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[H714]House Plans With Courtyards

by Robert Thatcher, Rob

What people never knew is that house plans are the better investment.

Why? It is because the foundation, the structure, and the beauty of a house depend on the creation and assumption of house plans.

Therefore, it is important to spend some time contemplating on making and analyzing house plans. If ever the plan was not made in such a way that it would provided the optimum protection for the family, then that is not an investment after all.

Hence, it is extremely important to pay close attention to the house plan. Factors that are to be considered when making house plans should be well taken into account. Here are five things to consider when making house plans:

1. Location

Before making house plans, it is important to contemplate first on the location of the lot where the house will be built. Is it near the schools? The market? Or is it located in an area where transportations are scarce?

The point here is that it is important to consider the location when creating house plans. The design and structure of the house should match the kind of environment the neighborhood has.

2. Lifestyle

Do you prefer to live in the city, or the quiet suburban subdivision living? You definitely do not want to dig yourself a debt hole just to build a new house that conflict with your lifestyle.

When creating house plans, it is also important to consider the lifestyle. The total impression that the house will have on its visitors should greatly reflect the kind of lifestyle the family has.

3. Size of the family

Many houses now are so small because developers have to take into consideration the paying capacity of the buyers.

However, if ever you have the budget and the time to supervise the building of your new house, it is important to consider first the size of your family. For instance, the number of your children will indicate the number of rooms that you have to consider on your plan.

4. Environment

It is extremely important to consider the kind of environment the neighborhood has in creating house plans. For instance, if the area seems to be a hot spot, it is best to include some plans on proper insulation of the house so as to conserve energy consumption.

There are also cases wherein the type of soil is also important in making a house. Therefore, it is best to try to consider the kind of soil the lot area has when making house plans. What good will the designs be if the foundation of the house is literally weak?

5. Law and the government

There are cases wherein certain laws apply when building a particular house. These are known as the zoning laws. Therefore, it is best to consider them when making house plans because there are some laws that limits the height of the house to be built or the percentage of the allowed portion that the house will occupy in a given lot area.

The bottom line here is that the overall foundation and stability of a house is greatly dependent on the proper creation and execution of house plans. No wonder why it is considered by the others as the bigger investment.

The Environmental Design Standards Schedule sets Nature's stage for custom home design and custom home building. What's in your home plan?

An Environmental Design Schedule of some sort is a general requisite, albeit limited in scope, for higher-end designer house plan sets and on rare occasion demanded in some categories as part of a designer house plan set submission by a building authority having jurisdiction. Commonly, these inclusions are not nearly as comprehensive as that which follows, in this custom home designer's opinion.

WHAT'S IN THE ENVIRONMENTAL SCHEDULE?

It's best to do the Environmental Schedule work as early as possibly in the custom home design enterprise. This particular designer home plan Environmental Design Standards Schedule was authored preparatory to a custom home design project in Warrenton, PA. All the entries follow.

1. Latitude 38.68N, 77.76W

2. Elevation: 498-640 linear feet

3. Seismic: Zone = 1

4. Exposure category: B

5. Wind. A) Basic wind speed (3-second gust, 50-year mean recurrence) = 9 MPH; b) Monthly range = 6-9 MPH (1-1.5 MPH below U.S. average); c). Historical tornado activity 15% above U.S. average, higher than Virginia average, predominantly in flatter, open, southern areas [this latter point of predominance having been determined subsequent to initial scheduling, from further, direct inquiry].

6. Precipitation. a) Rainfall ? At I2 (5-minute, 25-year recurrence) = 9 inches per hour; b) Monthly range = 2.-75-4.25 inches (1/2-3/4 inch above U.S. average); c) Snow ? Ground snow load (50-year mean recurrence) = 30 pounds per square foot; d) Monthly range = 0-7 1/4 inches ( U.S. average, except ?-2 inches higher in Q1); e) Average annual, including rain, snow, and hail ? 40.1-40.9 inches [depending on source].

7. Temperature. a) Daily lo = 22-65F (Average); b) Daily hi = 42-85F (Average); c) Average range = 32-75F (Average); d) 24-hour average = 54.3F; e) Average minimum = 43.3F; f) Average maximum = 65.3F

8. Humidity: Morning = 75-89% (Average); Afternoon = 49-59% (Average).

9. Sunshine = 45-63% (2-8% points below U.S. average)

10. Degree Days [variation depends on source's average temperature peg]: Heating = 4200-4795 [former datum's basis undisclosed, latter's is 54F]; Cooling = 517-1548 [former datum's basis undisclosed, latter's is 54F, see 11. below ? this home designer prefers the widest range]

10. Insulation: a) Attic = R-49; b) Walls = R-18; c) Band = R-30; d) Basement = R-11, prefer R-18; e) Slab-on-grade = R-10; f) Heating Degree Days: 4200-4795 [depending on source, see 10 above]; g) Heating Degree Days: 517-966 [depending on source, see 10. above.]

