Italy

NIST WTC Recommendations 12-15 > Improved Active Protection

Posted by CJ Walsh

Previous Posts in This Series …

2011-10-25:  NIST’s Recommendations on the 9-11 WTC Building CollapsesGROUP 1. Increased Structural Integrity – Recommendations 1, 2 & 3 (out of 30)

2011-11-18:  NIST WTC Recommendations 4-7 > Structural Fire EnduranceGROUP 2.  Enhanced Fire Endurance of Structures – Recommendations 4, 5, 6 & 7

2011-11-24:  NIST WTC Recommendations 8-11 > New Design of StructuresGROUP 3.  New Methods for Fire Resisting Design of Structures – Recommendations 8, 9, 10 & 11

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2011-11-25:  SOME PRELIMINARY COMMENTS …

  1.     Reliability has always been an issue with Active Fire Protection Systems … but, it is neither acknowledged, nor fully understood, that … Reliability Is Equally An Issue With Passive Fire Protection Measures !

Furthermore, the following should always be taken into account when considering the Safety Factors to be applied in calculating the level of satisfactory fire safety and protection which is provided in a specific project … one of the design objectives in Ethical Fire Engineering.

For example, if Category C below is indicative of the design and construction quality on a particular building site … just think of the Priory Hall Apartment Development in Dublin (!) … the Safety Factors to be applied in the design should be high … and with regard to actual construction, it should be expected that the Reliability of both Active Fire Protection Systems and Passive Fire Protection Measures will be initially low … with Life Cycle Reliability being entirely non-existent.

Quality of Fire Engineering Design & Related Construction 

Category A

(a)   Design of the works is exercised by an independent, appropriately qualified and experienced architect/engineer/fire engineer, with design competence relating to fire safety and protection in buildings … and, most importantly, that he/she interacts directly with the Project Design Professional in Responsible Charge ;

(b)   Installation/fitting of related construction products/systems is exercised by appropriately qualified and experienced personnel, with construction competence relating to fire safety and protection in buildings ;

(c)   Supervision of the works is exercised by appropriately qualified and experienced personnel from the principal construction organization ;

(d)   Regular inspections, by appropriately qualified and experienced personnel familiar with the design, and independent of the construction organization(s), are carried out to verify that the works are being executed in accordance with the fire engineering design.

Category B

(a)   Design of the works is exercised by an independent, appropriately qualified and experienced architect/engineer/fire engineer ;

(b)   Installation/fitting of fire-related construction products/systems is exercised by appropriately qualified and experienced personnel ;

(c)   Supervision of the works is exercised by appropriately qualified and experienced personnel from the principal construction organization.

Category C

This level of design and construction execution is assumed when the requirements for Category A or Category B are not met.

  2.     With regard to Recommendations 12 & 13 below … in an earlier post in this series, and elsewhere, I have defined Disproportionate Damage … and differentiated that structural concept from the related concept of Fire-Induced Progressive Collapse.

A significant number of countries include a requirement on Resistance to Disproportionate Damage in their national building codes.  Often, it is only necessary to consider this requirement in the case of buildings having 5 Storeys, or more … a completely arbitrary height threshold.  I would consider that adequately tying together the horizontal and vertical structural elements of a building … any building … is a fundamental principle of good structural engineering !!

Putting it simply … for the purpose of showing compliance with this structural requirement … it is necessary to demonstrate that a building will remain structurally stable if a portion of the building’s structure is removed … always remembering that every building comprises both structure and fabric, i.e. non-structure.

In reality this may happen, and quite often does happen, when, for example, a large truck runs into the side of a building, which can happen anywhere … or there is a gas explosion in some part of the building, which happened in Dublin’s Raglan House back in 1987, and many times in other countries … or a plane hits a high-rise building, which happened to Milan’s iconic Pirelli Tower in 2002, and to New York’s Empire State Building way back in 1945 … etc., etc.  Raglan House collapsed … the Pirelli Tower and the Empire State Building did not.

[ The World Trade Center Towers were originally designed to absorb the impact of a large plane and to remain structurally stable afterwards … in ambient conditions.  However, what was not considered in the ambient structural design was ‘fire’, i.e. the fuel tanks were empty and no fire in the building would be initiated as a result of the mechanical damage caused by the plane impact … which, on 11 September 2001, proved to be a ridiculous basis for any structural design !   This is why 9-11 should be regarded, at its core, as being a very serious ‘real’ fire incident.]

