard to a pointwhere it will not support a fire, but still high enough to supportlife. Design considerations when using inert gasses are pressureventing and volume. It is critical to design the system to achievethe correct concentration, and not remove too much oxygen in theroom. Plus, venting of inert gasses is important as it displacesthe air volume in the hazard area. AFT can assist in determiningwhich agent is best suited to protect the hazard area (includesdetection and control for the system.Inert Gas DesignIG-01 (ARGON) = ARGON (100%)IG-55 = NITROGEN (50%) + ARGON (50%)IG-100 (NITROGEN) = NITROGEN (100%)IG-541 (INERGEN) = NITROGEN (52%) + ARGON (40%) + CO2 (8%)How do Inert Gases work as a fire suppression system?The air we breathe has approximately 21% of Oxygen. Oxygen is thekey factor in sustaining a fire and the key factor in keep us alivetoo!By removing the oxygen, we will certainly extinguish a fire, butthat comes with obvious problems. How do we sustain life at thesame time?Fires need more than 15% Oxygen to combust. Anything below thislevel of oxygen will not be enough for a fire to sustaincombustion.Luckily, we only need 12% plus of oxygen to survive and this iswhere the answer lies. To extinguish a fire and sustain life, weneed to reduce oxygen from 21% (assuming were at sea level) tobelow 15%, but not less than 12%. This will extinguish a fire andsustain life at the same time.Download Manual Inert Gas Design Calculate Fire Suppression DesignLinkhttps://drive.google.com/file/d/0BxaWWGlfYY6NVk5RREc4RXRKVDA/view?usp=sharingFunction Inert Gas Design Calculate Fire Suppression1. Calculation Room Volume For Design Room2. Function Data Design Dischart Time Inert Gas3. Calculation IG-014. Calculation IG-555. Calculation IG-1006. Calculation IG-5417. Calculation Number Nozzle Inert Gas For design Pipe8. Calculation design Pipe and Manifolo size For Inert Gas9. Calculation design Damper Size Calculation design10. Table design Pipe For Inert GasDownload Manual Inert Gas Design Calculate Fire Suppression DesignLinkhttps://drive.google.com/file/d/0BxaWWGlfYY6NVk5RREc4RXRKVDA/view?usp=sharing

Collect the coins for the game. Thegametrained to use the super-consciousness, the ability tomakedecisions. To collect coins as well as gold medals, a silvermedalby scoring the gold medal will be a 30 point silver will be at20points winners will have 10 points, just dip your finger onthescreen also. to collect coins. They have already It's easy.Topractice your decision. Use Android version 4.0.3สำหรับเกมเก็บเหรียญ เป็นเกมที่ฝึกใหวพริบการใช้สติความสามารถในการตัดสินใจ ในการเก็บเหรียญที่เป็นทั้งเหรียญทองเหรียญเงิน เหรียญทองแดง โดยคะแนนการเก็บเหรียญทองจะได้อยู่ที่30คะแนน เหรียญเงินจะได้อยู่ที่ 20 คะแนน เหรียญทองแดงจะได้อยู่ที่10คะแนน แค่จิ้มนิ้วมือลงบนหน้าจอก็สามารถเก็บเหรียญต่างๆๆได้แล้วแค่ง่ายนิดเดียว ที่จะฝึกการตัดสินใจของคุณ ใช้สำหรับAndroid version4.0.3Collect the coins forthegame. The game trained to use the super-consciousness, theabilityto make decisions. To collect coins as well as gold medals,asilver medal by scoring the gold medal will be a 30 pointsilverwill be at 20 points winners will have 10 points, just dipyourfinger on the screen also. to collect coins. They have alreadyIt'seasy. To practice your decision. Use Android version4.0.3.Collect the coins for the game. The game trained to usethesuper-consciousness, the ability to make decisions. Tocollectcoins as well as gold medals, a silver medal by scoring thegoldmedal will be a 30 point silver will be at 20 points winnerswillhave 10 points, just dip your finger on the screen also. tocollectcoins. They have already It's easy. Your decision to trainforAndroid version 4.0.3.

