Thursday, 20 September 2012
NVQ Qualifications Represent the Future for Construction
The ability to prove the competency of an individual to safely carry out a specific task has long been a problem in Construction which no scheme or card system has been capable of solving, however construction based NVQ's at last achieve this goal simply by removing grey areas and proving an individuals competency.
A CSCS card without an NVQ qualification has never been and never will be a way of proving competency, yet Blue Chip organisations and UK's largest construction companies continue to display a lethargic and in some cases a reluctance to embrace NVQ qualifications...Why?
The truth is that obtaining NVQ's in many of the specialist trades is not always readily available with a lack of A1 qualified assessors and costs associated with the obtaining the qualification which is often in the region of £2000 both individuals and companies are reluctant to invest in individuals.
Until this investment arrives or the the larger companies begin to pressurise sub contractors for an NVQ qualification as a minimum requirement, goals such as Balfour Beatty's Zero Harm by 2012 will remain pie in the sky and totally unacheivable.
Monday, 3 September 2012
Churchill’s Expand in to the Rail Sector
Churchill Specialist Contracting Ltd is a multi disciplined contracting organisation specialising in the Lightning Protection, Earthing, Surge Protection and Working at Height sectors who wish to expand these specialist services into the Rail Sector.
Operating from our centrally based HQ in Nottingham we currently employ 37 full time field operatives with a skill base including but not limited to fully coded welders, NVQ level 2 (minimum qualification) Lightning Protection Engineers, NVQ Level 2 (minimum qualification) Steeplejacks, NDT Testers, Irata Rope Access Technicians, Appointed Persons and Temporary Modular and Motorised Platform Installers.
Brief Case Study;-
In February 2012 Churchill were employed to remove 2no 50m redundant lighting towers located at the Hornsey railway sidings in North London without the use of mobile cranes, with no disruption to rail services both towers were safely removed within budget and programme.
The success of this project resulted in the company being encouraged by Network Rail and the contract sponsor to obtain Link Up accreditation to increase our exposure in the rail sector, we are now pleased to announce accreditation to Link Up for the following product codes;-
0428.1002.SER Health, Safety & Environment Training - SER
0803.1007.SMP Protective Installations - SMP
0803.1007.DES Protective Installations - DES
0803.1007.CBD Protective Installations - CBD
0803.1007.TCD Protective Installations - TCD
0803.1007.RAD Protective Installations - RAD
0803.1007.MRC Protective Installations - MRC
0804.1007.SER Steeplejack Services - SER
1214.1001.SER Access Scaffolding - SER
1230.1001.SMP Specialist Access (Platforms etc.) - SMP
1230.1001.DES Specialist Access (Platforms etc.) - DES
1230.1001.CBD Specialist Access (Platforms etc.) - CBD
1230.1001.RAD Specialist Access (Platforms etc.) - RAD
1230.1001.MRC Specialist Access (Platforms etc.) - MRC
1237.1001.SER Ultrasonic Testing - SER
If you would like more information please do not hesitate to give me a call, alternatively you may wish to visit our web site at www.churchillsc.co.uk where there is also an online sales counter for the purchasing of a wide range of lightning protection, earthing and surge protection products.
Operating from our centrally based HQ in Nottingham we currently employ 37 full time field operatives with a skill base including but not limited to fully coded welders, NVQ level 2 (minimum qualification) Lightning Protection Engineers, NVQ Level 2 (minimum qualification) Steeplejacks, NDT Testers, Irata Rope Access Technicians, Appointed Persons and Temporary Modular and Motorised Platform Installers.
Brief Case Study;-
In February 2012 Churchill were employed to remove 2no 50m redundant lighting towers located at the Hornsey railway sidings in North London without the use of mobile cranes, with no disruption to rail services both towers were safely removed within budget and programme.
The success of this project resulted in the company being encouraged by Network Rail and the contract sponsor to obtain Link Up accreditation to increase our exposure in the rail sector, we are now pleased to announce accreditation to Link Up for the following product codes;-
0428.1002.SER Health, Safety & Environment Training - SER
0803.1007.SMP Protective Installations - SMP
0803.1007.DES Protective Installations - DES
0803.1007.CBD Protective Installations - CBD
0803.1007.TCD Protective Installations - TCD
0803.1007.RAD Protective Installations - RAD
0803.1007.MRC Protective Installations - MRC
0804.1007.SER Steeplejack Services - SER
1214.1001.SER Access Scaffolding - SER
1230.1001.SMP Specialist Access (Platforms etc.) - SMP
1230.1001.DES Specialist Access (Platforms etc.) - DES
1230.1001.CBD Specialist Access (Platforms etc.) - CBD
1230.1001.RAD Specialist Access (Platforms etc.) - RAD
1230.1001.MRC Specialist Access (Platforms etc.) - MRC
1237.1001.SER Ultrasonic Testing - SER
If you would like more information please do not hesitate to give me a call, alternatively you may wish to visit our web site at www.churchillsc.co.uk where there is also an online sales counter for the purchasing of a wide range of lightning protection, earthing and surge protection products.