What I am leading up to is this … the concept of removing a portion of a building, and it remaining structurally stable afterwards … should now – logically and rationally – also be incorporated into the fire engineering design of Active Fire Protection Systems.  In other words, if a portion of a building is removed, will any particular Active Fire Protection System continue to operate effectively in the rest of the building ?   This has implications for the location and adequate protection of critical system components in a building … and for the necessary redundancy, zoning and back-up alternative routeing which must be designed into the system from the beginning !

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2005 NIST WTC RECOMMENDATIONS

GROUP 4.  Improved Active Fire Protection

Active fire protection systems (i.e. sprinklers, standpipes/hoses, fire alarms, and smoke management systems) should be enhanced through improvements to the design, performance, reliability, and redundancy of such systems.

NIST WTC Recommendation 12.

NIST recommends that the performance and possibly the redundancy of active fire protection systems (sprinklers, standpipes/hoses, fire alarms, and smoke management systems) in buildings be enhanced to accommodate the greater risks associated with increasing building height and population, increased use of open spaces, high-risk building activities, fire department response limits, transient fuel loads, and higher threat profile.  The performance attributes should deal realistically with the system design basis, reliability of automatic/manual operations, redundancy, and reduction of vulnerabilities due to single point failures.  Affected Standards:  NFPA 13, NFPA 14, NFPA 20, NFPA 72, NFPA 90A, NFPA 92A, NFPA 92B, and NFPA 101.  Model Building Codes:  The performance standards should be adopted in model building codes by mandatory reference to, or incorporation of, the latest edition of the standard.

NIST WTC Recommendation 13.

NIST recommends that fire alarm and communications systems in buildings be developed to provide continuous, reliable, and accurate information on the status of life safety conditions at a level of detail sufficient to manage the evacuation process in building fire emergencies;  all communication and control paths in buildings need to be designed and installed to have the same resistance to failure and increased survivability above that specified in present standards.  This should include means to maintain communications with evacuating occupants that can both reassure them and redirect them if conditions change.  Pre-installed fire warden telephone systems can serve a useful purpose and may be installed in buildings and, if so, they should be made available for use by emergency responders.  All communication and control paths in buildings need to be designed and installed to have the same resistance to failure and increased survivability above that specified in present standards.  Affected Standards:  NFPA 1, NFPA 72, and NFPA 101.  Model Building and Fire Codes:  The performance standards should be adopted in model building and fire codes by mandatory reference to, or incorporation of, the latest edition of the standard.

NIST WTC Recommendation 14.

NIST recommends that control panels at fire/emergency command stations in buildings be adapted to accept and interpret a larger quantity of more reliable information from the active fire protection systems that provide tactical decision aids to fire ground commanders, including water flow rates from pressure and flow measurement devices, and that standards for their performance be developed.  Affected Standards:  NFPA 1, NFPA 72, and NFPA 101.  Model Building and Fire Codes:  The performance standards should be adopted in model building and fire codes by mandatory reference to, or incorporation of, the latest edition of the standard.

NIST WTC Recommendation 15.

NIST recommends that systems be developed and implemented for:  (1) real time off-site secure transmission of valuable information from fire alarm and other monitored building systems for use by emergency responders, at any location, to enhance situational awareness and response decisions, and maintain safe and efficient operation;*  and (2) preservation of that information either off-site, or in a black box that will survive a fire or other building failure, for purposes of subsequent investigations and analysis.  Standards for the performance of such systems should be developed, and their use should be required.  Affected Standards:  NFPA 1, NFPA 72, and NFPA 101.  Model Building and Fire Codes:  The performance standards should be adopted in model building and fire codes by mandatory reference to, or incorporation of, the latest edition of the standard.

[ * F-35  The alarm systems in the WTC towers were only capable of determining and displaying: (a) areas that had at some time reached alarm point conditions; and (b) areas that had not.  The quality and reliability of information available to emergency responders at the Fire Command Station was not sufficient to understand the fire conditions.  The only information transmitted outside the buildings was the fact that the buildings had gone into alarm.  Further, the fire alarm system in WTC Building 7, which was transmitted to a monitoring service, was on ‘test mode’ during the morning of 11 September 2001, because routine maintenance was being performed.  Under test mode conditions: (1) the system is typically disabled for the entire building, not just for the area where work is being performed; and (2) alarm signals typically do not show up on an operator console.]