Cloud is a group of small water dropletsformedby condensation of water droplets in the air. The cloudlayer withtemperatures below freezing, which is a group of smallice crystals.Normally, water vapor and transparent and can not beseen. The waterdroplets and ice crystals surface (Surface), whichreflects light,we can see a white cube. And sometimes the angle ofincidence oflight and shadows from the clouds or cloud layer onthe side. Or thedensity of water droplets in a cloud. It mayappear as a graycloud.Suggestible Cloud Calculate to calculate the height of thecloudmeasures the density of the ice condition. Size and pressureof theairIn nature, the clouds formed by the shape of two types of cloudsandcloud sheet. Called cloud Cumulus clouds and sheets calledStratusIf clouds floating contiguously. We brought the twotogether andcall it Christmas. Stratocumulusin case of a raincloud to add thewords "New Lamborghini" or "Nimbus," which means"rain" entered intoby the clouds that caused the storm. thethunder Cumulonimbus andrun cloud plate with a drizzle calmly thatNimbostratus.1. The cloud is high from the ground floor up to 2 kilometers,thereare 5 types of clouds, Stratus clouds, cumulus clouds,cumulusTelstra grow. Stratus clouds Nimrod Bose. Lo Nimbus cloudandaccumulator. As mentioned above, However, meteorologistsconsideredClouds, cumulus clouds and accumulator Lo Nimbus. Acloud formationvertically. The cloud base is below the cloudlayer. The cloud maybe in the cloud, intermediate andadvanced.2. The middle layer clouds occur at high levels 2-6 kilometerstofill in the name, the word "alto", which translates as"middleclass" as the next cloud layer called a medium. Altostratuscloudsare middle class. Altocumulus.3. High clouds occur at altitudes of more than 6 kilometers tofillin the name, the word "service road" which translates as "high"infront of such a high cloud layer. Cirrostratus highcloudscalled.Cirrocumulus also advanced cloud shaped like feathersknownas Cirrus.Function Cloud Calculate1. Cloud Type2. Cloud Chart3. Cloud Base Calculate4. Pressure Altitude Calculate5. Density Altitude Calculate6. Extrapolated Density Altitude7. Pressure Conversion8. Contact

Standard for Water Spray Oil Fixed Systems for Fire Protection

Computing systems, clean agentfireextinguishers are suitable to be used for the fire thatoccurred inan area that is equipped with electronics that arehighly valued.And an important part of doing business , such as acomputer room .Telecommunications control rooms . Or where thegoods or high valueassets such as museums , etc. All clean fireuse. Equipment andproperty will not be damaged .Clean agent fire suppression system, this Clean fireinjectionsystem is a comprehensive whole room (Total FloodingSystem)protected area must be enclosed as well. Clean to Preventleaks outof the protected area. While the injection system clean,clean fireextinguishing agent is used to blanket the fire room hastwotypes.1. Halogenated carbon compounds (FM-200 Halocarbon Agent), whichisa clean agent fire extinguisher with at least one chemicalelementor more of these agents is fluorine chlorine, bromine oriodine,Marine based clean fire extinguishing system standardNFPA2001.2. Novec™ 1230 fire protection fluid is a next generationcleanagent Halon alternative. It combines outstandingextinguishingperformance with an excellent environmental profile.Novec 1230fire protection fluid has zero ozone depletion potential,a globalwarming potential of one, a five day atmospheric lifetime,and alarge margin of safety for occupied spaces. Novec 1230fireprotection fluid extinguishes fire primarily by removing heatfromthe fire. It is also electrically non-conductive NFPA2001.3. Inert substance (Inert Gas Agent) is a clean agentfireextinguisher with at least one chemical element or more.Helium,neon , argon of these gases is carbon dioxide, nitrogen gasmixtureto be used as a secondary element . Standard cleanfireextinguishing systems NFPA 2001.4. Carbon dioxide. Clean water is a major component ofcarbondioxide fire extinguishers . Standard clean fireextinguishingsystems NFPA 12.It basically is a clean agent fire safety to life and mustbeprepared at all times to be used to evacuate people . Or helpthepeople trapped inside the protected area . In addition,securityshould be considered more . Training officer is warningalarm.Breathing apparatus . (Self-Contained BreathingApparatus)evacuation plans and evacuation drills . So, on thepremises , orany organization has prepared and alert at all timesand fireprotection , it can reduce the rate of fire and reducedamage fromthe fire down.

