Aug 25, 2014
Category:Air Conditioning Air Conditioning Repair 
Posted by: awspecialists

The Alpine Corp specializes in Air Conditioning Repair in Plymouth, Michigan and surrounding areas. Call the top rated Plymouth, Michigan Air Conditioning Repair company today at (248) 219-2486!

Unlike most furnaces, air conditioners are complex mechanical systems that depend on awide variety of conditions to work correctly. They are sized to meet a certain “load” on the house. They are designed to have certain amount of refrigerant, known as the “charge”. They are designed to have a certain amount of air flow across the coils. When any of these things changes, the system will have problems.

If you produce more heat indoors either from having more people or appliances or because of changes in the house, the air conditioning may not be able to keep up.

If the refrigerant charge on the system leaks out, it lowers the capacity of the system. You will simply get less cooling and system will not be able to keep up when the load gets high.

If airflow across the outdoor (condenser) coil is reduced, the ability to reject heat outdoors is reduced and the again the capacity of the system may go down, especially at higher outdoor temperatures.

In dry climates such as the Southwest United States, the same issues happen with regard to the indoor (evaporator) coil: higher airflow helps, lower airflow hurts. In humid climates, the situation is more complex. At higher airflows, there will be less dehumidification, leading to high indoor humidities. If the airflow gets too low, however, the evaporator coil may freeze. This makes performance worse and can damage the compressor until it fails - leaving you with an expensive repair bill and no cooling!

If you need professional Air Conditioning Repair in Plymouth, Michigan and nearby areas, call the Air Conditioning Repair experts at The Alpine Corp (248) 219-2486 for more information.

Aug 25, 2014
Category:Plumbing Plumbing Repair 
Posted by: awspecialists

The Alpine Corp specializes in plumbing repair in Plymouth, Michigan and surrounding areas. Call the top rated Plymouth, Michigan plumbing repair company today at (248) 219-2486!

The Number One Home Repair You Should Never Do Yourself:  Plumbing Repair

One thing can be said about water — if there’s a way out, water will find it. The very smallest leak can lead to thousands of dollars worth of damage if it’s not caught in time. If you’re a capable do-it-yourselfer and there’s existing plumbing in place, you can probably manage some minor plumbing repairs like changing a shower head or replacing a faucet. Even installing a new toilet is within the realm of a capable DIY-er (just make sure you have a tight seal). Where you can get into trouble is if you try to modify your plumbing system — extending hot water lines or re-routing your sewer pipes. Working with hot water means copper pipes, and that requires a blow torch. Unless you have some serious welding experience, it’s best to leave the torch jobs to the professionals. While this isn’t as dangerous as electric work, plumbing problems can get out of hand fast and lead to an expensive and wet future.

If you need professional plumbing repair in Plymouth, Michigan and nearby areas, call the plumbing repair experts at The Alpine Corp (248) 219-2486 for more information.

Aug 24, 2014
Category:Fire Protection 
Posted by: awspecialists

Are you in need of fire protection in Livonia, Michigan and surrounding areas? If so, call the Livonia MI fire protection experts at The Alpine Corporation (248) 219-2486 today!

Fire Protection Definition:

Fire protection refers to measures taken to prevent fire from becoming destructive, reduce the impact of uncontrolled fire and save lives and property. It involves the implementation of safety planning practices and drills, and includes education on fire, research, investigation, safety planning, building construction, safe operations, training and testing of mitigating systems.

There are three basic essentials of fire protection:

  • Study of Fire: To learn the causes of fire, fire extinguishing techniques, detection and extinguishing equipment and their uses, and the rules and regulations related to building construction.

  • Active Fire Protection: Includes manual or automatic detection of fire, the use of fire and smoke alarms, firefighting and first aid.

  • Passive Fire Protection: Design of building and infrastructures, use of fire resistance material in construction, provision of isolating fire, fire walls and doors, smoke doors, training of firefighting, signage, markings and evacuation of building in case of fire.
Fire protection is an everyday action. The fire regulations in force must be implemented in factories, living areas, public places and transportation. Education on fire and regular fire drills are also major compliance issues.
If you are looking for fire protection service in Livonia, Michigan and surrounding areas, call the top rated Livonia MI fire protection service - The Alpine Corporation at (248) 219-2486 today!
Jul 28, 2014
Category:Fire Protection 
Posted by: The Alpine Corporation

Are you in need of fire protection in Plymouth, Michigan and surrounding areas? If so, call the Plymouth MI fire protection experts at The Alpine Corporation (248) 219-2486 today!

