The solution will provide a total volume of 225,000 liters of ME foam monitor, which will be released at a rate of up to 9,000 liters medium expansion foam per second, with a range of up to 100 meters. The system goes into full operation within five seconds after your drive. The figure below shows, graphically, a possible proposal for location and each set coverage radius. For this purpose, three sets of equipment would be used, providing 625,000 liters of medium expansion foam.
It has become more apparent over the years how important it is to have adequate fire protection in every building. For most people (Non-technical), what comes to mind when they think of fire protection are Sprinkler system, smoke detectors and fire extinguishers. However, these two elements only cover a small portion of the protection services you should have at all times. There are in fact two types of fire protection: Active Fire Protection (AFP) and Passive Fire Protection (PFP). One type of protection must not be chosen over the other. On the contrary, both AFP and PFP must be used together for full fire protection. It is important to understand the difference between AFP and PFP so that you are confident that your building is protected by both types.
It has become more apparent over the years how important it is to have adequate fire protection in every building. For most people (Non-technical), what comes to mind when they think of fire protection are Sprinkler system, smoke detectors and fire extinguishers. However, these two elements only cover a small portion of the protection services you should have at all times. There are in fact two types of fire protection: Active Fire Protection (AFP) and Passive Fire Protection (PFP). One type of protection must not be chosen over the other. On the contrary, both AFP and PFP must be used together for full fire protection. It is important to understand the difference between AFP and PFP so that you are confident that your building is protected by both types.
Overview of Automatic Fire Sprinkler Systems.pptxM&E Engineer
An Automatic Fire Sprinkler System is a network of water-filled pipes which starts at your domestic water service line and ends with strategically spaced fire sprinkler heads located throughout your home.
A fire alarm system warns people when smoke, fire, carbon monoxide or other fire-related emergencies are detected. There are two types of fire alarm initiating devices: manual and automatic.At the core of a fire alarm system are the detection devices, from sophisticated intelligent smoke detectors to simple manually operated break glass units, there are a wide array of different types, but we can divide them into groups including:
– Heat detectors
– Smoke detectors
– Carbon Monoxide detectors
– Multi-sensor detectors
– Manual Call Points
Makalah ini berisi manual emergency plan, cocok buat anda yang sedang menekuni dunia HSE atau K3. Jika anda berminat untuk mendownlod silahkan hubungi 082310440213
The revolutionary Water-Mist technology. Low Pressure & High Pressure Water-Mist. Design calculations, Standards, Applications, Limitations. Alternative to Gas suppression - sprinkler systems.
Contact: 95949-66462
Rancangan Kebutuhan Dan Penempatan APAR Gedung Kantor SETDA Kab. Kepl. TalaudYOHANIS SAHABAT
5.1. Kesimpilan
Dari hasil penelitian yang sudah dilakukan, melalui beberapa tahapan mulai dari observasi lapangan sampai dengan pengolahan data hasil lapangan diatas penulis dapat menarik kesimpulan sebagai berikut :
1) Mengingat Gedung Kantor SETDA Kab. Kepl. Talaud belum memiliki APAR, maka sebaiknya saat ini dilakukan perencanaan untuk pengadaanya, guna memenuhi ketentuan dan persyaratan sebagaimana pada KEPMEN PU Nomor : 10/KPTS/2000, tentang Ketentuan Teknis Pengaman Terhadap Bahaya Kebakaran Pada Bangunan Gedung dan Lingkungan, yang dapat memberikan keamanan, keselamatan, dan kenyamanan, bagi para Pegawai maupun pengunjung dan masyarakat lainnya;
2) Adapun potensi bahaya kebakaran yang ada pada gedung tersebut, berdasarkan hasil pengamatan identifikasi bahaya kebakaran meliputi klasifikasi kebakaran A, B dan C;
3) Untuk langkah pencegahan terhadap risiko bahaya kebakaran pada gedung tersebut, perlu disediakan Alat Pemadam Api Ringan (APAR) jenis Dry Chemical Powder PC ABC, sejumlah 36 unit, yang ditempatkan sesuai dengan ketentuan dan SNI;
4) Untuk pengadaan APAR tersebut, telah diketahui perkiraan biaya yang digunakan berdasarkan hasil perhitungan diatas adalah sebesar Rp.129.642.000,- (Seratus Duapuluh Sembilan Juta, Enam Ratus Empat Puluh Dua Ribu, Rupiah).