11. Weathering Probability for Concrete: Severe

12. Termite Infestation Probability: Moderate to Heavy

13. Decay Probability: Slight to Moderate

WHERE DOES WHAT-ALL COME FROM AND WHY CARE?

Let's start again, for the rest of the story.
1. Latitude and longitude: Source: http://www.epodunk.com et al.
Use: Google Earth for direct observation; soffit and overhang depth gauge inputs relative to window height.

2. Elevation: Source: http://www.city-data.com et al.. Use: Wide variation inspires more specific jobsite locale; rain, snow, and temperature metrics can be elevation-dependent versus county averages.

3. Seismic zone: Source: International Residential Code map, if it's an easy siting; often, local building departments in Zones 2B and up; scrounging around, otherwise. Use: At Zone 2B, this custom home designer begins turning over some building design elements to engineering latitude, including but not limited to shearwalls, reentrant corner foundation structure, larger roof overhangs, as above porches, taller site walls, etc.; at Zone 3 and up, all structure must be reviewed with engineering latitude.

4. Exposure category: Source: International Residential Code. Use: To determine the extent to which natural elements, especially wind, shall be factored into design; to a lesser extent, at Exposure A and even B, natural light intrusion may be limited.

5. Wind. A) Basic wind speed (3-second gust, 50-year mean recurrence) in MPH: Source: http://www.buildings.chiefind.com/design/MBMA2002.pdf. Use: Wide-ranging application to methods and materials of construction; b) Wind speed - Monthly range: Sources, various including, http://www.city-data.com. Use: Sense of wind variability; again to methods and materials for marginal judgments of home design; c) Historic wind storm activity: Source: http://www.city-data.com et al. including local weather history news reports; clients' awareness and alert. Use: Can spur further investigation as to the generalized statement's relevance ? geographical relationship or topographical similarities to jobsite; tends to shade other wind metrics; can affect wall and roof structure, fenestration, roofing, etc.

6. Precipitation. a) Rainfall rate (I2 = 5-minute, 25-year recurrence) in inches per hour (IPH): Source: http://www.buildings.chiefind.com/design/MBMA2002.pdf. Use: Watershed Schedule; footing drainpipe sizing; etc.; b) Rainfall - Monthly range: Source: http://www.city-data.com. Use: To gauge watershed variability, e.g., tighter range indicates steadier wetness; shading IPH; c) Snow ? Ground snow load (50-year mean recurrence): Source: http://www.buildings.chiefind.com/design/MBMA2002.pdf except in some higher altitudes where data must be sourced from the local building authority having jurisdiction. Use: Primarily roof and deck structure; secondarily, certain design matters of functionality, particularly exterior mobility. d) Snow - Monthly range: Source: http://www.city-data.com. Use: Shade ground snow load metric; e) Average annual, including rain snow, and hail: Source: http://www.city-data.com. Use: Perspective.

7. Temperature (in lieu of the grossly generalized "Design Temperature"): Daily lo, daily hi, average range, 24-hour range, average minimum, average maximum, and comparison to national averages: Sources, various including, http://www.city-data.com & http://www.worldclimate.com. Use: Perspective on controlling daylighting; appropriate materials and methods for convenience of ventilation and heat transfer; materials durability, notably concrete; etc.

8. Humidity - Morning and afternoon Source: http://www.city-data.com. Use: Appropriate materials and methods for convenience of ventilation; materials durability

9. Sunshine: Source: http://www.city-data.com. Use: Jointly with Temperature and Humidity, to assess extents of general and specific design aspects; impacts nature and character of fenestration; to design for daylighting and nightlighting

10. Degree Days: Source: http://www.ornl.gov/~roofs/Zip/ZipHome.html or www.worldclimate.com. Use: HVAC prescription, including SEER (not less than 13 in this custom home designer's opinion)

11. Insulation: Source: http://www.ornl.gov/~roofs/Zip/ZipHome.html. Use: Definitive minimum R-values for ceiling, wall, floor, band, etc. based on zip code, structure; heating and cooling equipment design, etc. developed by DOE, Oak Ridge National Laboratory, Oak Ridge, TN

12. Weathering Probability for Concrete: Source: International Residential Code. Use: To assess sufficiency of surface hardening, other amendments, etc.

13. Termite Infestation Probability: Source: International Residential Code. Use: To assess need for termite shield design specifications

14. Decay Probability: Source: International Residential Code. Use: To assess finish exterior clad durability, ventilate the building envelope, set foundation height over finish grade, etc.

Article Source : Pg. 121

About Author

Both Robert Thatcher & Ralph Pressel are contributors for EditorialToday. The above articles have been edited for relevancy and timeliness. All write-ups, reviews, tips and guides published by EditorialToday.com and its partners or affiliates are for informational purposes only. They should not be used for any legal or any other type of advice. We do not endorse any author, contributor, writer or article posted by our team.

Robert Thatcher has sinced written about articles on various topics from Employment, Infants And Toddlers and Shopping. Robert Thatcher is a freelance publisher based in Cupertino, California. He publishes articles and reports in various ezines and provides house plan resources on