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Some Interesting Images From Italy – October 2011

Posted by CJ Walsh

2011-11-07:  Images from a recent business trip to the Region of Le Marche, in Italy … a region steeped in history, and rich in beautiful landscape, and good friends, food and wine … via Rome’s Ciampino Airport.

Without realizing it, the flight into Rome came just after a very serious storm had hit the north-west coastal Regions of Liguria & Toscana … even the central Region of Lazio received a lash.  Devastatingly destructive flash floods had resulted.  Many people were killed.  The recent bad flooding in Dublin was just a tea party in comparison !

     1.  Anti-Sustainable ‘Photovoltaic Fields’

Not small greenhouses !   Instead, let me introduce you to the new concept of the Photovoltaic Field … where good agricultural land has been ‘planted’ with photovoltaic panels, incentivized by grants, tax breaks, or whatever (does it really matter ?!?) … how sustainable is this ?   These fields are becoming quite a common sight in the Italian countryside …

Colour photograph showing a Photovoltaic Field near the road from Amandola to Macerata, in Le Marche ... where good agricultural land has been 'planted' with photovoltaic panels. Photograph by CJ Walsh. 2011-10-29. Click to enlarge.
Colour photograph showing a Photovoltaic Field near the road from Amandola to Macerata, in Le Marche ... where good agricultural land has been 'planted' with photovoltaic panels. Photograph by CJ Walsh. 2011-10-29. Click to enlarge.

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     2.  Petrol/Gasoline Prices in Italy Now

This was a good average … depending on location, however, Petrol/Gasoline Prices could vary by as much as ± 3 to 4 cents …

Colour photograph showing the prices of different grades of petrol and diesel at a Petrol Station in Rome's Ciampino Airport, in Italy. Photograph by CJ Walsh. 2011-10-26. Click to enlarge.
Colour photograph showing the prices of different grades of petrol and diesel at a Petrol Station in Rome's Ciampino Airport, in Italy. Photograph by CJ Walsh. 2011-10-26. Click to enlarge.

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     3.  Braille Maps at Building Entrances/Exits

A good example of a Braille Map, which should be located at the Entrances and Exits of All Buildings … essential for the blind – the visually impaired – those with frail sight … and very useful for travellers/visitors, generally, who are unfamiliar with their surroundings and need to rapidly access information about their location and orientation …

Colour photograph showing a good example of a Braille Map, having strong colour contrast and with texts in Italian and English, at the Arrivals Building Main Entrance/Exit in Rome's Ciampino Airport. Photograph by CJ Walsh. 2011-10-26. Click to enlarge.
Colour photograph showing a good example of a Braille Map, having strong colour contrast and with texts in Italian and English, at the Arrivals Building Main Entrance/Exit in Rome's Ciampino Airport. Photograph by CJ Walsh. 2011-10-26. Click to enlarge.

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     4.  Corrado Levantesi – Montefortino, Le Marche

Finally and most importantly, I want to remember a good friend … Corrado Levantesi, who died one day after his 51st Birthday, on 15 September 2011, following a long illness.  May he rest in peace …

Photograph by CJ Walsh. 2011-10-31. Click to enlarge.
Photograph by CJ Walsh. 2011-10-31. Click to enlarge.

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SDI Practice Note:  Due to administrative changes in the Provincial Boundaries of Le Marche … our Italian Address has been altered to …

Sustainable Design International Ltd.,  Via Doganelli 2,  63857 Amandola (FM),  Italia.

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‘Feeling’ the Violent Earthquake in Abruzzo, Italy ?!?

Posted by CJ Walsh
2009-04-13:  Exactly a week ago … in the early hours of Monday morning (03:32 hrs local time), 6th April 2009, a violent earthquake hit the central Italian Region of Abruzzo.  The quake had a ‘magnitude’ of 6.3 on the Richter Scale … a scale developed by Charles Richter (1900-1985) during the last century, in collaboration with Beno Gutenberg (1889-1960).

 

The high numbers of fatalities and people injured continue, even at this time of writing … seven days later, to rise and rise.  Approaching 60,000 people have been left homeless.  It will take many, many years to restore buildings … and much longer than that to restore the delicate social fabric of local communities.