1. Is my building subject to the provisions of the Life Safety Code?

The NFPA publishes the Life Safety Code using mandatory language that can be adopted –

most often legislatively – for use in a given jurisdiction. Some U.S. government agencies

adopt the Code administratively and this too has the effect of law within that agency. As a

starting point, contact your state fire marshal to help determine if NFPA 101 Life Safety

Code has been adopted for enforcement in your area. If the Code is used, ask which

edition. The Life Safety Code is published every three years. Local jurisdictions do not

always adopt the most recent edition of the code..For example, the Centers for Medicare

and Medicaid Services (CMS) and The Joint Commission enforce the 2000 edition on

health care occupancies.

2. Who is the Life Safety Code authority having jurisdiction for my building?

The authority having jurisdiction (AHJ) is that person or office charged with enforcing the

Life Safety Code. In many states the AHJ is the state fire marshal who has local

inspectors work on his/her behalf. In some cities, fire department fire prevention division

personnel fulfill the role of AHJ; sometimes it is the building official. For some

occupancies, there is more than one AHJ; each AHJ's approval must be secured. For

example, the authorities having jurisdiction for a hospital might include: state fire

marshal; building official; fire department fire prevention officer; state health care

licensing agency; The Joint Commission; U.S. Department of Health and Human Services

– Centers for Medicare and Medicaid Services (CMS); and the facility's insurance carrier.

If you're unsure who the AHJ is, contact your state fire marshal.

3. I'm putting an addition onto my existing building; where do the Life Safety Code

requirements for "new" and where do the requirements for "existing" apply?

The Life Safety Code requires that the addition, itself, meet the requirements for new

construction applicable to the occupancy. The existing portion of the building is generally

permitted to conform to the requirements for an existing building of its occupancy type.

However, there are many special requirements that modify this general rule. For

example, if the new construction requirements applicable to the addition mandate a

sprinkler system "throughout the building", then sprinklers are required in both the new

addition and the existing portion of the building. See NFPA 101, Chapter 43, Building


4. Does the Life Safety Code require automatic sprinklers in my building?

The Life Safety Code requires many occupancies – especially new construction – to be

sprinklered. Determine whether the building is subject to the requirements for new

construction or those for existing buildings. Go first to the 3.5 subsection of the applicable

occupancy chapter to find any direct mandate for sprinklers. Next, check the 1.6

subsection under the subject of construction; for some occupancies the building

construction type and number of stories can trigger the application of a sprinkler

requirement. If the building is high rise, another check should be made in the fourth

section of the occupancy chapter because many occupancies require high rise buildings to

NFPA 101 – FAQs

be sprinklered-both for new and existing. Also keep track of any alternatives utilized that

were offered by the occupancy chapters or the basic, core chapters at the front of the

Code. For example, many occupancies offer an increase in allowable travel distance if the

building is sprinklered. If the travel distance increase is taken, then the sprinkler system

is required. As another example, the atrium provisions in the chapter "Fire Protection

Features" require an atrium building to be sprinklered. A useful feature of the electronic

edition of the National Fire Codes is the search capability; a search for "sprinkler" will

quickly locate Code text addressing the subject.

5. I have an old sprinkler system that isn't required by the Life Safety Code; can I

shut it down?

First, assure yourself that the Life Safety Code truly doesn't require the sprinkler system.

The use of a Code-specified alternative might have invoked a sprinkler requirement. For

example, many occupancies offer an increase in allowable travel distance if the building is

sprinklered; if the travel distance increase was taken, then the sprinkler system is

required. Next, check whether other applicable codes, local ordinances, or insurance

company policies require the sprinkler system. If the sprinkler system is not required it

can be shut down if sprinklers and control valves obvious to the public are removed. The

removal of the equipment is necessary to prevent a false sense of security by building

occupants. A typical scenario of concern involves an occupant who – mistakenly believing

that the sprinkler system is operative – doesn't leave the building early in a fire. Provided

that the sprinklers are removed, there should be no need to remove the sprinkler system

piping provided such piping is concealed within the ceiling cavity.