5.2. Saran
Pencegahan dan penanggulangan kebakaran adalah semua tindakan yang berhubungan dengan pencegahan, pengamatan dan pemadaman kebakaran yang meliputi perlindungan jiwa dan keselamatan manusia serta perlindungan harta benda. Oleh karena itu, berhubung Gedung Kantor SETDA Kab. Kepl. Talaud, yang hingga saat ini belum memiliki sarana dan fasilitas penunjang terkait standar teknis keselamatan seperti APAR yang harus dimiliki, bahkan dengan terbatasnya fasilitas pemadam kebakaran yang dimiliki oleh PEMDA Kab. Kepl. Talaud, sehingga sangat dipandang perlu kedepannya untuk merencanakan dan mengadakannya.
PERTOLONGAN PERTAMA PADA KECELAKAAN (P3K)Rini Indriani
Pada Kecelakaan, P3K (Pertolongan Pertama Pada Kecelakaan) adalah upaya pertolongan dan perawatan sementara terhadap korban kecelakaan sebelum mendapat pertolongan yang lebih sempurna dari dokter atau paramedik. Ini berarti pertolongan tersebut bukan sebagai pengobatan atau penanganan yang sempurna, tetapi hanyalah berupa pertolongan sementara yang dilakukan oleh petugas P3K (petugas medik atau orang awam) yang pertama kali melihat korban. Pemberian pertolongan harus secara cepat dan tepat dengan menggunakan sarana dan prasarana yang ada di tempat kejadian. Tindakan P3K yang dilakukan dengan benar akan mengurangi cacat atau penderitaan dan bahkan menyelamatkan korban dari kematian, tetapi bila tindakan P3K dilakukan tidak baik malah bisa memperburuk akibat kecelakaan bahkan menimbulkan kematian.
Fire prevention and fire protection houses system.
This system ISAS-F is designed for protection houses from forest fire and emergency extinguishing houses using a technology spraying mixture wetting agent\water. Neutral gas generators are used to create the effect of fine water and water mist.
ISAS the autonomous storage tank fire extinguishing system responds immediately after the ignition, and does not require any external supply of water or energy to operate.
Overview of Automatic Fire Sprinkler Systems.pptxM&E Engineer
An Automatic Fire Sprinkler System is a network of water-filled pipes which starts at your domestic water service line and ends with strategically spaced fire sprinkler heads located throughout your home.
A fire alarm system warns people when smoke, fire, carbon monoxide or other fire-related emergencies are detected. There are two types of fire alarm initiating devices: manual and automatic.At the core of a fire alarm system are the detection devices, from sophisticated intelligent smoke detectors to simple manually operated break glass units, there are a wide array of different types, but we can divide them into groups including:
– Heat detectors
– Smoke detectors
– Carbon Monoxide detectors
– Multi-sensor detectors
– Manual Call Points
Makalah ini berisi manual emergency plan, cocok buat anda yang sedang menekuni dunia HSE atau K3. Jika anda berminat untuk mendownlod silahkan hubungi 082310440213
The revolutionary Water-Mist technology. Low Pressure & High Pressure Water-Mist. Design calculations, Standards, Applications, Limitations. Alternative to Gas suppression - sprinkler systems.
Contact: 95949-66462
Rancangan Kebutuhan Dan Penempatan APAR Gedung Kantor SETDA Kab. Kepl. TalaudYOHANIS SAHABAT
5.1. Kesimpilan
Dari hasil penelitian yang sudah dilakukan, melalui beberapa tahapan mulai dari observasi lapangan sampai dengan pengolahan data hasil lapangan diatas penulis dapat menarik kesimpulan sebagai berikut :
1) Mengingat Gedung Kantor SETDA Kab. Kepl. Talaud belum memiliki APAR, maka sebaiknya saat ini dilakukan perencanaan untuk pengadaanya, guna memenuhi ketentuan dan persyaratan sebagaimana pada KEPMEN PU Nomor : 10/KPTS/2000, tentang Ketentuan Teknis Pengaman Terhadap Bahaya Kebakaran Pada Bangunan Gedung dan Lingkungan, yang dapat memberikan keamanan, keselamatan, dan kenyamanan, bagi para Pegawai maupun pengunjung dan masyarakat lainnya;
2) Adapun potensi bahaya kebakaran yang ada pada gedung tersebut, berdasarkan hasil pengamatan identifikasi bahaya kebakaran meliputi klasifikasi kebakaran A, B dan C;
3) Untuk langkah pencegahan terhadap risiko bahaya kebakaran pada gedung tersebut, perlu disediakan Alat Pemadam Api Ringan (APAR) jenis Dry Chemical Powder PC ABC, sejumlah 36 unit, yang ditempatkan sesuai dengan ketentuan dan SNI;
4) Untuk pengadaan APAR tersebut, telah diketahui perkiraan biaya yang digunakan berdasarkan hasil perhitungan diatas adalah sebesar Rp.129.642.000,- (Seratus Duapuluh Sembilan Juta, Enam Ratus Empat Puluh Dua Ribu, Rupiah).
