JUSTIFICATION OF STANDARDS FOR ASSESSMENT OF EXPEDITIOUS EXPANSIONS ON NEW FIRE TRUCKS OF DIFFERENT CLASSES

Authors

Abstract

It has been shown that in Ukraine there is a contradiction between the fire-fighting tank-vehicles АЦ-40 (131), which are related to the "middle" class and for which the existing standards have been developed, and fire trucks of the "light" and "heavy" class, which enter the armament the fire and rescue units of the DSSU of Ukraine recently in the framework of harmonization with the European requirements of EN 1846.

As a result, it is not known whether the existing norms concerning the operational deployment of light and heavy class fire truck are required. It is noted that this can be clarified, based on scientific and methodical apparatus of the substantiation of norms, based on the use of indicators of the time distribution of individual operations and processes, which constitute the overall complex of fire and rescue works.

For this purpose, the study was based on the norms for evaluating operational deployments on new fire trucks of different classes based on the results of determining the distribution of typical operational deployments on fire brigades of three different classes. The pilot studies conducted by the third year students of the NTCU and the fire brigade fire and rescue units of the NSCU of Ukraine showed that the time distribution of operational deployments on fire brigades of three different classes, armed with fire and rescue subdivisions of the NDSU of Ukraine, from the significance level  = 0.05 is normal.

At the same time, the mathematical expectation of the operational deployment time for the same types of variants varies considerably not only depending on the class of the fire truck, but also on the level of preparedness of the personnel. These features were taken into account when substantiating specific norms for assessing the quality of operative deployments of light and medium class fire trucks (feeding the barrel GPS-600 via a three-sleeve line with a diameter of 51 mm from the tanker and feeding one barrel "A" and one barrel "B" from laying a trunk line on two sleeves with a diameter of 77 mm and two working lines with the installation of a tank truck on a fire hydrant).

Keywords: standard, expeditious expansion, fire truck.

Author Biographies

, National University of Civili Protection of Ukraine

старший викладач кафедри пожежно-рятувальної підготовки факультету оперативно-рятувальних сил

, National University of Civili Protection of Ukraine

кандидат технічних наук, старший науковий співробітник наукового відділу з проблем цивільного захисту та техногенно-екологічної безпеки

, National University of Civili Protection of Ukraine

кандидат наук з мистецтвознавства, науковий співробітник наукового відділу з проблем цивільного захисту та техногенно-екологічної безпеки

, National University of Civili Protection of Ukraine

доктор технічних наук, доцент, старший науковий співробітник наукового відділу проблем цивільного захисту та техногенно-екологічної безпеки

References

Література

Наказ МВС України від 20.11.2015 № 1470 [Текст] "Про затвердження Нормативів виконання навчальних вправ з підготовки осіб рядового і начальницького складу служби цивільного захисту та працівників Оперативно-рятувальної служби цивільного захисту ДСНС України до виконання завдань за призначенням".

Hazardous waste operations and emergency response. Occupational Safety and Health Standards 1910.120. (2016) Retrieved from

https://www.osha.gov/pls/oshaweb/owadisp.show_document?p_table=STANDARDS&p_id=9765

NFPA 1500 Standard on Fire Department Occupational Safety and Health Program. 2002 Edition. (2002) Retrieved from http://www.fsans.ns.ca/pdf/research/nfpa1500.pdf

Subburajah, J. (2011) OSHA's Interpretation for Fire Emergency Planning. Retrieved from

https://www.linkedin.com/pulse/oshas-interpretation-fire-emergency-planning-subburajah-j

Fire & Rescue NSW Code of Conduct. (2015) Retrieved from http://www.fire.nsw.gov.au/page.php?id=159

OSHA 1910.120 Hazardous waste operations and emergency response. (2013) Retrieved from

https://www.osha.gov/pls/oshaweb/owares.do_search?p_doc_type=STANDARDS&p_search_str=1910.120

OSHA 1910.156 Fire brigades. (2008) Retrieved from:

https://www.osha.gov/pls/oshaweb/owadisp.show_document?p_table=STANDARDS&p_id=9810

NFPA 1033: Standard for Professional Qualifications for Fire Investigator. (2017) Retrieved from

http://www.nfpa.org/codes-and-standards/all-codes-and-standards/list-of-codes-and-standards?mode=code&code=1033

Texas City Refinery explosion. (2018) Retrieved from https://en.wikipedia.org/wiki/Texas_City_Refinery_explosion

Eyeballing BP Texas City Complex - Cryptome. (2005) Retrieved from https://cryptome.org/eyeball/bp-tx/bp-tx-eyeball.htm

Multi-part Document BS EN 1846 - Firefighting and rescue service vehicles. (2011) Retrieved from https://doi.org/10.3403/BSEN1846

BS EN 1846-2:2009+A1:2013 Firefighting and rescue service vehicles. Common requirements. Safety and performance. (2013) Retrieved from

https://doi.org/10.3403/3023321.

