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Showing posts with label westend glasgow 24 hours electricians. Show all posts
Showing posts with label westend glasgow 24 hours electricians. Show all posts

Friday, 3 June 2016

Electricians in Clydebank



Shipbuilding  Clydebank

The River Clyde has been a centre for shipbuilding for hundreds of years, with boats being built in the area possibly as early as the 15th century.
However, it was during the 19th century, in places such as Bowling Harbour, Denny's Shipyard in Dumbarton, John Brown's Shipyard at Clydebank and Govan Graving Docks, that shipbuilding became a real source of commerce for Glasgow.
The advent of the The steam engine marked massive opportunities for Glasgow to expand its heavy industry.Between 1844 and 1963, Denny's shipyard alone built over 1500 ships. The Denny family was involved in building the first steamship that crossed the Channel (1814), the first turbine steamer (1901), and the first diesel-electric paddle (1934), to name a few. Also well-known from Dumbarton was the fast clipper Cutty Sark, currently a visitor attraction in London.
For many, though, the heart of the shipping industry in Glasgow lay in Govan and the Fairfield Shipyards. At Fairfield, Robert Napier, known as 'the father of shipbuilding on the Clyde', trained many of those who went on to establish leading shipyards,including John Brown's Shipyard in Clydebank. These shipyards grew towards the end of the nineteenth century to become the some of the leading suppliers of the Royal Navy, as well as building liners and steamers, and the tradition continues today with BAe Systems yards at Govan and Scotstoun.
A shipbuiding landmark on the Clyde is the Finnieston Crane at Yokhill. Completed in 1931, it was primarily used to load large steam ocomatives for exportation. In addition, it was used to fit large ships' engines. This impressive machine is still in working order.
After World War Two the shipping industry went into decline and by the 1960's, Fairfield had collapsed.
Recently, however, regeneration of the Clyde Waterfront has attracted new industry to the area, including financial services, digital media and tourism. However, the long tradition of Shipbuilding in the area continues.

Wednesday, 6 January 2016

Benefits of electrical heating

The Benefits of Electric Heating

Electric heating is making something of a comeback. With natural gas prices soaring and uncertainty in its future availability, electric heating systems are the preferred choice of those who wish an efficient heating system and peace of mind with a more environmentally friendly alternative to gas central heating. So what are the benefits of an electric heating system?

What is Electric Heating?

Essentially, an electric heating system converts electricity into heat. Like an electric kettle, the electric boiler heats water via an element then pumps the water throughout the building’s radiator network. Domestic systems require a boiler but, because of their smaller size compared to gas boilers, they can be situated more discreetly and in smaller spaces.

Efficiency of Electric Heating

Compared to gas central heating, electrical is far more efficient and reliable:
  • EASY TO INSTALL AS THERE IS NO FLUE REQUIRED.
  • ELECTRIC BOILERS CAN RUN AT 100% EFFICIENCY.
  • QUICK RESPONSE TIMES – HOT WATER FROM TAPS WITHIN 5-10 SECONDS, RADIATORS HEAT TO MAXIMUM TEMPERATURE WITHIN 3 MINUTES
  • SIMPLE, USER FRIENDLY CONTROLS ENABLE QUICK AND EASY TEMPERATURE CONTROL, ROOM BY ROOM.
  • FEW MOVING PARTS MEANS NO ANNUAL SERVICE, QUICK AND EASY REPAIR AND MAINTENANCE.
  • LONGER LIFE SPAN THAN A GAS BOILER – 10 YEARS FOR GAS, 15 YEARS FOR ELECTRICITY.
  • DURABLE COMPONENTS.
  • GOOD SAFETY RECORD – NO NEED FOR A FLUE OR VENTILATION.
  • QUIETER OPERATION THAN GAS.
  • MAINS PRESSURE HOT WATER – POWER SHOWERS DON’T REQUIRE A BOOSTER PUMP.
  • NO STORAGE OR HEADER TANKS REQUIRED.
  • PROVIDES CONSTANT ROOM TEMPERATURES.

Helping Your Pocket

Because of the simplicity of electric boilers, electric heating users rest safe in the knowledge that there is little or no energy waste. In addition, electricity usage for heating can be monitored accurately, which helps future domestic budgets.
Users of electric central heating systems can have lower running costs than gas users as they have the option of peak avoidance tariffs to help keep running costs down, something gas users cannot use for their central heating. In the UK, two popular tariffs are Economy 7 and Economy 10. Economy 7 splits electricity use for heating into day and night (7 hours on an off-peak rate during the night). Economy 10 offers 10 hours of off-peak electricity. The beauty of these tariffs means that you have the choice of running heating and other appliances during off-peak times.