Wednesday, 29 August 2012
Link Up - Churchill Specialist Contracting
Churchill Specialist Contracting have achieved accreditation to Achilles Link Up for both lightning protection testing & installations as well as specialist access platforms.
This latest accreditation will support the business in obtaining contracts in the Rail sector without the need to be sponsored by a third party not only in the field of lightning protection but will for the first time offer the rail sector a unique turnkey solution for installing specialist access with a skill base to then simultaneously carry out a wide range of tasks including but not limited to surveys, dismantling and the repair/maintenance of concrete, brick & steel structures including towers, shafts & bridges.
In addition our specialist access solutions together with our techniques employed in the field of controlled dismantling is now directly available to the rail sector, a combination recently recognised when we were employed to dismantle 2no large lighting towers located in the Hornsey railway sidings North London.
The contract was safely completed without a mobile crane and without the need for a line closure, within budget and without incident
This latest accreditation will support the business in obtaining contracts in the Rail sector without the need to be sponsored by a third party not only in the field of lightning protection but will for the first time offer the rail sector a unique turnkey solution for installing specialist access with a skill base to then simultaneously carry out a wide range of tasks including but not limited to surveys, dismantling and the repair/maintenance of concrete, brick & steel structures including towers, shafts & bridges.
In addition our specialist access solutions together with our techniques employed in the field of controlled dismantling is now directly available to the rail sector, a combination recently recognised when we were employed to dismantle 2no large lighting towers located in the Hornsey railway sidings North London.
The contract was safely completed without a mobile crane and without the need for a line closure, within budget and without incident
Thursday, 23 August 2012
Churchill Online Store Service
Churchill Specialist Contracting new online store offers a full range of lightning protection, earthing and surge protection products from the UK and Europe’s leading manufactures including Furse, Wallis and Sudafix.
Due to our locality and our relationship with the UK’s largest manufacturers of lightning protection products established over an 18 year relationship via our contracting division Churchill have been successful in obtaining very competitive rates on a wide range of products, as a result we are able to offer these products up to 20% the manufacturers RRP.
Supported by our experienced contracting team if required help is on hand to assist on line purchasers with the selection and installation of lighting protection products all in accordance with the latest standard BS EN 62305.
Based centrally in Nottingham next delivery of all purchased products via the web site is available anywhere in the UK and with shipments and air freight regularly being dispatched to Nigeria, Saudia Arabia, Spain and France. The online shopping opportunity previously not available to the sector is proving to be a great success.
The site is still relatively young but as the SEO and marketing begins to take effect the 1200+ products will rapidly begin to rank high in the search engines and coupled with a concentrated marketing campaign to be launched in September 2012 the future for the ecommerce site looks very promising.
Please visit our store by clicking on the following link http://www.steeplejack.co.uk/Store/Default.aspx and discover a new more cost effective and easier solution to purchase your lightning protection, earthing and surge protection products.
Tuesday, 26 June 2012
Lightning Protection
Throughout history lightning has always been seen as extraordinary and has intrigued people. Even today people are astonished of the power of lightning and the images it produces.
Lightning featured in the news once again recently, when a bolt of lightning struck the Empire State Building in New York City. Many people in awe of this force of nature captured the moment on their cameras during a series of thunderstorms affecting the city. Countless numbers of these people will be perhaps unaware of the danger of these brilliant bolts of light, despite them being an exciting object of photography.
According to the National Weather Service the Empire State Building is annually struck by lightning on average twenty three times. This startling fact reinforces the need for buildings such as this to have installed lightning protection systems, without which they could potentially be destroyed. These systems protect the fabric and content of buildings and structures if they are affected by a lightning strike.
These protection systems can be easily installed by specialist contracting companies such as Churchill, who will assess the building in question and provide adequate safety constructions.
Having an earth termination system provides protection not only for your building but also for the occupants of the building, making it an essential instalment in workplaces. External grid arrangement lightning protection systems are also commonly employed which is designed and applied in order to confer protection depending on the risk associated with the building.
It is important to remember that although lightning can be amazing to watch it can also be exceptionally destructive making lightning protection a necessity.
