Impact of orientation of residential neighborhoods on optimizing sustainable and equitable exposure of insolation-Case study of Sulaimani, Iraq

摘要

In the northern hemisphere, neighborhoods are often preferred to be laid out in a rectilinear gridiron pattern with half of the houses in double-lot blocks having south-facing facades for optimal use of available solar energy. Adjoining houses, with north-facing facades, receive minimal insolation, leading to an overall inequitable use of available insolation. This paper presents a method of determining the overall optimal block orientation using 3ds Max software with linear regression models. The city of Sulaimani, Iraq, is used to illustrate. Obtaining the optimal orientation is essential for guiding planners in the land subdivision process, before the lots are designed. To optimize sustainable and equitable exposure to insolation in the city of Sulaimani, the annual insolation value (AIV) was calculated based on the algebraic sum of the amount of insolation energy for each double facade at each 5 degrees, then factored by the cooling and heating degree-day ratio for each month. These values represent the annual energy required for cooling and heating for each orientation. The insolation inequity index (III) was proposed to measure the inequity between various opposite orientations. Accordingly, the value of (III) is equal to one for the ideal case (zero inequity). All orientations were examined, and the (0 degrees-180 degrees) demonstrated the highest inequity (III = 0.60), which indicates 40% inequity while the highest equity (III = 0.98) was ( 110 degrees-290 degrees). Nevertheless, the last orientation was not the most sustainable because its total (AIV) was not the minimum. The optimal direction was determined to be (100 degrees-280 degrees), which has the minimum total (AIV) of 484 kWh (maximum sustainability) with the largest value of (III = 0.92) (maximum equity). It was found that if this optimal orientation was applied in Sulaimani, the inequity would have been reduced by 22% from III = 0.70 in 1955 to III = 0.92 in 2003. (C) 2015 International Energy Initiative. Published by Elsevier Inc. All rights reserved.