ДСТУ EN 1846-1:2017 [Електронний ресурс] Проти-пожежна техніка. Пожежно-рятувальні автомобілі. Частина 1. Номенклатура і позначення (EN 1846-1:2011, IDT) Режим доступу: uas.org.ua/wp

content/uploads/2017/.../N206_2017-08-04.rt...

Стрелец, В.М. Статистический метод обоснования нормативов боевого развертывания пожарно-технического вооржения. [Текст] / В.М. Стрелец, Т.Б. Грицай // Право і безпека: Науковий журнал. – 2002. – Вип.1 – С. 165-171

Стрелец, В.М. Закономерности использования ава-рийно-спасательной техники. [Текст] / В.М. Стрелец, П.А. Ковалев, Р.А Нередков.// Проблеми надзвичайних ситуацій – №6 – УЦЗУ, 2007 – С.127-132.

Митропольский, А.К. Техника статистических вычис-лений [Текст] / А.К. Митропольский. - Главная редакция физико-математической литературы издательства "Наука", 1971. – 576 с.

Халафян, А.А. SТАТISТIСА 6 Статистический анализ данных [Текст] / А.А. Халафян. – М.: 000 «Бином-Пресс», 2007. — 512 с.

Спортивная метрология[Текст]: учебник для ин-тов физ. культ./ Под ред. В.М.Зациорского. – М.: ФиС, 1982. – 256 с.

References

Ministry of Internal Affairs of Ukraine (2015) On Approval of the Standards for the Implementation of Training Exercises for the Training of Persons of the Private and Principal Staff of the Civil Protection Service and the Employees of the Rescue Service of Civil Protection of the SNS of Ukraine for the Purpose of Purpose (November 20, 2015 № 1470). Kiev, MIA of Ukraine

Hazardous waste operations and emergency response. Occupational Safety and Health Standards 1910.120. (2016) Retrieved from

https://www.osha.gov/pls/oshaweb/owadisp.show_document?p_table=STANDARDS&p_id=9765

NFPA 1500 Standard on Fire Department Occupational Safety and Health Program. 2002 Edition. (2002) Retrieved from http://www.fsans.ns.ca/pdf/research/nfpa1500.pdf

Subburajah, J. (2011) OSHA's Interpretation for Fire Emergency Planning. Retrieved from

https://www.linkedin.com/pulse/oshas-interpretation-fire-emergency-planning-subburajah-j

Fire & Rescue NSW Code of Conduct. (2015) Retrieved from http://www.fire.nsw.gov.au/page.php?id=159

OSHA 1910.120 Hazardous waste operations and emergency response. (2013) Retrieved from

https://www.osha.gov/pls/oshaweb/owares.do_search?p_doc_type=STANDARDS&p_search_str=1910.120

OSHA 1910.156 Fire brigades. (2008) Retrieved from:

https://www.osha.gov/pls/oshaweb/owadisp.show_document?p_table=STANDARDS&p_id=9810

NFPA 1033: Standard for Professional Qualifications for Fire Investigator. (2017) Retrieved from

http://www.nfpa.org/codes-and-standards/all-codes-and-standards/list-of-codes-and-standards?mode=code&code=1033

Texas City Refinery explosion. (2018) Retrieved from https://en.wikipedia.org/wiki/Texas_City_Refinery_explosion

Eyeballing BP Texas City Complex - Cryptome. (2005) Retrieved from https://cryptome.org/eyeball/bp-tx/bp-tx-eyeball.htm

Multi-part Document BS EN 1846 - Firefighting and rescue service vehicles. (2011) Retrieved from https://doi.org/10.3403/BSEN1846

BS EN 1846-2:2009+A1:2013 Firefighting and rescue service vehicles. Common requirements. Safety and performance. (2013) Retrieved from https://doi.org/10.3403/3023321.

DSTU EN 1846-1: 2017 Fire-fighting equipment. Fire and rescue cars. Part 1. Nomenclature and designation (EN 1846-1:2011, IDT) (2017) Retrieved from uas.org.ua/wp-content/uploads/2017/.../N206_2017-08-04.rt...

Strelecz , V., & Griczaj, T. (2002). Statistical method for substantiating the standards of combat deployment of fire and technical evaporation. Law and safety: Scientific journal, 1, 165-171.

Strelecz, V., Kovalev, P., & Neredkov, R. (2007). The regularities of emergency rescue equipment use. Problems of Emergencies, 6, 127-132.

Mitropol`skij, A. (1971) Technique of statistical calcula-tions. The main edition of the physico-mathematical literature of the publishing house "Nauka", 576.

Khalafyan, A. (2007). STATISTICS 6 Statistical analysis of data. 000 "Beinom-Press", 512.

Zatsirsky,V. (1982). Sports metrology. Textbook for Insti-tut Phys. Cult, 256.

Published

2018-07-27

How to Cite

, , , & . (2018). JUSTIFICATION OF STANDARDS FOR ASSESSMENT OF EXPEDITIOUS EXPANSIONS ON NEW FIRE TRUCKS OF DIFFERENT CLASSES. Municipal Economy of Cities, (142), 137–144. Retrieved from https://khg.kname.edu.ua/index.php/khg/article/view/5197