Helping the Environment

Both gas and electricity prices have suffered in recent years. Most electricity is created from gas-fired power stations so if gas prices rise so do electricity prices. However, the move towards sustainable electricity generation is well underway. Wind farms account for increasing amounts of generated electricity year on year, and governments around the world continue to collaborate to make electricity more abundant and affordable. This type of electricity generation is not only good for the environment; it is good for end users reliant on electricity for heating. Another environmental benefit of electric heating is that there are no emissions. This not only has a positive effect on the wider environment, but also within buildings as it maintains cleaner, healthier living and working spaces.



Monday, 4 January 2016

Smoke and Carbon monoxide Alarm

A Landlords Guide to: The Smoke and Carbon Monoxide Alarm (SCOTLAND) Regulations 2015

Introduction

The legislation introduced in October 2015 has helped to standardise and clarify the responsibilities of landlords when it comes to installing smoke and carbon monoxide (CO) alarms by a qualified electrician to protect their residents. Existing rules meant that owners of property built prior to June 1992 were not legally obliged to have smoke alarms installed. The updated legislation ensures that ALL rental properties and their residents are adequately protected against fire and carbon monoxide, and our guide is intended to help you interpret these rules.

Why has this change been made?

The legislation is part of a wider effort to increase fire and carbon monoxide safety across the UK. The statistics below, drawn from a variety of sources, highlight why the government has been so keen to redress the imbalance between protection levels for private tenants versus the rest of the housing sector.
Smoke alarm coverage in privately rented accommodation stands at 83%. This is the lowest of any housing type.Source Official Impact Assessment conducted by government prior to announcement of legislation.
Between April 2013 and March 2014, 97 people died and 1900 were injured in domestic fires affecting properties where no smoke alarm was present.Source: Fire Statistic Great Britain 2013-14
The risk of a CO related incident occurring in the private rental sector is three times greater than the risk for other housing types.Source: Gas Safety Trust Carbon Monoxide Incident Report 2012
A study of 1758 emergency department patients displaying symptoms that could be associated with CO poisoning found that only 16% had a CO alarm installed in their home.Source: BMJ (formerly British Medical Journal) Article 2012

Who does the legislation apply to?

The Smoke and Carbon Monoxide Alarm (England) Regulations 2015 apply to all Landlords within England bar a few exceptions. Those exempt from the legislation include:
  • Landlords sharing accommodation with their tenants
  • Landlords granting a right of occupation for a term of 7 years or more
  • Landlords who are registered providers of social housing
Responsibility for the enforcement of the legislation lies with the relevant local housing authority, and breaches of the guidance can be punished by a fine of up to £5000.

How will this affect me?

Many landlords already provide excellent protection by installing smoke alarms throughout their properties. However, carbon monoxide detectors have not necessarily been considered part of a landlord’s duty of care in the past. The statistic that residents of rental properties are three times more likely to suffer a CO related incident than a homeowner highlights how important the provision of CO alarms is, and the new legislation is intended to redress this imbalance.
Different types of properties are affected to different degrees. Under the previous regulations, some types of properties were assessed to different standards in terms of smoke alarms. Whilst this may still hold true, especially for HMOs which come under greater scrutiny, there is now a universal baseline in terms of smoke and CO alarm protection. The table below breaks down the consequences of the legislation and identifies best practice for a range of common property types:
Property TypeEffect of LegislationBest Practice
Assured Tenancy / Assured Shorthold Tenancy(Pre 1992 construction)Legal responsibility to ensure CO alarms are installed. Must provide smoke alarms on every floor.An interconnected system of longlife or mains smoke alarmsthroughout property.

CO alarms present in all high risk rooms.
Assured Tenancy / Assured Shorthold Tenancy(Post 1992 construction)Legal responsibility to ensure CO alarms are installed.
HMO1 or 2 Story. Individual floor area of no more than 200sqmLegal responsibility to ensure CO alarms are installed.A fire risk assessment to identify an appropriate mains poweredinterconnected smoke alarm system.