Wednesday, 20 June 2012
TATA Steel - Chimney Replacement Project
Churchill have secured the contract to replace 2no 40m boiler chimneys at the TATA Steel site in Rotherham.
The turnkey project will include the removal and re processing of the 2no existing steel boiler chimneys and the supply and erection of 2no steel replacement stacks with all site work being undertaken by ChurchillSC directly employed labour.
The work is scheduled to be completed during the sites outage period beginning at the end of the July 2012.
The turnkey project will include the removal and re processing of the 2no existing steel boiler chimneys and the supply and erection of 2no steel replacement stacks with all site work being undertaken by ChurchillSC directly employed labour.
The work is scheduled to be completed during the sites outage period beginning at the end of the July 2012.
Monday, 28 May 2012
Chimney Dismantling
Churchill have successfully completed the piecemeal small
dismantling of a 50m tall x 2.2m diameter disused steel chimney on a COMAH 1 site in Stowmarket.
To add to the
complexity of the project that would see a requirement for hot work at height
the chimney was situated adjacent to a live railway line managed by Network
Rail that determined cranes could not be used as part of the project.
The chimney was
dismantled within budget and completed within an eight week program
Monday, 16 April 2012
BS 7671 - Surge Protection Section (534)
Surge Protection - Latest BS 7671 Wiring Regulations
A new key section (534) within the latest edition of BS 7671 Wiring Regulations published on the 1 July 2011 came into effect on 1 January 2012.
Section (534) now sees a requirement for all new electrical installations designed after 1 January 2012 to include the correct selection and installation of a SPD's (Surge Protection Device).
This requirement is to provide protection against over voltages from atmospheric origin (lightning) or electrical switching events both of which are capable of severely effecting electrical installations and connected equipment.
The risks to life, buildings and electronics due to over voltages are detailed within BS EN 62305 'Protection Against Lightning' with the standard clearly detailing a risk assessment to establish the type and level of SPD's required.
Churchill offer a full range of SPD's manufactured by the world's leading suppliers, this is supported by free comprehensive advice together with free seminars to larger clients explaining the fundamentals of SPD's.
The most popular SPD on the market and the one most commonly installed is the Furse ESP 415 M1 which is an enhanced protector for three phase supplies of 346 - 484 volts, for single phase supplies of 200 - 280 volts the ESP 240 M1 should be employed.
For more information of SPD's call our helpdesk on 0844 504 9998
Wednesday, 14 March 2012
The Origins of Lightning Protection
Lightning protection science was first conceived by Benjamin Franklin in 1749 with his invention of the first pointed lightning rod conductor that became known as a “lightning attractor” and much later as the “Franklin Rod.” Franklin spent many years in the lightning protection design process to include his famous kite experiment, which took place as he was waiting for permission to test his theories on the new Christ Church structure in Philadelphia, PA. Although Franklin did not patent any of his inventions, he published advice on lightning protection in Poor Richard's Almanac in 1753.
At that time, common belief was that lightning was a creation of God and therefore should not be interfered with in anyway. Franklin was finally able to convince the church deacons that they should take precautions against lightning damage by installing the lightning protection he designed, citing that rain was also a creation of God but roofs were still used on buildings to protect people and contents of buildings.
During the 19th century, lightning protection became an architectural addition to many public and private structures. The overall pointed rod design was complimented with ornamental solid glass balls, which were not only decorative but were believed to be an integral element in the effectiveness of the lightning protection of the structure. The theory behind this addition was that since glass is a non-conductor of electricity that they would repel the charge and for a time, because of the erratic behaviour of lightning it was believed this was scientifically proven.
Both the pointed design and the addition of the solid glass balls were soon proven by Nicola Tesla to be a flawed lightning protection design. Tesla's patented design was a great improvement over Franklin's original lightning protection of the pointed rod. In 1919, years after receiving his patent, Tesla publish an article, “Famous Scientific Illusions” in The Electrical Experimenter explaining the logic he used to dispel the science of Franklin's pointed lightning rod and scientific knowledge he used to design his lightning protection device. In his article, Tesla proved that the pointed tip of the iron rod actually ionised the air around it, which rendered it air conductive and raised the probability of a lightning strike.
Over the decades, since Franklin and Tesla, there has been much progress in lightning protection systems. Great innovations in design and methodology have advanced the protection of mission critical systems for military and government operations and commercial applications. From transportation system control centres to mobile phone transmission towers, the instances of catastrophic damage to these and other services we had all come to take for granted has been greatly reduced.
Friday, 24 February 2012
10 Interesting Facts about Lightning
With lightning being a specialty here, we have decided to share with you 10 interesting facts about lightning!