5.2. Saran
Pencegahan dan penanggulangan kebakaran adalah semua tindakan yang berhubungan dengan pencegahan, pengamatan dan pemadaman kebakaran yang meliputi perlindungan jiwa dan keselamatan manusia serta perlindungan harta benda. Oleh karena itu, berhubung Gedung Kantor SETDA Kab. Kepl. Talaud, yang hingga saat ini belum memiliki sarana dan fasilitas penunjang terkait standar teknis keselamatan seperti APAR yang harus dimiliki, bahkan dengan terbatasnya fasilitas pemadam kebakaran yang dimiliki oleh PEMDA Kab. Kepl. Talaud, sehingga sangat dipandang perlu kedepannya untuk merencanakan dan mengadakannya.
PERTOLONGAN PERTAMA PADA KECELAKAAN (P3K)Rini Indriani
Pada Kecelakaan, P3K (Pertolongan Pertama Pada Kecelakaan) adalah upaya pertolongan dan perawatan sementara terhadap korban kecelakaan sebelum mendapat pertolongan yang lebih sempurna dari dokter atau paramedik. Ini berarti pertolongan tersebut bukan sebagai pengobatan atau penanganan yang sempurna, tetapi hanyalah berupa pertolongan sementara yang dilakukan oleh petugas P3K (petugas medik atau orang awam) yang pertama kali melihat korban. Pemberian pertolongan harus secara cepat dan tepat dengan menggunakan sarana dan prasarana yang ada di tempat kejadian. Tindakan P3K yang dilakukan dengan benar akan mengurangi cacat atau penderitaan dan bahkan menyelamatkan korban dari kematian, tetapi bila tindakan P3K dilakukan tidak baik malah bisa memperburuk akibat kecelakaan bahkan menimbulkan kematian.
Fire prevention and fire protection houses system.
This system ISAS-F is designed for protection houses from forest fire and emergency extinguishing houses using a technology spraying mixture wetting agent\water. Neutral gas generators are used to create the effect of fine water and water mist.
ISAS the autonomous storage tank fire extinguishing system responds immediately after the ignition, and does not require any external supply of water or energy to operate.
New generation technology for firefighting oil tank 80 000 m3Valeriy Ivanov
In 2001, in the USA there was a unique case of a complete fire extinguishing in the oil tank with a diameter of 82 meters. Standard fire system was not worked. For the preparation of non-standard fire-extinguishing tactic was spent 12 hours precious time. We performed some tests and calculations as we can extinguish the same fire today with the use of new firefighting technologies.
Fire fighting, types of fires, types of fire extinguishers, building management systems, sprinkler systems, heat and smoke sensors.
http://www.greenarchworld.com/
New Impulse Technologies company providing valuable fire protection for our clients worldwide. “oil /gas, power and petrochemical companies and governments agencies” . We will work with our clients to discover opportunities for their continued growth and expect the highest levels of integrity in return. We will contribute to our communities for their improvement with all Impulse Storm technologies that includes:
ISAS
ISAP
UIS-48
Fire Storm suit
Water Storm system
Design and Analysis of Impregnation Chamber Used In Vacuum Pressure Impregnat...IOSR Journals
The simple explanation is that in nature and in manufacturing, things leak. Vacuum impregnation
stops leak. The ultimate goal of vacuum impregnation is to seal leak/migration paths without impacting the
functional, assembly or appearance characteristics of a part. The impregnation chamber which is used in VPI
process operates maximum up to 80 to 150 psi.it is important to analyse and design the pressure vessel that will
provide safety, durability and serviceability to the company. Accomplishing this task will require a very good
understanding of behaviour and a good knowledge of parameters that affecting the pressure vessel due to
varying loads, pressure and thickness of shell element. The most important one is that the given geometry of
pressure vessel must be analysed to assure it should meet the design standards
Embracing Aerial Robotics in the Oil and Gas SectorManaswiMumbarkar
Discover how aerial robotics redefine oil and gas practices, enhancing safety & precision. Explore the future of robotic applications in this transformative industry.