CO alarms present in all high risk rooms.
HMO3 Stories or higherLegal responsibility to ensure CO alarms are installed.A fire risk assessment to identify an appropriate fire alarm systemwith a central panel.

CO alarms present in all high risk rooms.

Where exactly should I install the alarms?

The new rules make the provision of both smoke and carbon monoxide detectors compulsory, but don't explicitly state exactly where landlords should site them. At present the legislation dictates that a landlord must ensure:
"a smoke alarm is equipped on each storey of the premises on which there is a room used wholly or partly as living accommodation"
"a carbon monoxide alarm is equipped in any room of the premises which is used wholly or partly as living accommodation and contains a solid fuel burning combustion appliance"
These two directives allow you to accurately calculate the amount of detectors required relative to the types of rooms on each floor, but fail to give guidance as to the exact placement or the type of smoke detector.
There are, however, a few general pieces of advice we can offer to help you establish the best locations for your alarms and the most suitable type of detector. It is impossible to offer advice that covers all eventualities, but these rules of thumb should give you a solid foundation from which to decide where to install your alarms.

Smoke alarm placement tips-

  • If you only have one alarm per floor, cover any downstairs hallways with optical smoke alarms and any landings on subsequent floors with ionisation smoke alarms. This setup plays to the strengths of each sensor type to ensure a quick response to any fires without causing unnecessary false alarms.
  • Make sure the alarms are audible from any bedrooms.
  • Site your smoke alarms at least 30cm from any walls. This avoids the ‘dead air’ zone where smoke can take longer to reach sensors.
  • Avoid placing alarms within 30cm of any light fittings or obstructions on the ceiling.
  • Consider installing an additional heat alarm in the kitchen, but never rely on this to protect an entire floor as heat alarms are only effective over a short distance.

Carbon monoxide alarm placement tips-

  • Site your alarms more than 2 metres, and ideally less than 4 metres away from any appliances.
  • If wall mounting your detector, ensure the device is roughly 1.5m from ground level.
  • Site your alarms at least 30cm from any walls, and avoid placing them near to doors and windows.
  • Make sure the alarms are audible from any bedrooms.
Whilst it is ultimately up to you as an individual to consider the best placement for any alarms within your properties, we hope the guidance above will help you make those decisions.

Who is responsible for maintaining the alarms?

In basic terms, landlords must ensure that alarms are provided and working, but routine maintenance and testing then falls to the occupants of the property. Should the alarms develop a fault or expire during a tenancy it remains the responsibility of a landlord to replace them.
The legislation states that a landlord must make certain that:
"checks are made by or on behalf of the landlord to ensure that each prescribed alarm is in proper working order on the day the tenancy begins if it is a new tenancy"
Once the alarms have been established as working, whether a new tenancy or a tenancy overlapping the introduction of the legislation, many landlords ask tenants to sign a document confirming that alarms have been tested in their presence. This can also be used to clarify for the benefit of the tenants that the duty of maintenance falls to them from that point forwards.

What happens if I don’t comply?

Local housing authorities across England now have the power to serve remedial notices to any landlord they have “reasonable grounds to believe” is not in compliance with the regulations. Failure to take appropriate remedial action within the specified timeframe (usually 28 days) will leave you open to a fine of up to £5000 per property.

Sunday, 7 September 2014

SUCCESS AS AN ELECTRICAL CONTRATOR IN GLASGOW



In tough economic times like we have endured over the past several years, businesses in and around Glasgow, have struggled to survive and make ends meet doing the thing they have been doing for the past few years. The landscape has changed advertising has changed even the way we communicate has changed. Our customers come to our company from all different sources and if you have not moved with the times you will be left behind and will suffer the dire business and economic consequences.

We are based in the Westend of Glasgow and cover Glasgow - south side Glasgow (Clarkston)- Glasgow north - East end Glasgow and Renfrewshire. we continue to grow on a daily basis and are consistently looking for new opportunities to grow and enhance our visibility across all levels of media.