 

It is a remarkable joy to experience the culture, and live among the people of one such small community in the centre of Italy … Amandola (≈ 4,500 inhabitants), which is a typical hilltop town located approximately 70 Km north of L’Aquila (≈ 67,000 inhabitants), capital of the Abruzzo Region.

 

Colour photograph showing the view, taken just a few hours after the Abruzzo Earthquake, looking towards L'Aquila over the snow-capped Sibillini Mountains. Click to enlarge. Photograph taken by CJ Walsh from within the historical centre of Amandola, 70 Km away. 2009-04-06.
Colour photograph showing the view, taken just a few hours after the Abruzzo Earthquake, looking towards L’Aquila over the snow-capped Sibillini Mountains. Click to enlarge. Photograph taken by CJ Walsh from within the historical centre of Amandola, 70 Km away. 2009-04-06.
 
 

Earthquakes between 6.1 and 6.9 on the Richter Scale regularly cause damage in areas up to 100 Kilometres away from the ‘epicentre’ … that point on the earth’s surface located vertically above the place deep within the Earth where the quake originated.

 

To put local news reports into some context … accurate measurement of dramatically increased levels of natural radon activity in soils, allied with a good understanding of local geology and seismology, can be an important, although not 100% reliable, indicator of what is happening deep underground.  Unfortunately, and unlike in Ireland, radon protection of buildings is not taken seriously in Italy … so, not much attention would have been paid to what anybody said about radon activity in the soils around L’Aquila before the ‘big one’ hit !

 

Tremors from an earthquake, or trembling vibrations, can be felt strongly far away from an epicentre.  I know, because I was in Amandola last Monday morning.

 

To be involved in Earthquake Resisting Design is one thing … I am very comfortable with technical issues, facts, concepts, building products, etc.  To become intimate, however, with the ‘reality’ of a mother of an Earthquake is altogether different !

 

Jerked awake in those early hours … the building was rocking, not just swaying.  Before reaching full consciousness … too much had already happened.  If the building had collapsed, I would never have known what hit me.  But, it didn’t … and there was no internal damage or cracking.

 

I don’t know why … but, I went back to sleep again.

 

Just after 08.00 hrs (local time), phone texts began to arrive from Ireland … “was everybody safe ?”.  Something ‘big’ must have happened during the night.  I rushed to put on the television news … forget about SKY NEWS, CNN, BBC and that miserable, no-good, laughable excuse for an ‘impartial, balanced and fair’ news service FOX NEWS … the best coverage … and continuous coverage … was on the Italian TV Stations.

 

Tragic scenes … of historical buildings destroyed … expected, because they would not be of modern (reinforced concrete or steel) construction … and, far many more than should be the case, of modern buildings seriously damaged or collapsed like a plate of pancakes … somewhat expected, because of inadequate technical controls over building design and construction in many parts of the country.

 

[Similar scenes of modern, ‘tofu’ construction could be witnessed after the Major Earthquakes in Central China, beginning in May 2008.]

 

Later that morning, I inspected an historical building which I had recently restored … and where I had incorporated earthquake resisting features.  Relief, relief, relief … not a single crack.

 

Travelling back to Rome by car that afternoon, fleets of emergency response vehicles moved swiftly in the opposite direction towards the Earthquake Zone …

 

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7-3-2009 – Would that be ‘Today’ … or ‘July 3 2009’ ?

Posted by CJ Walsh
2009-03-07:  Well … which is it ?   This is not a trick question.

 

In order to avoid confusion … the International Standards Organization (ISO) published International Standard ISO 8601 over 20 years ago.  It has since been revised many times, but the current version is …

 

ISO 8601 : 2004

Data Elements & Interchange Formats – Information Interchange – Representation of Dates & Times

 

This was ‘adopted’ by CEN (Comité Européen de Normalisation) as European Standard/Norm … EN 28601 … which later became EN ISO 8601.

 

And, under CEN Rules … it has been ‘transposed’ as the National Standard in the CEN Member Countries … for example …

 

I.S. EN 28601 – Ireland ;

 

BS EN 28601 – Great Britain ;

 

NF EN 28601 – France ;

 

UNI EN 28601 – Italy ;

 

CSN EN 28601 – Czech Republic.

 

 

The Standard Short Format for writing any date in the Gregorian Calendar is …

 

Year – Month – Day

 

Today is … 2009-03-07 … and there can be no confusion !