For Calculation design water SprinklerSystemsin PIPE standard NFPA 13Automatic fire sprinkler system water is a sprinkler system hasbeenrecognized as effective in controlling the fire was very good.Andare currently installed are widely used worldwide. You cancontrolthe fire that occurred immediately while the fire is stillsmall.Make fire stop its aggressive expansion. The birth was lesssmokeand fire occurred in a limited area. This system makes thebuildingmore and more time in the fire. Which represents the lifeof thebuilding will have more fire safety as well.Download Manual Water Sprinkler Pro Calculation Design Linkhttps://drive.google.com/file/d/0BxaWWGlfYY6NY0FZWGN0RFo2U1U/view?usp=sharingFunction in Water Sprinkler Pro Calculation Design1. Calculation Number Sprinkler2. Calculation Area Sprinkler Nozzle3. Calculation Flow Sprinkler4. Calculation Pressure Sprinkler5. Calculation Friction Loss Pipe or Pressure LossPipe(Hazen-william) Formula6. Graph For Design Sprinkler7. Table For Design Pipe Schedules Sprinkler, K-Factor,C VlaueLosspipe,Hose Stream WaterType of Automatic Sprinkler System1. Wet pipe systems is suitable for use with a fire atambienttemperature does not make the water in the pipesclotting.2. Dry pipe systems is suitable to use for protected areasaregenerally below freezing temperatures. Which causes hardeningofthe water in the pipe. The pipeline will have a compressedairinstead of water. For countries with cold climates.3. Tubular slow drying water (Pre Action System) system is idealforareas that require protection to avoid. Fire sprinkler systemsworkthat can go wrong.4. Open (Deluge System) system is ideal for special fireprotectionarea. Fire or water in bulk from the sprinkler head open(OpenSprinkler) at the head of all the types of systems thatarediscussed in this.In the design and installation of fire sprinkler water. Foranybuilding, regardless of water pressure tank or pipe publicwithsufficient pressure and flow. Determination of water to thefiresprinkler system, sprinkler. Occupied areas of the buildingmust betaken into consideration as well. This type ofdiscrimination thatis occupied. Will depend on the type andquantity of materials intofuel that is in the area.An assortment of area occupied for the building is divided into3categories.1. Space occupied less dangerous (Light Hazard Occupancies)refersto the place where the fuel and the ability to burn lowasresidential, office, school, hospital, etc.2. Occupied dangerous medium (Ordinary Hazard Occupancies).2.1. Space occupied moderate hazard group 1 (Ordinary HazardGroup1) refers to the place where the fuel is its ability to burnlow.Moderate amount of fuel Division of materials into fuel withamaximum height of 8 feet, such as electronicequipmentmanufacturing industries. Canned food factory, etc.2.2. Space occupied moderate hazard group 2 (Ordinary HazardGroup2) refers to the place where the fuel and the ability to burnamoderate to high. Division of materials into fuel with amaximumheight of 12 feet, such as manufacturing, textiles, paperand pulpmills, etc.3. occupy dangerous areas (Extra Hazard Occupancies).3.1. The space occupied a very dangerous group 1 (Extra HazardGroup1) refers to the place where the fuel and the ability toburnextremely dusty or substances that cause an erection caughtfire.Or other material that could cause the flames quickly, butnotflammable and combustible materials, such as plywood andtimberproduction. Rubber industry, etc.3.2. Occupied a very dangerous group 2 (Extra Hazard Group 2)refersto the place where the amount of flammable andcombustiblesubstances or storage medium to very large. These areasarecharacterized by the use involving flammable liquids(CombustibleLiquid) or flammable liquids (Flammable Liquid) such asplants,refineries, paint, etc.