The most interesting thing is that in 2014 it dosnt cost in actual cold cash to get yourself out the intact you can basically get business all week 24 hours a day for free just like i do. you need to learn the techniques to do this but once you do you would be forever grateful for taking the time to do so.

i spend 0 on advertising and have done for the past 3 years i more jobs on a daily basis that i can handle and have to disappoint some customers but i do try and get 5-8 jobs  done per day minimum if possible.

if you are interested in learning more about becoming a success as an electrician get in touch iain@weselectrical.co.uk

Friday, 5 September 2014

ELECTRICAL CONSUMER UNIT REPLACEMENT

Consumer Unit guide to the 17th edition Wiring Regulations 


For well over one hundred years the Wiring Regulations IN scotland and in Glasgow where we are based, have provided the rules which must be followed to make sure that electrical installations are safe. The introduction of the 17th Edition of the Wiring Regulations on the 1st January 2008 has major implications for all Electrical Contractors Glasgow, Designers and Consultants. Installations designed from 1st July 2008 must comply with this new set of Regulations. Several new Regulations will have an impact upon circuit design and consumer unit layout. This guide below will help you understand the new Wiring Regulations and current Building Regulations, providing the necessary facts to construct compliant installations including Consumer Units. Since 2005 the Building regulations for England and Wales has made direct reference to Electrical Installations, increasing the influence on how Electrical Equipment is installed in buildings.

Building Regulations

Part P of the building regulations relates to the electrical safety in dwellings. The approved document prescribes that consumer units should be located so that they are easily reachable where this is necessary to comply with Part M of the building Regulations.
Part M requires that reasonable provision be made for people to gain access to a building and use its facilities. The approved document prescribes that switches, socket outlets and “other equipment” needs to be at appropriate heights, these are defined as between 0.45m and 1.2m from finished floor level.
Other equipment may be taken to include the consumer unit, as it contains devices such as MCB’s and RCD’s that may need operation or resetting by the user of the dwelling. The consumer unit should therefore be accessible, with the devices mounted at a height no greater the 1.2m above the floor. In addition the consumer unit should not be in a location that would make it difficult to access such as an under stairs cupboard. Neither should it be placed in a position where is likely to be damaged by impact. Therefore depending on the layout of the dwelling a flush consumer unit may be considered.
Consumer Units should be easily reachable and be mounted with the switches at a height of between 0.45m & 1.2m above floor level
Scotland Requirements of 17th Edition Wiring Regulations BS 7671:2008

This section aims to explain some of the new Regulations contained within the 17th Edition Wiring Regulations, regarding the consumer unit and final circuits. Firstly however, to fully understand what is required, we need to consider some definitions from Part 2 of the Regulations.
  • Ordinary Person – Someone who is neither skilled or instructed
    e.g. General public / Home owner
  • Skilled Person – A person with technical knowledge or experience to enable him/her to avoid dangers which electricity may create
    e.g. Qualified Electrician
  • Instructed Person – A person who has been adequately advised or supervised to enable him/her to avoid dangers which electricity may create
    e.g. Facilities Manager
Typically commercial installations will be under the control of a Skilled or Instructed Person. However domestic and some commercial installations will not. This is particularly important, as certain Regulations only apply to installations not under the supervision of a Skilled or Instructed Person. A significant change is the introduction of Regulations requiring additional protection by RCDs. There are 3 points of consideration,
  1. Socket Outlets
  2. Cables buried in walls
  3. Locations containing a bath or shower
together with some other considerations, like the Division of Installation and about the Fire Detection and Fire Alarm Systems for buildings.
Certain Regulations only apply to installations not under the supervision of a Skilled or Instructed Person i.e. Ordinary persons.
The Regulations have introduced new requirements regarding socket outlets, particularly where used by ordinary persons e.g. Home owners.

Sockets Outlets

The definitions for persons are important to consider when we look at the requirements for protection of circuits supplying socket outlets.  Regulation 411.3.3 requires that an RCD of not exceeding 30mA be provided for:
  1. Socket outlets up to 20A that for general use by “ordinary persons”.
  2. Mobile equipment up to 32A that is for use outdoors.
    Exceptions to 411.3.3 are permitted where:
  3. Use of socket outlets is under the supervision of someone “skilled” or “instructed”.
  4. Specifically labelled or otherwise suitably identified socket outlets provided for a particular item of equipment.
This is a change from the 16th Edition that required only socket outlets ‘reasonably expected’ to supply equipment used outside the equipotential zone to have RCD protection e.g. used for an Electric lawn mower. Now under the requirements of the 17th edition it is likely that every socket outlet in a domestic installation will require RCD protection not exceeding 30mA. This may also apply to some commercial installations, like small offices or shops etc where there is no control on the use of those socket outlets. Consideration should also be given to areas where free access to socket outlets is available to the general public e.g. airport lounges.
Socket outlets for general use in a domestic installation require RCD protection not exceeding 30mA
Significant changes affect installations where cables are buried in the wall. This is the normal practice in dwellings.