Key Trends Shaping the Future of Infrastructure.pdfCheryl Hung
Keynote at DIGIT West Expo, Glasgow on 29 May 2024.
Cheryl Hung, ochery.com
Sr Director, Infrastructure Ecosystem, Arm.
The key trends across hardware, cloud and open-source; exploring how these areas are likely to mature and develop over the short and long-term, and then considering how organisations can position themselves to adapt and thrive.
Kubernetes & AI - Beauty and the Beast !?! @KCD Istanbul 2024Tobias Schneck
As AI technology is pushing into IT I was wondering myself, as an “infrastructure container kubernetes guy”, how get this fancy AI technology get managed from an infrastructure operational view? Is it possible to apply our lovely cloud native principals as well? What benefit’s both technologies could bring to each other?
Let me take this questions and provide you a short journey through existing deployment models and use cases for AI software. On practical examples, we discuss what cloud/on-premise strategy we may need for applying it to our own infrastructure to get it to work from an enterprise perspective. I want to give an overview about infrastructure requirements and technologies, what could be beneficial or limiting your AI use cases in an enterprise environment. An interactive Demo will give you some insides, what approaches I got already working for real.
Slack (or Teams) Automation for Bonterra Impact Management (fka Social Soluti...Jeffrey Haguewood
Sidekick Solutions uses Bonterra Impact Management (fka Social Solutions Apricot) and automation solutions to integrate data for business workflows.
We believe integration and automation are essential to user experience and the promise of efficient work through technology. Automation is the critical ingredient to realizing that full vision. We develop integration products and services for Bonterra Case Management software to support the deployment of automations for a variety of use cases.
This video focuses on the notifications, alerts, and approval requests using Slack for Bonterra Impact Management. The solutions covered in this webinar can also be deployed for Microsoft Teams.
Interested in deploying notification automations for Bonterra Impact Management? Contact us at sales@sidekicksolutionsllc.com to discuss next steps.
DevOps and Testing slides at DASA ConnectKari Kakkonen
My and Rik Marselis slides at 30.5.2024 DASA Connect conference. We discuss about what is testing, then what is agile testing and finally what is Testing in DevOps. Finally we had lovely workshop with the participants trying to find out different ways to think about quality and testing in different parts of the DevOps infinity loop.
PHP Frameworks: I want to break free (IPC Berlin 2024)Ralf Eggert
In this presentation, we examine the challenges and limitations of relying too heavily on PHP frameworks in web development. We discuss the history of PHP and its frameworks to understand how this dependence has evolved. The focus will be on providing concrete tips and strategies to reduce reliance on these frameworks, based on real-world examples and practical considerations. The goal is to equip developers with the skills and knowledge to create more flexible and future-proof web applications. We'll explore the importance of maintaining autonomy in a rapidly changing tech landscape and how to make informed decisions in PHP development.
This talk is aimed at encouraging a more independent approach to using PHP frameworks, moving towards a more flexible and future-proof approach to PHP development.
UiPath Test Automation using UiPath Test Suite series, part 4DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 4. In this session, we will cover Test Manager overview along with SAP heatmap.
The UiPath Test Manager overview with SAP heatmap webinar offers a concise yet comprehensive exploration of the role of a Test Manager within SAP environments, coupled with the utilization of heatmaps for effective testing strategies.
Participants will gain insights into the responsibilities, challenges, and best practices associated with test management in SAP projects. Additionally, the webinar delves into the significance of heatmaps as a visual aid for identifying testing priorities, areas of risk, and resource allocation within SAP landscapes. Through this session, attendees can expect to enhance their understanding of test management principles while learning practical approaches to optimize testing processes in SAP environments using heatmap visualization techniques
What will you get from this session?
1. Insights into SAP testing best practices
2. Heatmap utilization for testing
3. Optimization of testing processes
4. Demo
Topics covered:
Execution from the test manager
Orchestrator execution result
Defect reporting
SAP heatmap example with demo
Speaker:
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
Smart TV Buyer Insights Survey 2024 by 91mobiles.pdf91mobiles
91mobiles recently conducted a Smart TV Buyer Insights Survey in which we asked over 3,000 respondents about the TV they own, aspects they look at on a new TV, and their TV buying preferences.