- A single bolt of lightning is around 50,000f or 5 times hotter than the surface of the sun.
- The irrational fear of lightning is known as keraunophobia.
- There are two types of lightning, negative strikes and positive strikes. Positive strikes are 5 times more powerful than negative strikes.
- The odds of being struck by lightning in your lifetime is 1 in 3,000.
- Most lightning strikes average at 2-3 miles long and carry a current of 10000 Amps at 100million volts.
- Each second there are 50 to 100 Cloud-to-ground lightning strikes to the earth worldwide.
- The Empire State Building in New York is struck 24 times a year and was once struck eight times in 24 minutes.
- An average instance of lightning lasts about a quarter of a second and consists of 3-4 strikes
- The energy contained from a single lightning strike can power a 100 watt light bulb for 90 days.
- "Lightning never strikes twice" is just a myth, lightning can strike the same location many times.
Tuesday, 21 February 2012
How Lightning Damages Buildings
Lightning is both amazing to watch, and also highly destructive. The amount of energy a lightning strikes imparts on an object means damage to people and buildings can be significant. It isn't just the strike itself though that causes the problems, there are in fact three ways in which a lightning strike on a building can be devastating.
Physical
Unsurprisingly, most lightning damage is on the rood of a building although this isn't always the case. Roofing titles, chimneys and other roof furniture like satellite dishes and air conditioning unites are often most at risk. However it isn't just this immediate physical damage that is the biggest problem, the risk of fire that can follow a strike is recognised as the biggest potential threat to any building. Tall buildings are especially vulnerable therefore it is rare to see prominent buildings without some form of lightning protection.
Conduction
Of course, anything metal both attracts the strike and then conducts the electricity, this can often be carried deep inside a building causing irreparable damage to electronic equipment. It's not just electronics that spread the damage around though; plumbing is just as likely to create problems. In fact, the conductive nature of metal can be so attractive to lightning that even hidden pipe work underground can often be in the direct firing line.
Electromagnetic
Finally, it doesn't even have to be a direct strike to cause problems, electromagnetic fields caused by a strike can create havoc with computer equipment and other sensitive electronics. Many choose to protect themselves by fitting surge protection devices in addition to physical protection. Whilst physical damage can often be repaired, the loss of data which is possible with the Electromagnetic fields has the potential to be extremely costly and disruptive to businesses heavily reliant on data communications.
Physical
Unsurprisingly, most lightning damage is on the rood of a building although this isn't always the case. Roofing titles, chimneys and other roof furniture like satellite dishes and air conditioning unites are often most at risk. However it isn't just this immediate physical damage that is the biggest problem, the risk of fire that can follow a strike is recognised as the biggest potential threat to any building. Tall buildings are especially vulnerable therefore it is rare to see prominent buildings without some form of lightning protection.
Conduction
Of course, anything metal both attracts the strike and then conducts the electricity, this can often be carried deep inside a building causing irreparable damage to electronic equipment. It's not just electronics that spread the damage around though; plumbing is just as likely to create problems. In fact, the conductive nature of metal can be so attractive to lightning that even hidden pipe work underground can often be in the direct firing line.
Electromagnetic
Finally, it doesn't even have to be a direct strike to cause problems, electromagnetic fields caused by a strike can create havoc with computer equipment and other sensitive electronics. Many choose to protect themselves by fitting surge protection devices in addition to physical protection. Whilst physical damage can often be repaired, the loss of data which is possible with the Electromagnetic fields has the potential to be extremely costly and disruptive to businesses heavily reliant on data communications.
Tuesday, 31 January 2012
The Basics of Lightning
We've talked a lot about lightning protection but not actually about the phenomenon of lightning itself to understand how protection works its worth having a look at why and how lightning strikes.
The lightning most frequently referred to in terms of lightning protection is cloud to ground lightning, other forms of lightning exist but cause less damage to buildings and people than this particular recognised form of lightning.
A lightning strike originates about 15,000 to 20,000 feet above sea level and works its way down to about 50 yards above ground, it’s about at this height that will determine the attachment point which is the point where lightning will strike. The currents in lightning range up to 400kA with average individual stroke of lightning ranging between 25kA to 40kA, the total current will be divided between the different paths of the lightning strikes.
When lightning strikes a stepped leader works its way towards the ground and is met by an upward leader that comes from the ground then a number of return strokes occur which are flashes from the point of contact to the cloud.
Lightning strikes cannot be prevented, they can only be intercepted or diverted onto a path that if well designed will not result in damage, injury or loss of life. Any designed path to earth should have a low impedance connection to earth; this means that the opposition to the flowing current should not be high. The measure is calculated using a complex formula but a protection system can be designed to have low impedance connection.