6. I have a third stair that isn't required by the Life Safety Code; does it need to

meet Code requirements?

The third stair might not be Code-required from the standpoint of minimum number of

means of egress, or due to an egress width and capacity consideration, or based on a

maximum travel distance limitation. Yet, an authority having jurisdiction (AHJ) might

claim that the stair is part of the required means of egress for a building occupant who

happens to be on the stair at the very instant that the building occupants are notified of a

fire. Assuming that the AHJ agrees that the third stair is not required, then the Code

requirements specifically applicable to stairs do not have to be met. Provisions which are

stair-related but address other concepts, such as enclosure so as not to have an

unprotected vertical opening, must be met. The designer, for example, could specify that

the nonrequired stair have a riser height in excess of that permitted by the Code; but

over the life of the building that decision might have repercussions in terms of fall and

injury suits and the resulting liability. The designer has little defense when he/she knew

to design the two required stairs to the safer dimensions. The noncomplying, nonrequired

stair should not be used during emergency egress and relocation drills; the stair should

be marked with a sign stating "NO EXIT." Better yet, the stair should be constructed to

meet all applicable Code provisions.

7. Does the Life Safety Code require guards on the open side of switch-back stair


The Life Safety Code requires guards along means of egress paths where there is a

vertical drop of at least 30 in. (760 mm). This has particular implication on stairs that

historically have required only handrails. Guards must be provided on open sides of the

stair — including those that "switch back" between adjacent stair flights regardless of

horizontal distance between those flights. The minimum 42-in. (1065 mm) high guard, in

place of the minimum 34-in. to 38-in. (865-mm to 965-mm) handrail, is needed to

prevent the 95 percentile male from falling over the rail upon striking the side of a stair.

NFPA 101 – FAQs

On switch-back flights of stairs the required guard is intended to keep a person from

falling to the adjacent stair flight. However, the Code permits existing guards on existing

stairs to be a minimum of 30 in. (760 mm) high.

8. Does the Life Safety Code require the doors in my building to swing in the

direction of egress travel?

Except for a special form of horizontal sliding door and a couple of other exceptions, the

Life Safety Code requires doors in a means of egress to be of the side-hinged or pivotedswinging

type. Further, the Code requires the swinging doors to open in the direction of

egress travel under any of four conditions: One, when the door serves a room or area

with an occupant load of 50 or more persons; Two, when the door is used in an exit

enclosure (such as the door into an enclosed exit stair); Three, when the door serves a

high hazard contents area; and Four, when the door is in a horizontal exit. If none of the

four conditions applies, then the door is permitted to swing back into the room or space.

9. How are the Life Safety Code provisions applicable to occupant load intended to

be applied?

The Life Safety Code intends for the occupant load – expressed in number of persons – to

be representative of the maximum probable number of persons apt to be present under

foreseeable circumstances. Occupant load must consider the maximum probable number

of persons because it is used in calculations to assure that the egress system has

adequate capacity (i.e., that it is wide enough) to accommodate everyone at times of

emergency egress and relocation. The occupant load is the larger of the two numbers that

result from: One, performing a calculation using floor area and a Code-specified occupant

load factor based on the use of the space; and Two, inquiring of the

owner/operator/designer how many people will be present. For some occupancies, such

as assembly, the occupant load cannot exceed a calculated value representative of the

maximum safe packing of people in a space regardless of how much extra egress width is


10.Does the Life Safety Code require my building to have a 1-hour corridor?

Within the Life Safety Code's means of egress chapter there is a generalized provision

requiring a 1-hour fire resistance–rated corridor if the corridor serves as exit access and

serves an area having a total occupant load of more than 30 persons. However, the

occupancy chapters are permitted to modify this provision and most do. For example,

some of the occupancy chapters wholly exempt the corridor walls if the building is

sprinklered; other occupancies permit a reduction in required fire resistance rating to ½

hour if the building is sprinklered; and others permit the corridor to have no fire

resistance rating but be a smoke partition or otherwise smoke resisting based on the

presence of sprinklers (some on a building-wide sprinkler basis and others on a

sprinklered smoke compartment basis). See the 3.6 subsection of the occupancy

chapters. Also, the means of egress chapter's 1-hour corridor requirement is not

retroactively applied to existing buildings provided that the occupancy classification

doesn't change.