Neuro-symbolic is not enough, we need neuro-*semantic*Frank van Harmelen
Neuro-symbolic (NeSy) AI is on the rise. However, simply machine learning on just any symbolic structure is not sufficient to really harvest the gains of NeSy. These will only be gained when the symbolic structures have an actual semantics. I give an operational definition of semantics as “predictable inference”.
All of this illustrated with link prediction over knowledge graphs, but the argument is general.
Software Delivery At the Speed of AI: Inflectra Invests In AI-Powered QualityInflectra
In this insightful webinar, Inflectra explores how artificial intelligence (AI) is transforming software development and testing. Discover how AI-powered tools are revolutionizing every stage of the software development lifecycle (SDLC), from design and prototyping to testing, deployment, and monitoring.
Learn about:
• The Future of Testing: How AI is shifting testing towards verification, analysis, and higher-level skills, while reducing repetitive tasks.
• Test Automation: How AI-powered test case generation, optimization, and self-healing tests are making testing more efficient and effective.
• Visual Testing: Explore the emerging capabilities of AI in visual testing and how it's set to revolutionize UI verification.
• Inflectra's AI Solutions: See demonstrations of Inflectra's cutting-edge AI tools like the ChatGPT plugin and Azure Open AI platform, designed to streamline your testing process.
Whether you're a developer, tester, or QA professional, this webinar will give you valuable insights into how AI is shaping the future of software delivery.
Connector Corner: Automate dynamic content and events by pushing a buttonDianaGray10
Here is something new! In our next Connector Corner webinar, we will demonstrate how you can use a single workflow to:
Create a campaign using Mailchimp with merge tags/fields
Send an interactive Slack channel message (using buttons)
Have the message received by managers and peers along with a test email for review
But there’s more:
In a second workflow supporting the same use case, you’ll see:
Your campaign sent to target colleagues for approval
If the “Approve” button is clicked, a Jira/Zendesk ticket is created for the marketing design team
But—if the “Reject” button is pushed, colleagues will be alerted via Slack message
Join us to learn more about this new, human-in-the-loop capability, brought to you by Integration Service connectors.
And...
Speakers:
Akshay Agnihotri, Product Manager
Charlie Greenberg, Host
Assuring Contact Center Experiences for Your Customers With ThousandEyes
ISAS IMPULSE STORM-A(S) JET COMBINED FOAM FIRE-FIGHTING SYSTEM
1. APRESENTAÇÃO
Este estudo, desenvolvido pela Merco Shipping Marítima Ltda, encerrado em fevereiro de
2012, tem como objetivo a realização de um Estudo de Viabilidade Técnica e de Avaliação
Econômica para a verificar a viabilidade de uma licitação da área de aproximadamente 26.000
m2
disponível no Porto de Aratu.
Os estudos foram desenvolvidos segundo as orientações da Norma Sobre Arrendamento de
Áreas e Instalações Portuárias Destinadas à Movimentação e Armazenagem de Cargas e ao
Embarque e Desembarque de Passageiros da ANTAQ. A Norma, aprovada pela Resolução nº
055/ANTAQ, de 16 de dezembro de 2002, posteriormente alterada pela Resolução nº
126/ANTAQ, de 13 de outubro de 2003, pela Resolução nº 238/ANTAQ, de 30 de junho de
2004 pela Resolução nº 265/ANTAQ, de 5 de junho de 2004 e pela Resolução nº 935/ANTAQ,
de 04 de dezembro de 2007, tem por objeto disciplinar e regular o arrendamento de áreas e
instalações portuárias destinadas à movimentação e armazenagem de cargas, referido no art.
4°, inciso I, da Lei n° 8.630, de 25 de fevereiro de 1993, e ao embarque e desembarque de
passageiros.
Para demonstrar os valores, este trabalho apresenta:
um estudo sintético da indústria petroquímica de forma a que se possa compreender
as tendências de mercado;
uma análise da logística e característica dos granéis líquidos movimentados no
Terminal Portuário;
uma apresentação da estrutura organizacional e operacional do terminal portuário;
uma análise da viabilidade econômico-financeira e operacional do terminal, tendo em
vista o seu arrendamento, contendo uma projeção de custos com o arrendamento da
área à terceiros;
um resumo da situação identificada.