Lightning protection should always be installed by certificated ATLAS accredited lightning protection designer, if this is not possible measures should be taken to ensure that the installation is assessed by a suitably qualified ATLAS company and that the lightning protection installation will work and protect the building and its occupants against the effects of a lightning strike.
To discuss your lightning protection requirements email our design team at info@churchillsc.co.uk
The lightning most frequently referred to in terms of lightning protection is cloud to ground lightning, other forms of lightning exist but cause less damage to buildings and people than this particular recognised form of lightning.
A lightning strike originates about 15,000 to 20,000 feet above sea level and works its way down to about 50 yards above ground, it’s about at this height that will determine the attachment point which is the point where lightning will strike. The currents in lightning range up to 400kA with average individual stroke of lightning ranging between 25kA to 40kA, the total current will be divided between the different paths of the lightning strikes.
When lightning strikes a stepped leader works its way towards the ground and is met by an upward leader that comes from the ground then a number of return strokes occur which are flashes from the point of contact to the cloud.
Lightning strikes cannot be prevented, they can only be intercepted or diverted onto a path that if well designed will not result in damage, injury or loss of life. Any designed path to earth should have a low impedance connection to earth; this means that the opposition to the flowing current should not be high. The measure is calculated using a complex formula but a protection system can be designed to have low impedance connection.
Lightning protection should always be installed by certificated ATLAS accredited lightning protection designer, if this is not possible measures should be taken to ensure that the installation is assessed by a suitably qualified ATLAS company and that the lightning protection installation will work and protect the building and its occupants against the effects of a lightning strike.
To discuss your lightning protection requirements email our design team at info@churchillsc.co.uk
Labels:
installation,
Lightening Protection,
services
Tuesday, 24 January 2012
Selecting Conductors For Your Lightning Protection System
One of the most important components of any lightning protection system is the actual lightning conductor. Conductors are available in two different materials, aluminium and copper and a range of different widths, the most common width used in the UK is 25x3mm.
Designers of lightning protection system will establish the correct width and length from the formulas needed to design the system to ensure the down conductors are capable of transferring the energy and forces of a lightning protection strike safely to earth.
To assist architects and designers of buildings conductors are also available in a wide selection of PVCs lightning protection is required for modern buildings there are a range of pvc covered colours for both aluminium and copper conductor tape. These colours such as black, green, grey, stone, white and brown have been selected to blend in with most modern buildings so the aesthetic impact of the conductor is reduced.
Conductors are also available in flat, solid circular and stranded versions. Flat tape lightning conductors are the most traditional and is also considered to be the easiest to install and where a degree of flexibility is required in a conductor there is also the option of fitting a copper braid.
Solid circular conductors are usually used in conditions where the aesthetic considerations are important, the solid circular conductors are still fairly easy to install but unlike the flat tape systems a straightening tool is required to achieve the desired finish, although it is rarely used in large applications there is also the option of using a stranded cable conductors.
If you require any assistance with the design of your lightning protection system or would like a sample of the products available please visit our ecommerce web site to request samples and assistance.
At Churchill’s we offer the complete solution from design to install however if you simply wish to purchase your lightning protection equipment and have it delivered anywhere in the UK within 3 working days this unique service is available via our on line store.
Designers of lightning protection system will establish the correct width and length from the formulas needed to design the system to ensure the down conductors are capable of transferring the energy and forces of a lightning protection strike safely to earth.
To assist architects and designers of buildings conductors are also available in a wide selection of PVCs lightning protection is required for modern buildings there are a range of pvc covered colours for both aluminium and copper conductor tape. These colours such as black, green, grey, stone, white and brown have been selected to blend in with most modern buildings so the aesthetic impact of the conductor is reduced.
Conductors are also available in flat, solid circular and stranded versions. Flat tape lightning conductors are the most traditional and is also considered to be the easiest to install and where a degree of flexibility is required in a conductor there is also the option of fitting a copper braid.
Solid circular conductors are usually used in conditions where the aesthetic considerations are important, the solid circular conductors are still fairly easy to install but unlike the flat tape systems a straightening tool is required to achieve the desired finish, although it is rarely used in large applications there is also the option of using a stranded cable conductors.
If you require any assistance with the design of your lightning protection system or would like a sample of the products available please visit our ecommerce web site to request samples and assistance.
At Churchill’s we offer the complete solution from design to install however if you simply wish to purchase your lightning protection equipment and have it delivered anywhere in the UK within 3 working days this unique service is available via our on line store.
Subscribe to:
Posts (Atom)