Water Sprinkler Calculation ForCalculationdesign water Sprinkler Systems in PIPEAutomatic fire sprinkler system water is a sprinkler system hasbeenrecognized as effective in controlling the fire was very good.Andare currently installed are widely used worldwide. You cancontrolthe fire that occurred immediately while the fire is stillsmall.Make fire stop its aggressive expansion. The birth was lesssmokeand fire occurred in a limited area. This system makes thebuildingmore and more time in the fire. Which represents the lifeof thebuilding will have more fire safety as well.Download Manual Water Sprinkler Calculation Linkhttps://drive.google.com/file/d/0BxaWWGlfYY6NYUY3dkJDdS16dVE/view?pli=1Download Appilcation Water Sprinkler ProCalDesign Linkhttps://play.google.com/store/apps/details?id=com.soft.watersprinklerpro&hl=enType of Automatic Sprinkler System1.Wet pipe systems is suitable for use with a fire atambienttemperature does not make the water in the pipesclotting.2. Dry pipe systems is suitable to use for protected areasaregenerally below freezing temperatures. Which causes hardeningofthe water in the pipe. The pipeline will have a compressedairinstead of water. For countries with cold climates.3. Tubular slow drying water (Pre Action System) system is idealforareas that require protection to avoid. Fire sprinkler systemsworkthat can go wrong.4. Open (Deluge System) system is ideal for special fireprotectionarea. Fire or water in bulk from the sprinkler head open(OpenSprinkler) at the head of all the types of systems thatarediscussed in this.In the design and installation of fire sprinkler water. Foranybuilding, regardless of water pressure tank or pipe publicwithsufficient pressure and flow. Determination of water to thefiresprinkler system, sprinkler. Occupied areas of the buildingmust betaken into consideration as well. This type ofdiscrimination thatis occupied. Will depend on the type andquantity of materials intofuel that is in the area.An assortment of area occupied for the building is divided into3categories.1.Space occupied less dangerous (Light Hazard Occupancies) referstothe place where the fuel and the ability to burn low asresidential,office, school, hospital, etc.2.Occupied dangerous medium (Ordinary Hazard Occupancies).2.1. Space occupied moderate hazard group 1 (Ordinary HazardGroup1) refers to the place where the fuel is its ability to burnlow.Moderate amount of fuel Division of materials into fuel withamaximum height of 8 feet, such as electronicequipmentmanufacturing industries. Canned food factory, etc.2.2. Space occupied moderate hazard group 2 (Ordinary HazardGroup2) refers to the place where the fuel and the ability to burnamoderate to high. Division of materials into fuel with amaximumheight of 12 feet, such as manufacturing, textiles, paperand pulpmills, etc.3.occupy dangerous areas (Extra Hazard Occupancies).3.1.The space occupied a very dangerous group 1 (Extra HazardGroup1) refers to the place where the fuel and the ability toburnextremely dusty or substances that cause an erection caughtfire.Or other material that could cause the flames quickly, butnotflammable and combustible materials, such as plywood andtimberproduction. Rubber industry, etc.3.2.Occupied a very dangerous group 2 (Extra Hazard Group 2)refersto the place where the amount of flammable andcombustiblesubstances or storage medium to very large. These areasarecharacterized by the use involving flammable liquids(CombustibleLiquid) or flammable liquids (Flammable Liquid) such asplants,refineries, paint, etc.Download Manual Water Sprinkler Calculation Linkhttps://drive.google.com/file/d/0BxaWWGlfYY6NYUY3dkJDdS16dVE/view?pli=1

