How To Reduce Your Electrical Bill Up To 65%

you can actually reduce your electricity bill down by 60 % with the use of a power inverter

An inverter is said to be an electronic device that changes Direct Current (DC) (i.e. PHCN source) to Alternating Current (AC). Inverter does not produce any power, the power is provided by the DC source (PHCN source)

Inverter are technically much more advanced as compared to your Generating sets which are noisy, polluting and need starting that usually requires pulling chords-a feat not suited to ladies and children.

Besides, generators are often unreliable, Storage of fuel too is a major fire hazard.

Your Inverter can automatically take over in case of power failure and switches off when power supply is restored; one does not even realize that there is a power failure. It is for these very reasons that INVERTERS are PREFERRED over GENERATORS throughout the WORLD. All you have to do is FIX and FORGET, the inverter does the rest.

ADVANTAGES AND BENEFITS OF INVERTER

• Eco friendly since no noise pollution and no air pollution.

• Lesser cost of ownership and also economical to run.

• User friendly, automatically changes over from mains to inverter on power failure & vice-versa when power gets restored.

• Low maintenance effort/cost.

• Very safe and clean as no fuel handling/storage required.

• Ease installation, can be installed in smaller space and as per convenience.

• Good power quality and hence it is very safe for sophisticated household appliances.

• Better technical support.

• Best warranty cover.

• 24/7 after sales services.

• Best service centre ENSURES.

• Full safety of highly sophisticated equipment.

• 100% pure, reliable and regulated power.

• Low running cost.

• Extended power back up time.

• Easy maintenance.

• No humming noise from any load..

• Great power saving APPLICATIONS.

• Electrical Backup system.

• Data/Call centers.

• Telecommunication.

• POS systems/air-conditioners.

• Critical Work Stations.

• Security systems/air-conditioner.

• Medical/Laboratory Equipment.

• Office/Home Applications.

• Solar powered street/security Light For further information.

One of the common residential types of inverter is a 1.5KVA/24V INVERTER which can power 8-Energy Bulbs, 4-Fans, 1-Television, 1-Home-Theater, 1-Laptop and phone charging port

For product advice;

Email;info@microspeedtechnologies.com, customercare@microspeedtechnologies.com.

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Construction Procedure of Surface Road Side Drainage-PART 1 (with picture)

Surface water ( i.e., rain water) that falls on the ground surface such as; open field, paved areas or road surface, roof tops etc are channeled to a main drain naturally or through a constructed channel which is referred to as drainage. Procedure for construction of a common drainage (trench) (1m x 1m U drainage) (reinforced). includes; I. Marking Of Alignment: The surveyor marked out the alignment for the trench to be dug. II. Digging/Excavation: The surveyor marked out the dept of the trench to be excavated with a mechanical excavating machine. For a 1m x 1m drainage, the mathematical process of obtaining the required dept is to sum together the dept of the required drain + base + blinding. For dept: A drain of dept1000 mm, base of 150 mm and blinding of 50 mm. Hence 1000mm + 150mm + 50mm = 1200mm (1.2 m) So an excavation of 1200mm (1.2m) is required from the to level of the road surface. For width:

Construction Procedure of Surface Road Side Drainage-PART 2 (with picture)

V. Next step is laying of concrete base on the blinded surface and the positioned reinforcement. A concrete base of 150 mm is to be laid or cast on the blinded floor, concrete grade C20 of ratio 1:2:4 is allowed (See concrete grading and mix ratio). A guiding panel is placed into position to guild in the laying of the concrete base in order to achieve a uniformly alignment base edge, thickness and width, also to manage concrete material while pouring. The base is cast with the U shape reinforcement bottom in between the concrete base achieving concrete cover below and above. VI. After setting and drying of the concrete base, next is to position the side wall panel form work. The floor base is marked to give the required one meter (1000 mm) internal width where the panel will be positioned. The panel wall spacing is 100mm, and wall height of 1000mm (1 meter), the panel is lubricated, clipped and prepared to accept the Concrete.

Ring / Pipe Culverts Construction procedure

Culvert is an open/close drain structure that allows water to flow below a road. It’s like a tunnel carrying a stream of water flow. A Ring/Pipe Culvert Procedure for construction of a common Ring/Pipe Culvert (road junction culvert) includes; I. Marking Of Alignment: - The surveyor marked out the alignment for the trench to be dug. II. Digging/Excavation: The surveyor marked out the dept of the culvert to be excavated with an excavating machine. For a 1m pipe culvert, the mathematical process of obtaining the required dept is to sum together the total width of the pipe + base + blinding. For dept: A pipe of width 1000 mm, base of 150 mm and blinding of 50 mm (though optional). . Hence 1000mm + 150mm + 50mm = 1200mm (1.2 m) So an excavation of 1200mm (1.2m) is required from the to level of the natural ground (sub grade level) surface. For width: A minimum of (2.5 x width) m is advisable.

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