Climatic zoning and per capita demand forecast of Iran using degree-day method

IF 2.1 Q2 CONSTRUCTION & BUILDING TECHNOLOGY Advances in Building Energy Research Pub Date : 2019-08-18 DOI:10.1080/17512549.2019.1654918

Hamed Eshraghi, M. Ansari, Shahab Moshari, J. Gholami

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引用次数: 9

Abstract

ABSTRACT In order to achieve a more accurate prediction of future electrical energy consumption, the present research considers a long-term study of the climatic conditions of Iran for the top 82 most densely populated cities. For each city, heating degree-days (HDD) and cooling degree-days (CDD), precipitation, climatic zones classification, and an average temperature of coldest and warmest months are used as measures for the study. Subsequently, for the four most densely cities, the climate change during the past 60 years (1959–2018) has been investigated. Results show that CDD values for all cities have increased gradually in the same period, while HDD values have decreased. According to linear interpolation, average daily CDD 24°C in the year 2025 for Tehran is estimated as 1.903 (694.595 yearly). Furthermore, based on multiple linear regression analysis, the PCD for Tehran, Mashhad, Shiraz, Tabriz, Isfahan, and Kermanshah will change by 0.5%, 2.3%, 4.7%, 1.9%, 3.4% and −5.3% by the year 2030, respectively. It is also worth mentioning that the precipitation and Humidity have an inverse relation with PCD. Also, the effect of base temperature on CDD and HDD showed that only one-degree change in the base temperature could cause a significant change in CDD and HDD.

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用度日法预测伊朗气候分区及人均需求

摘要为了更准确地预测未来的电能消耗，本研究考虑对伊朗人口最稠密的82个城市的气候条件进行长期研究。对于每个城市，供暖天数（HDD）和制冷天数（CDD）、降水量、气候带分类以及最冷和最热月份的平均温度都被用作研究的衡量标准。随后，对四个人口最稠密的城市进行了过去60年（1959年至2018年）的气候变化调查。结果表明，在同一时期，所有城市的CDD值都逐渐增加，而HDD值则有所下降。根据线性插值，德黑兰2025年的日均CDD 24°C估计为1.903（每年694.595）。此外，根据多元线性回归分析，到2030年，德黑兰、马什哈德、设拉子、大不里士、伊斯法罕和克尔曼沙的PCD将分别变化0.5%、2.3%、4.7%、1.9%、3.4%和-5.3%。值得一提的是，降水量和湿度与PCD呈反比关系。此外，基底温度对CDD和HDD的影响表明，基底温度只有一度的变化就可能导致CDD和硬盘的显著变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advances in Building Energy Research CONSTRUCTION & BUILDING TECHNOLOGY-

CiteScore

4.80

自引率

5.00%

发文量