Rio de Janeiro, 15 de fevereiro de 2012
Fabio Scheuenstuhl
MERCO SHIPPING MARÍTIMA LTDA.
ISAS
IMPULSE STORM-A(S)
JET COMBINED FOAM FIRE-FIGHTING SYSTEM
TECHNICAL SPECIFICATION
VERSION 2015
2. DESIGN AND TECHNICAL CONCEPT:
NEW IMPULSE TECHNOLOGIES COMPANY
Russia, 119049, Moscow,
Kaluzhskaya ploshad 1, office 271
Tel. +7-495-771-69-24
www.impulse-storm.com
MANUFACTURERS OF THE MAIN COMPONENTS:
FEDERAL STATE CENTER FOR DUAL-USE TECHNOLOGIES ”SOYUZ”
JSC SCIENTIFIC INDUSTRIAL CORPORATION SOPOT
APPROVED BY:
BRAZILIAN MILITARY FIRE DEPARTMENT THE FEDERAL DISTRICT
(CORPO DE BOMBEIROS MILITAR DO DISTRITO FEDERAL).
FEDERAL STATE ESTABLISHMENT ALL-RUSSIAN RESEARCH INSTITUTE FOR FIRE PROTECTION OF
MINISTRY OF RUSSIAN FEDERATION FOR CIVIL DEFENSE, EMERGENCIES AND ELIMINATION OF
CONSEQUENCES OF NATURAL DISASTERS.
IMPULSE STORM-A(S)
ISAS
Ver: 01
Ano: 2015
3. 1. INTRODUCTION
This document contains drawing information, principles of operation, characteristics and rules for the
operation of ISAS system - Jet Foam Combined Fire-Fighting System. This system consists of the union
of autonomous ISAS tanks of 7500 liters combined with:
Ring firefighting pipeline for extinguishing oil tanks of any volume.
Foam monitors Blizzard 300, 150 and 250, enabling the realization of a powerful immediate and
effective intervention.
1.1. PURPOSE.
The object of this technical specification one firefighting system for protection of oil storages or sea port
facilities that perform hydrocarbon movement. The whole area of a platform of port operations may be
protected using three sets each being composed of one ISAS-module 7500 and a middle expansion foam to
be selected according to the risk analysis and the area to be protected.
The solution will provide a total volume of 225,000 liters of ME foam monitor, which will be released at a
rate of up to 9,000 liters medium expansion foam per second, with a range of up to 100 meters. The system
goes into full operation within five seconds after your drive. The figure below shows, graphically, a possible
proposal for location and each set coverage radius. For this purpose, three sets of equipment would be used,
providing 625,000 liters of medium expansion foam.
4. Example coverage area Berth#106 of the Port of Itaqui, Brazil.
In view of the risk area has approximate dimensions of 30 meters by 40 meters, a total of 1,200 m2,
providing a volume of approximately 520 liters per square meter of medium expansion foam. This
amount of foam is 745% higher than the recommended volume of medium expansion foam
manufacturers and as defined in NFPA 11.
1.2. REFERENCE STANDARDS AND GENERAL
The fire-fighting system for medium expansion foam ISAS was developed to enable risk areas and
buildings where necessary the existence of production, handling, storage and distribution of
flammable or combustible liquids located inside buildings or open for fire fighting. The system is built
according to the basic and essential requirements of the standards listed below. Being an
unconventional system in the form of operation, there are elements of these standards are not
applicable.
International standard:
• NBR 12 615 - fire fighting foam system;
• NFPA 11 - Standard for Low-, Medium-, and High- Expansion Foam 1998 Edition;
• ANSI B 31.1 - Piping and piping systems.
Russian and CIS standard:
GOST RV 15.110-2003 "System development and launch of new products. Military equipment.
Documentation reporting on scientific technical research and development, preliminary design
and experimental design work"
GOST RV 15.203-2001 "System development and launch of new products. Military equipment.
The procedure for the implementation of experimental design works on creation of products
and their components"
GOST 15.201-2000 “System of product development and launching into manufacture.
Products of industrial and technical designation. Procedure of product development and
launching into manufacture” agreed with ISO 9001:2008.