Cables buried in the wall

Here we need to consider Section 522, Selection and erection of wiring systems in relation to external influences. The particular requirements of this section apply to cables which are concealed in a wall or partition at a depth of less than 50mm, or where metal partitions are used. The definitions for persons are once again important for this section. There are 5 options of installing cables in walls. The cables shall:
  1. Incorporate an earthed metal covering which is suitable as a protective conductor. Eg SWA cable.
  2. Be enclosed in earthed metal conduit, such that is suitable as a protective conductor.
  3. Be enclosed in earthed metal trunking, such that is suitable as a protective conductor.
  4. Be protected against damage from penetration by nails or screws.
  5. Be installed in a safe zone.
This is much the same as the 16th Edition requirements and the usual option is to install cables in a dedicated safe zone. However, where an installation is not under the supervision of someone skilled or instructed, regulation 522.6.7 applies. In this regulation where (5) only from above is used then the cable must have additional protection by the use of a RCD not exceeding 30mA. This would apply where thermoplastic (PVC) wiring systems are used, this is typical in most domestic installations and some commercial installations.
Where buried cables are not mechanically protected additional protection by an RCD not exceeding 30mA must be provided
Although additional regulations relating to bathrooms etc are not new, there are some important changes to consider.

Section 701, Locations containing a bath or shower

Regulation 701.411.3.3 requires that all circuits within this location shall be additionally protected by an RCD not exceeding 30mA. This would mean 230V lighting, the 230V supply to the source for SELV, a shower circuit and bathroom heater for example will all need RCD protection. A standard 13A socket outlet is now permitted in this location provided however the socket outlet is more than 3m from the boundary of zone 1.
The 16th Edition required local supplementary bonding be provided connecting together all exposed and extraneous conductive parts in the zones. This is no longer required in this location provided the following conditions are met:
  • All final circuits of the location comply with the automatic disconnection requirements according to regulation 411.3.2.
  • All circuits are RCD protected in accordance with 701.411.3.3.
  • All extraneous-conductive parts of the location are effectively connected to the protective equipotential bonding according to regulation 411.3.1.2 (Previously termed main equipotential bonding).
All circuits in locations containing a bath or shower shall be protected by an RCD not exceeding 30mA

Qualified electricians paisley Other Considerations

There are additional Regulations and Codes of Practice that need to be considered during the design of an installation. These will affect the choice of consumer unit.

Division of Installation

Section 314 calls for the installation to be so divided to:
  1. Avoid hazards and minimize inconvenience in the event of a fault
  2. Reduce the possibility of unwanted tripping of the RCD due to excessive protective conductor currents.
To comply with these requirements the circuits of an installation should not be connected to a single RCD, as this could lead to loss of supply to the entire installation in the event of a fault on one circuit, clearly inconvenient for the user of the building.
All circuits of an installation should not be connected to a single RCD
The Wiring Rules & Building regulations are not the only documents that need to be consulted, another important document relates to smoke alarms.

BS 5839-6:2004 Fire detection and Fire alarm systems for buildings

This Code of Practice has particular requirements for dwellings. This document makes reference to the power supply to such systems and mentions RCD’s. The circuit supplying these systems should preferably not be protected by an RCD. This however is going to be difficult to achieve if the circuit supplying these systems is buried in the walls and standard domestic wiring systems are used. Indeed the supply cables would need to be specially protected in earthed metal conduit etc. for RCD protection not to be used.

Saturday, 17 November 2012

working saturdays as an electrician

every now and again saturday work crops up,now for an electrician it can be very good or very bad dependent. today was no exception i had three booked in today all around glasgow and as we all know glasgow is football day and the traffic around the centre of glasgow is horrific at best. but i managed to get my van through the peak travel traffic to get to my first job. speaing of van i have to get new tax disc this week, so i need to dig out all my docs i hate this time of year hehe. anyway first job was a breeze then i was off to anniesland very close to the westend of glasgow where our office is based. i just had to give the customer a quotations which i did and got the work...great all guns blazing. next was to fault find why power was tripping in hyndland road. easy one for a man of my calibour. so roll on sunday shift cctv installation... excited. westend glasgow electricians 24 hour

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