AppicationCalculation High pressure CO2 Agent System Substance Volume.Co2Automatic fire extinguishing system with Carbon Dioxide (CO2) gasisone that is preferable to use an automatic fire suppressionsystems,gas Carbon Dioxide (CO2) fire suppression system iseffective. Andreputation in the fire have been 10 years long timeago, with gas,Carbon Dioxide (CO2) and received certification fromUL, FM, NFPA,the use of open space and room and shut down toprevent damagecaused by fire can be used in the following example,computer rooms,control rooms, electrical rooms, etc.แอฟพิเคชันการคำนวณสารระบบดับเพลิง แรงดันสูง CO2ระบบดับเพลิงอัตโนมัติด้วย Carbon Dioxide(CO2)เป็นแก๊สชนิดหนึ่งที่เป็นที่นิยมในการมาใช้งานระบบดับเพลิงอัตโนมัติซึ่งแก๊สCarbon Dioxide (CO2)เป็นระบบดับเพลิงที่มีประสิทธิภาพและมีชื่อเสียงในการดับไฟมาหลาย 10ปีแล้วตลอดระยะเวลาทีผ่านมาระบบด้วยแก๊ส Carbon Dioxide(CO2)และอุปกรณ์ได้รับการรับรองมาตรฐาน จากสถาบัน UL, FM,NFPAเช่นเดียวกันสามารถใช้งานได้ทั้งพื้นที่โล่งและห้องปิดเพื่อป้องกันและความเสียหายที่เกิดขึ้นจากเหตุเพลิงไหม้สามารถใช้งานได้ในห้องดังต่อไปนี้เช่นห้องคอมพิวเตอร์ ห้องควบคุม ห้องไฟฟ้า เป็นต้น

A pump is a device that moves fluids liquidsorgases or sometimes slurries, by mechanical action. Pumps canbeclassified into three major groups according to the method theyuseto move the fluid direct lift, displacement, and gravity pumps.Download Manual Pump Calculate Designhttps://drive.google.com/file/d/0BxaWWGlfYY6NUWRkU1g2MlI2QXc/view?usp=sharingPumps operate by some mechanism (typically reciprocatingorrotary), and consume energy to perform mechanical work bymovingthe fluid. Pumps operate via many energy sources, includingmanualoperation, electricity, engines, or wind power, come in manysizes,from microscopic for use in medical applications tolargeindustrial pumps.Mechanical pumps serve in a wide range of applications suchaspumping water from wells, aquarium filtering, pondfilteringandaeration, in the car industry for water-cooling andfuel injection,in the energy industry for pumping oil and naturalgas or foroperating cooling towers. In the medical industry, pumpsare usedfor biochemical processes in developing and manufacturingmedicine,and as artificial replacements for body parts, inparticular theartificial heart and penile prosthesis.Function1. Method For Design2. Pump Size Table3. Pump Calculate SI Unit & Pump Calculate US Unit4. Head Losses Darcy Weisbach Equation5. Friction Head Loss6. Table7. Suction & Discharge Heads8. Dynamic Head9. NPSHFunction Method For Design1. Discharge Static Head2. Static Head3. Type of Pump4. Application of Pumps5. System of Units6. Pump Column PIPE7. ContactFunction Pump Size Table1. Motor Pump Size2. Application of Pump3. Type of Pumps4. Type of Pumps5. Flow Pump PIPE6. Head Loss of Fluid Valve & Fitting7. Table8. Method For DesignFunction Friction Head Loss1. Reynolds Number Calculate2. Friction Factor3. Friction Head Loss On Suction4. Friction Head Loss On Discharge5. Pressure Drop6. Suction Fittings & Valves7. Discharge Fittings & Valves8. Moody Diagram Graph9. Table10. Fluid VelocityFunction Table1. Actual PIPE Diameters2. Equivalent Lengths3. Pipe Roughness4. C Value5. Moody Diagram Graph6. K-Factor Valve & Fittings7. Motor Pump Size8. Pump Size TableDownload Manual Pump Calculate Designhttps://drive.google.com/file/d/0BxaWWGlfYY6NUWRkU1g2MlI2QXc/view?usp=sharingCreating Application Software Pump Calculate Design havereceivedthe knowledge of teaching Dr.Nong Nitatwichit, I developedtheApplication Software Pump Calculate Design thanksDr.NongNitatwichit, who has knowledge of the professor.

