How about old architecture? Basically old architecture is the foundation above all modern architecture. Each elements that represent the function and each elements of the building were there. The old architecture also consider its environment, by building with social aspect. Some movers company such as Illinois Moving Companies might giving you the best tips on how to move your stuff, while old architecture building giving you old perspective about the building itself, which mostly contains arts and history.

The old architecture itself, generally have the same characteristic. Especially in colonialism eras, some countries in Asia and Africa also effected on classic European architecture style. Although the material being used are blended with local materials, but its not changing the fact that the building was inspire by the original old architecture, with rich of arts.
The high roof is one of the example of classic European architecture style. As any other company goes international, Illinois International Movers providing you the best service. As for architecture it was goes international, especially in colonialism eras.

Modern architecture might be strong and powerful playing colors, but old one, are specific in arts detailing. Color itself are some attractive magnetic. Some even have psychological impact on people, these including colors applied in building. The interior and exterior of modern architecture usually looking for match colors, while the old one usually using less colors, but showing more angle. Talking about building and architecture are close onto home movers, if you’d like Moving To Illinois, you could use some professional movers company services such as Illinois Movers.

Both modern and old architecture do have their own characteristic, but yet both of them have their own fanatic fans.

Although needs of place to live are increasing and urgent due all communities need a place to live. Solutions that can be done to take advantage of small location and maximize it as possible to build a building with storey to get more space. Thus this should have good planning.

For story building usually require a lots of materials because we have to make a second floor plate made ​​of cast reinforced by concrete material. The tall buildings are usually built under the floor as high as 4 meters. As for the high walls of the second floor about 3 meters. So in anticipation of this we can cut the high-building so that unused material not so much that can reduce development expenditure, of course. But without reducing the comfort and beauty of the building.

For the second floor we can take advantage of the slope of the roof which is usually shaped sloping. For our basement wall trim height to 3.2 meters so that the shorter stay is not too hot for the temperature in the room. And for the second floor we make we take advantage of 1.5 meters and also the slope of the roof. So that later would seem more efficient buildings. So the total wall height is 4.7 meters.

For the second floor should only be designated as a bedroom or lounge. Because it is not designed for the family room. And it is usually the 2nd floor space is usually only for sleeping space only. To cope with the heat on the second floor would suggest using roofing materials that can reduce heat such as ceramic tile, but can reduce heat ceramic tiles can also muffle the sound of heavy rain.

Although it will cost you more money to spend but but saves you from building high-reduction. A little extra to save the budget for the construction easier and cheaper but not cheap that is on the 2nd floor using flooring materials fabrication. This is in addition to cost savings for the manufacture of ceilings on the ground floor as well for making savings sanitation. Due to sanitation should be made straight with a position on the downstairs bathroom.

Sprinkler and standpipe systems are often combined, although the extent of piping used for sprinkler systems is far greater than piping used for standpipes. Sprinkler coverage requires that vertical riser piping and branch piping extend to all areas of each building floor.

Given the extent of piping, failure of a sprinkler pipe, potentially caused by pipe failure or a blast event, would render the standpipe system inoperable for fire department use, in addition to quickly exhausting the fire reserve. Dedicated, vertical standpipe systems can be more easily protected from failure than horizontal sprinkler systems. Vertical piping can be encased within hardened shafts, which can be integrated with hardened enclosures for stairwells or fire vestibules.

Enhanced Fire Suppression System should consideration below aspect:
1. Reliability of water source
2. Redundant fire pumps
3. Types of fire pumps, e.g., electric, diesel
4. Interconnection of water services
5. Quick-acting check valves
6. Separation of sprinkler and standpipe systems
7. Location and/or vulnerability of fire-protection piping
8. Flow limiting or flow shut-off valves

Sprinkler system reliability depends on water availability, with minimal opportunity for system failures in the event of a fire or emergency. Tamper and basic flow alarms identify when the system may not be prepared to deliver water when needed.

The value of introducing other water flow control measures, such as automatic valves, in high-risk installations to provide flow limiting or flow shut-off valves on sprinkler systems should be assessed. These valves would limit flow or shut-off on excessive flow, such as a pipe break, thereby conserving the water supply.

Ventilation system design, system component technology, operation, and maintenance are critical to ventilation system
reliability and security. At the same time, ventilation systems will distribute airborne contaminants, biochemical hazards, and particles to all points throughout a building, posing serious potential health hazards.

Fresh air is introduced to the building at air intake louvers. Realistically, there is no air block or other way to prevent foreign substances from entering an air intake once access is gained. Depending on facility vulnerability and risk factors, restricting access to air intake areas may be achieved through the following:
• Ordinary lock and key
• Intruder alarms
• Security cameras

Careful coordination of air intake louvers and grilles is a critical issue between engineers and architects on any building type, to achieve a balance among aesthetics, security, and function.

Mechanical equipment that conditions and distributes air throughout a building consists of various components, including filters, cooling and heating coils, fans, diffusers, and final filters. Air filters remove a percentage of particles from the air. Standard filters, used in office buildings, are typically 85 percent dispersed oil particulate (DOP) filters. In hospitals, laboratories, clean rooms, and other installations that require cleaner environments, the air filters that are generally specified are 95 percent DOP, electrostatic filters, or 99.97 percent HEPA. Air filtration for biochemical hazards could be
increased with the installation of activated carbon filters and ultraviolet light systems.

Ventilation system design utilizing high-efficiency filtration would result in increased first costs, due to the need for larger fan motors to overcome added static pressure of the system and increased operating costs.

Sensors quick and reliable enough to automatically initiate appropriate protection modes of operation are not readily available in the marketplace. However, air-quality detection systems are a primary focus for research and development divisions of major manufacturers. Sophisticated building automation and control systems enable quick responses by building operations personnel in emergencies. Building control systems can quickly shut down other systems and isolate a facility from further contaminant exposure.

Water sources vary for each building and could include a municipal water supply, private water supply, or supply from a well. Reliability of the water supply should be reviewed during a facility threat analysis and risk assessment. Depending on local conditions, an on-site water storage system may be required. Hospitals, research laboratories, utility generating facilities, and other mission-critical facilities are highly dependent on water availability. In such cases, alternative water sources should
be considered during facility planning and design.

Fire pumps are required for facilities lacking adequate water service main pressure to reliably supply building fire suppression systems. Effective operation is essential for pro standpipe building services. Nonoperational fire pumps could endanger a facility and building occupy in an emergency. Providing redundant fire pumps in different locations, supplies and controllers, can enhance fire pump system reliability.

Consideration should be given providing one electrically operated pump and one diesel-driven pump, to offer greater diversity. The primary electric service would allow the electric pump to be supplied from the diesel emergency generator and the other pump to be driven by the internal diesel engine. Should the diesel emergency generator fail to operate, a fire pump would still be available to support the building fire suppression system.