GOST 52630-2012 “Steel welded vessels and apparatus. General specifications”
TR TS 032/2013 "Technical regulations of the Customs Union "About safety equipment
operating under excessive pressure", (agreed with DIN 28011, DIN 28013)
5. Mechanical foam is filled with an aggregate of air bubbles generated by purely mechanical means of
aqueous solutions containing a concentrate of animal, vegetable or synthetic origin. Mechanical foam
is an excellent agent for the prevention and extinguishing the fire in different situations, satisfying all
the requirements relating to a very low density fluid and high capacity of heat absorption. Its density
being lower than the flammable liquid, allows particularly be used to form a floating cover, quenching,
cooling and covering the fuel in order to stop the evaporation of vapor and prevent its mixture with
oxygen in the air.
The system is designed to work with any foaming extract with an expansion rate of 30: 1 and the
concentration can vary from 1% to 6%. The mixture of water with Medium Expansion Foam (MEF) is
performed directly by fixed flow foam nozzles. The mechanical generation of the froth occurs through
the guns monitors have cameras that allow air mixture to mechanical foaming solution.
The MEF is stored in tanks or metal containers adequately protected against corrosion, located next to
the ISAS tank. MEF the tanks are designed so as to have adequate vents, exhaust valves, measurement
and filling device constant level of control, manhole to facilitate inspection, cleaning and taking
samples.
The efficiency of the system ISAS - MEF monitor, unlike conventional systems, is due to the possibility
of achieving release of large amounts of medium expansion foam within seconds of the start of an
incident, allowing to submerge the entire risk area in less than one minute. Based on this principle, the
system can cover the entire risk area with a volume of more than 700% recommended by the foam
manufacturer and as described in NFPA 11. MEF supply is determined by the solution flow and the
expected volume ISAS water tank,
Additionally, the system ISAS – MEF Monitor may have a valve plug to allow the use of his monitor
with external pumps station. The ISAS system - MEF Monitor not have pumps. The water flow and
provided by pressurizing the water tank through a chemical reaction of a solid aerosol compound,
allowing a pressurization can range from 0.2 MPa (2 bar) to 3.0 MPa (30 bar) pressure reaching
operation in less than five seconds, with water flow rates of up to 300 liters per second.
1.2. RIGHT OWNER AND MANUFACTURERS OF THE MAIN COMPONENTS
A New Impulse Technologies LLC was established in 1991 the city of Kiev, Ukraine, with the objective
of building and marketing of new technologies for fighting fires in industrial plants. In the early 90s,
the company has built and delivered more than 40 vehicles with powder dispersion technology
"Impulse Storm" for oil and chemicals factories in Ukraine, Russia and Yemen. At the end of the
decade, the company introduced a new version, lighter, which was developed and produced for use by
Ministry of Defence of Egypt.
In 2003, due to political instability in Ukraine, the company moved to Moscow, where it remains
today.
The 2000s was marked by the technological development of instant spray methodology, which led to
development of a fully automated fire fighting system (UIS-48S system). At the end of the decade, this
system was tested and approved by Petrobras in a test course built especially for this purpose. It was
found that the system in addition to being extremely efficient in fire detection and fire extinguishing
in external industrial areas, has been demonstrated exceptionally able to effectively extinguish the fire
in an area with LNG.
6. In 2012, the new technology ISAS for the autonomous dispersion powder, water or foam was created.
This new equipment has been developed in partnership with the Russian Federal Center for Dual-
Use Company Technologies "Soyuz", which is one of the leading companies in the military-
industrial complex of the Russian Federation. More than 80 percent of modern missiles and
Russian rockets are equipped with propellers designed and developed in-house "Soyuz", which was
responsible for the design and specification of the pressurization of the tanks pads.
In late 2014, a partnership was signed with JSC Scientific Industrial Corporation SOPOT, founded
in 1994 with the goal of designing and manufacturing the monitors guns with technology
"Blizzard", whose settings allow extinguishing foams are released at distances up to ten times more
than the other existing monitors cannons. Today the monitors of Sopot equip thousands of fire-
fighting vehicles, several railway stations, over 16 refineries, several industrial facilities of oil
companies, oil rigs, equipment and vehicles with three airports, hydrocarbon facilities in two ocean
ports and various chemical industries.
2. SPECIFICATION OF EQUIPMENT
The devices that make up the fire protection system is composed of ISAS-module 7500 and low and
medium expansion foam as described below. The system has additionally connection point for
interconnection to external pump station, allowing the use of foam monitors once downloaded the self
ISAS-7500 expansion module.