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BER Certificates & Poor Indoor Air Quality (III)

Posted by CJ Walsh

2009-02-27:  Energy Labelling of Industrial Products is an essential means of raising consumer awareness about energy efficiency and conservation.  I like being able to wander into an electrical shop anywhere in Ireland, Italy or Turkey, for example … and to compare the energy performance of different makes of washing machines, dishwashers or fridges … and even of apparently similar products in the different countries.

 

I can easily visualize these small industrial products being brought into a test laboratory, and then being put through their paces.  It is a credible system.

 

This is NOT possible, however, with a building.

 

 

EU Directive 2002/91/EC of the European Parliament and of the Council, of 16 December 2002, on the Energy Performance of Buildings … is a short document of 7 Pages.  Its Preamble takes up slightly more than the first 2 Pages, and there is a 1 Page Annex at the rear.  Its language is clear and straightforward (see the example of Article 4 below).

 

[What I fail to understand is how and why the Irish National Legislation which implements the Directive … Statutory Instrument No. 666 of 2006: European Communities (Energy Performance of Buildings) Regulations 2006 … is so clumsy, awkward and full of flaws … offering us yet another example of failed ‘light-touch regulation’.  It may also be unconstitutional.]

 

 

 

The EU Directive has something important to say about Indoor Air Quality

 

Article 4 – Setting of Energy Performance Requirements

 

1. Member States shall take the necessary measures to ensure that minimum energy performance requirements for buildings are set, based on the methodology referred to in Article 3.  When setting requirements, Member States may differentiate between new and existing buildings and different categories of buildings.  These requirements shall take account of general indoor climate conditions, in order to avoid possible negative effects such as inadequate ventilation, as well as local conditions and the designated function and the age of the building.

 

[Quick flashback to a generation ago … the panic, throughout Europe, to conserve energy in the late 1970’s and early 1980’s led to a dramatic reduction in rates and quantities of direct, natural ventilation to the habitable spaces of buildings.  This, in turn, had an adverse impact on Indoor Air Quality, and led to a sharp rise in Asthma among building occupants.]

 

 

 

In Ireland, today, problems concerning Poor Indoor Air Quality continue to occur … typically during the Winter Heating Season.  There is a natural tendency to keep windows closed and to seal permanent ventilation openings.  Accidental indoor air seepage to the exterior is also being reduced in our newer building stock.

 

Poor Indoor Air Quality, an important factor in relation to building related ill-health (also known as ‘sick building syndrome’), can cause serious health impairments and severely restrict a person’s participation in everyday activities, e.g. work.

 

Symptoms and Signs may include:

         irritation of eyes, nose and throat ;

         respiratory infections and cough ;

         voice hoarseness and wheezing ;

         asthma ;

         dry mucous membrane and skin ;

         erythema (reddening or inflammation of the skin) ;

         lethargy ;

         mental fatigue and poor concentration ;

         headache ;

         stress ;

         hypersensitivity reactions, i.e. allergies ;

         nausea and dizziness ;

         cancers.

 

 

 

The following 2 Performance Indicators of Good Indoor Air Quality, developed with the aim of protecting human health, are recommended:

 

         Carbon Dioxide (CO2) concentrations in a building should not significantly exceed average external levels – typically within the range of 300 to 500 parts per million – but should at no time exceed 800 parts per million ;

 

         Radon Activity (including Rn-222, Rn-220, RnD) in a building should, on average, fall within the range of 10 to 40 Bq/m3 … but should at no time exceed 60 Bq/m3.

 

 

NOTES:

 

The concept of Protecting Human Health is altogether different from the concept of Assessing Risk to Safety.

 

In Ireland, testing for Radon Activity in buildings must take place during the Heating Season, i.e. the months of November through to March.  What is the use of testing during July, for example, when windows will be wide open ?   Who would even think of doing that ?   I wonder.

 

Measurement Uncertainty of the standard Alpha Particle Etched-Track Detector distributed by the Radiological Protection Institute of Ireland (RPII) is as follows:

         under laboratory conditions: …………………… in the order of …… +/- 10%

         under tightly controlled site conditions: …. in the order of …… +/- 20%

         under typical conditions of use: …………….. well in excess of … +/- 30%

 

Unfortunately, until the RPII includes proper statements of Measurement Uncertainty in its Test Reports … our Organization cannot recommend RPII Radon Testing Services, and we will not accept RPII Test Reports as proper evidence of Radon Test Results.

 

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