11.What is the difference between travel distance and common path of travel?

The Life Safety Code provides limitations for maximum travel distance and common path

of travel. These requirements are used to ensure that occupants can reach a point of

safety within a reasonable distance. Travel distance is the total distance in a building an

occupant must travel before reaching an exit. Travel distance is measured from the most

NFPA 101 – FAQs

remote point in a room to a point where the nearest exit begins. Exit passageways,

horizontal exits, enclosed exit stairs, and exterior door openings are all considered exits.

Unlike travel distance, common path is not measured all the way to the exit itself.

Common path of travel terminates at the point where the occupant has available to them

a choice to travel two separate and distinct directions to two different exits. For example,

common path might end once an occupant reaches a corridor with exits at both ends.

Both common path and travel distance are measured along the natural path of travel,

around corners and obstructions.

If you are looking for fire protection service in Plymouth, Michigan and surrounding areas, call the top rated Plymouth MI fire protection service - The Alpine Corporation at (248) 219-2486 today!

Jul 28, 2014
Category:HVAC Air Conditioning 
Posted by: awspecialists

Are you in need of air conditioning repair in Livonia, MI and surrounding areas? If so, call the top rated Livonia MI air conditioning repair company - The Alpine Corporation at (248) 219-2486 today!

The job of your home air conditioner is move heat from inside your home to the outside, thereby cooling you and your home. Air conditioners blow cool air into your home by pulling the heat out of that air. The air is cooled by blowing it over a set of cold pipes called an evaporator coil. This works just like the cooling that happens when water evaporates from your skin. The evaporator coil is filled with a special liquid called a refrigerant, which changes from a liquid to a gas as it absorbs heat from the air. The refrigerant is pumped outside the house to another coil where it gives up its heat and changes back into a liquid. This outside coil is called the condenser because the refrigerant is condensing from a gas back to a fluid just like moisture on a cold window. A pump, called a compressor, is used to move the refrigerant between the two coils and to change the pressure of the refrigerant so that all the refrigerant evaporates or condenses in the appropriate coils.

The energy to do all of this is used by the motor that runs the compressor. The entire system will normally give about three times the cooling energy that the compressor uses. This odd fact happens because the changing of refrigerant from a liquid to a gas and back again lets the system move much more energy than the compressor uses.

If you would like a professional and trustworthy air conditioning repair in Livonia, Michigan, call The Alpine Corporation at (248) 219-2486 now!

Jul 17, 2014
Category:Plumbing Plumbing Repair 
Posted by: awspecialists

Are you in need of a professional Livonia MI plumber? Is so, call the top rated plumbing company in Livonia MI, The Alpine Corporation, at (248) 219-2486 now!

Benefits of Hiring a Professional Plumber:

People do not always realize how essential a plumber can be for their homes. Water is a basic necessity for everyday living; and without proper-working faucets, toilets, showers or pipes, life can be quite difficult. Not only does faulty plumbing make living hard, it can also damage such things as carpets, floor boards and walls. To avoid all of this, it is essential that people hire a plumber in Austin for any of their plumbing needs.

Experience and Knowledge

There are many benefits of people hiring a plumber rather than attempting to fix plumbing problems themselves. The biggest advantage of hiring a professional is that they have all of the knowledge and experience required to fix the problems that homeowners may be having. They have been trained to handle any plumbing problem no matter if it is something small such as a clogged toilet or something large such as a broken pipe.

While many people try to fix plumbing problems on their own, this is not a smart idea unless the people know exactly what they are doing. Many times, people only make the problems worse when they try to fix it on their own. For example, when people try to unclog a toilet using a plunger, they may fix the problem for the moment; however, the real problem could lie deep within the pipes.

Proper Equipment

Professionals can get to the root of peoples problems and fix them permanently rather than temporarily. Professionals also possess all of the proper equipment they need to repair any problems, big or small. Some of the equipment that professional plumbers have, people simply do not keep just laying around their homes. Plumbers can locate any problem that homeowners may have and repair it before it gets so large that it damages walls or flooring.

In conclusion, when people have problems with their plumbing, they should hire the services of a professional. A licensed professional can repair any problems that homeowners may have and make sure that problems do not resurface later. While many people try to repair problems on their own, it is best to hire a professional who knows how to handle any problems and who has all the proper equipment, as well.

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