System ISAS – Foam Monitor
Monitor Blizzard
Remote control box
Tank ISAS-7500
7. 2.1. AUTO EXPANSION MODULE ISAS-7500
The ISAS-7500 self expansion modules are formed by
tanks with a capacity of 7500 liters, the storage tank
extract of forming foam. The tanks are constructed of
fiberglass or stainless steel, mounted on a steel base. The
modules are designed to remain in drive readiness for a
period of 10 years. After this period should be serviced
and being recharged. Its pressurization system, which
may vary from 0.2 MPa (2 bar) to 2.0 MPa (20 bar),
according to the project requirements, can achieve the
operating pressure in less than four seconds, with flow
rates up to 300 liters per second.
In the upper part of the tank is located pressurizing
chamber, with the gas generator to the base of a solid
aerosol fuel compound. The pressurization of the system
is performed through the chemical reaction of the solid
fuel compound, which is an inert, nontoxic product, which
is stable until activated by an electrical pulse, causing
them to be emitted large amounts of 10 % – a solid phase
and 90 % – a gas phase.
Gas phase Aerosole:
СО2 – 46,9 %
N2 – 24,6 %
The chemical composition of this compound is developed in the form to provide the pressures and
flows wanted in the tank, maintaining it constantly up to his total unloading.
F i r e fi gh t i n g
a e r o s ol
c o m p o si ti o n
Pressure
chamber
Gasaerosol mix
Water
8. Features ISAS-800, 2000, 7500
1. Fire extinguishing fluid volume, l 800 2000 7500
2. Mass of supplied system, kg 250 300 1000
3. Lag effect (start time), sec 0.5...2 0.5...3 0.5...3.5
4. Fluiding supply intensivity, l/s 10...50 10...100 50...300
5. Reloading time, hours not more than 0.5 1 1
6. Temperature range, °C -50...+50 -50...+50 -50...+50
7. Operation term, years 10 10 10
Pressure generators by ISAS technology.
Not need outer water pipeline, not need pump station, not need external power.
9. 2.1. MEDIA FOAM EXPANSION MONITOR
Monitors "Blizzard" are designed to create combined jets of foam low and medium expansion,
mechanically aerated, also allowing the jet of water. Due to the effect of the combination of foams
combined, these units are ideal for extinguishing large fires in flammable liquid and solid fuels, as well
as to create a shield to light and heat in the rugged areas. It is highly effective in the neutralization of
toxic gases into the atmosphere. It can be used as either a fixed fire fighting unit in high-risk areas as
well as in vehicles, including boats.
All the monitors are manufactured by JSC Scientific Industrial Corporation SOPOT, founded in 1994
and headquartered in Doroga Street in Metallostroy h.5, A, Promzona Metallostroy, St. Petersburg,
Russia. Possess certification of Russian Maritime Register of Shipping, association classification and
certification associated with IACS - International Association of Classification Societies.
While the IACS is a non-governmental organization, plays an important role within the International
Maritime Organization (IMO), to which it provides guidance and technical support and develops
unified interpretations of international legal regulations developed by the Member States of the IMO.
Once adopted these interpretations, these are per each IACS member society in the certification
process. Since Brazil is one of the member countries of the IMO, adopts the same interpretations and
recognizes the certificates issued by classification societies associated with the IACS.
The monitors to be used in security systems with ISAS tanks are then related. All these units operate
with combined jets foam
10. 2.2.1. BLIZZARD 300
Performance at medium expansion foam 9000 l/sec
Performance on the water 300 l/sec
Range of feed stream on the water 160 m
Range of feed streams for medium expansion foam 100 m
Multiplicity of foam 30+ 5 m
Vertical angle +75/-20 degrees
The angle of rotation to 21 degrees
The control system of fire monitors Manual and remote
Dimensions (L * W * H) 2660*1250*1482mm
TECHNICAL CHRACTERISTICS
11. 2.2.2. BLIZZARD 250
Capacity by foaming agent, (l/min) 15000
Capacity by foam 450000
Delivered distance of water jets by the farthest drops, (m) 120 м + 10
Delevered distance of medium expansion foam, (m) 110 : 120
Input pressure [MPa (kg/sm ²)]
1,0 - 1,2
(10 - 12 )
Total weight,[kg] 130
Overall dimensions, mm
Length 2760
Width 1065
Heigth 1250
TECHNICAL CHARACTERISTICS
Alcance (m) Alcance (m)
Altura(m)
Largura(m)