Calculate Design High Pressure Carbon Dioxide Fire SuppressionSystems

Standard for Water Spray Fixed Systems for Fire Protection

Water Mist Design Calculate is a software applicationforcalculating and design the Water Mist Fire Protection System,ahumane and environmentally friendly fire fighting systemcompliantwith NFPA750 and fire protection standards. DownloadManual WaterMist Design CalculateApplicationhttps://drive.google.com/open?id=0BxaWWGlfYY6NaHUwSVF0anJkLUUWaterMist Fire protection system is a fire control system that usesaspray of water droplets with a droplet of water that issufficientto provide water to help control fire. The mist system isused byheat Area. • Reduce the heat of flame and hot air, resultinginfires that take place as steamers and evaporate intosteam.(Displacing Oxygen by Evaporation) • Evaporation of oxygenbyevaporation • Radiation barriers help in evacuation.Theeffectiveness of the fire control system depends on the spraytype,the size and diffusion of the water mist. Flux Density anddynamicspray are different depending on the nature of the fire.Differenceof type of shooting, masking, size of fire andventilation. Theremarkable features of the Water Mist System areits superiority toconventional gas sprinklers and conventionalsprinklers(Traditional Sprinkle). • The system can workimmediately. Do notwait for evacuation Like a gas group • Highlyeffective inbroad-based fire control. • Minimized Water Damage.•Environmentally friendly • Non toxic to humans and organisms.Thedesign of fog-type fire extinguishers has a prohibition on theuseof jargon for work with chemicals and the danger. DownloadManualWater Mist Design CalculateApplicationhttps://drive.google.com/open?id=0BxaWWGlfYY6NaHUwSVF0anJkLUUFunction1. METHOD FOR DESIGN 2. HEAD LOSSES DARCY WEISBACHEQUATION 3.FRICTIONAL LOSS HAZEN-WILLIAM EQUATION (SI) 4.SPRINKLER CALCULATE5. TABLE FOR DESIGN 6. GRAPH FOR DESIGN 7.WATER MIST CALCULATE FLOWRATE 8. VELOCITY PRESSURE Function MethodFor Design 1. SCHEMATICWATER MIST SYSTEM 1 2. SCHEMATIC WATER MISTSYSTEM 2 3. SCHEMATICWATER MIST SYSTEM 3 4. SCHEMATIC WATER MISTSYSTEM 4 5. SCHEMATICWATER MIST SYSTEM 5 6. SCHEMATIC WATER MISTSYSTEM 6 7. WATER MISTINTRODUCTION 8. SYSTEM SUPPLY WATER MIST 9.TEST AND MAINTENANCE 10.CONTACT Function Sprinkler Calculate 1.REYNOLDS NUMBER CALCULATE 2.EQUIVALENT PIPE LENGTHS FACTOR 3. FLOWSPRINKLER 4. CALCULATEPRESSURE & FLOW Water 5. AREA SPRINKLERWATER MIST 6. NUMBERSPRINKLER WATER MIST 7. HOSE STREAM ALLOWNCE8. WATER SUPPLYCALCULATE 9. TABLE 10. NITROGEN CALCULATE FunctionTable For Design1. C Value Multiplier Hazen–Williams C Value 2.Equivalent Length ofPipe for Copper Fittings and ValuesK-FactorValve & Fittings 3.Clearance from Water Mist Equipment LiveUninsulated Electrical 4.WATER SUPPLY CALCULATE 5. Tube HangerMaximum Spacing 6. RecommendedMinimum Bending Radii for DifferentSizes of Tube 7. Illustratingthe Calculation of a Weighted AverageDrop Size 8. K-Factor WaterMist Nozzle 9. Temperature Ratings andColor Codeing Function GraphFor Design 1. MOODY DIAGRAM GRAPH 2.Flow Rate per Unit AreaWeighted 3. PREACTION 4. ALARM CHECK VALVE5. DELUG DESIGN 6.Droplet Size Measurement Locations. 7.DENSITY/AREA CURUES. 8. TABLE9. HOME Download Manual Water MistDesign CalculateApplicationhttps://drive.google.com/open?id=0BxaWWGlfYY6NaHUwSVF0anJkLUU

Fire Pump Design Calculate a Software application forcalculationand design of the installation of the Fire Pump systemandsprinkler system For Fire Protection. By Fire Pump DesignCalculatea Software application have 58 Function For use CalcualteandDesign For Sprinkler system installation of the Fire PumpsystemFire Pump it is a type of pump that is part of a firesprinklersystem or a fire hose to act entered into the system withwatervolume and pressure. Sufficient to operate the fireProtectionsystem designed. The system consists of Fire PumpDownload ManualFire Pump Design Calculate AppilcationLinkhttps://drive.google.com/file/d/0BxaWWGlfYY6NeXk0ejZFLWY0RDg/view?usp=sharingThefire pump system consists of the following key. 1. Keepingpressurepump (Jockey Pump). 2. Fire pump (pump power). 3.Controlled pumpsmaintain pressure (Jockey Pump Controller). 4.Controlled pump fire(fire pump Controller). 5. Pressure reliefvalve The work of thefire pump system based on water demand withinthe fire hose engineerwill determine the level of pressure on thestates to start and stopthe pump system failure. firefighters areusually located on thethird level in a pump used to power a fireengine and a four-levelin the event a fire pump that uses anelectric motor to power thesources. "Setting up the pressureSwitch fire pump and Jockey Pump". Fire Pump Design Calculate aSoftware application have 58Function FUNCTION APPLICATION FIREPUMP CALCULATE Function MethodFor Design 1. Types of Stationarypump 2. Jockey Pump InstallationDiagram 3. Horizontal Split-CaseFire Pump Installation 4. VerticalShaft Turbine-Type PumpInstallation 5. Symblo 6. Total Head ofVertical turbine-type Firepump 7. Total Head of All Types ofStationary-Type Fire Pump 8.Right And Wrong Pump Suction 9. ContactFunction Fire Pump SizeTable 1. Fire Pump Table 2. Summery OfCentriugal Fire Pump Data 3.Flow Rate Fluid In Pipe 4. Head Loss OfFluid Valve &Fitting 5.Flow Pump PIPE 6. Water Supply Calculate7. Fire Pump Calculate 8.Jockey Pump Calculate 9. Npsh FunctionFire Pump Calculate 1. FirePump Calculate Sprinkler Design AreaHydraulic Calculation 2. FirePump Calculate Flow Rate SprinklerNozzle Hydraulic CalculationFunction Sprinkler Calculate 1. AreaSprinkler 2. Number Sprinkler3. Flow Sprinkler (Nozzle) 4.Calculate pressure & Flow 5.Frictional Loss Hazen-WilliamEquation (SI) 6. Frictional LossHazen-William Equation (Us) 7. FirePump Calculate Sprinkler 8.Water Supply Calculate 9. Hose StreamAllownce 10. Table For DesignFunction Table For Design 1. K-FactorSprinkler 2. C Value 3. HoseStream Water 4. K-Factor Valve &Fittings 5. Actual PipeDiameters 6. Eqiualent Lengths 7. Head Lossof Fluid Valve &Fitting 8. Table Sprinkler Pipe 9. Light HazardPipe 10. OrdinaryHazard Pipe 11. Extra Hazard Pipe Function GraphFor Design 1.Moody Diagram Graph 2. Density/Area Curues 3. AlarmCheck Valve 4.Deluge Size Design 5. Preaction 6. Velocity Pressure7. PumpCharctrietics 8. Hydraulic Graph 9. Table Download ManualFire PumpDesign Calculate AppilcationLinkhttps://drive.google.com/file/d/0BxaWWGlfYY6NeXk0ejZFLWY0RDg/view?usp=sharingCreatingApplication Software Fire Pump Design Calculate havereceived theknowledge of teaching Dr.Nong Nitatwichit, MyUniversity maejouniversity And my friends My work experience

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