Guðmundur R. Jónsson, Ólafur P. Pálsson, Valdimar K. Jónsson Verkfræðideild Háskóla íslands Kvikur jafngildisútihiti fyrir hitaveitur Dr. Guömundur Jónsson, prófessor viö véla- og iönaöarverkfræöiskor, útskrifaöist sem — vélaverkfræöingur frá HÍ 1981. Hann lauk civ. H ing. prófi frá DTH í Danmörku 1983. Tekn. Pnf lic. próf í stæröfræði- legri tölfræöi frá Háskól- anum í Lundi 1990 og Tekn. Dr. próf frá sama skóla 1996. Dr. Ólafur Pétur Pálsson, fræðimaöur við verk- fræöideild, útskrifaöist sem vélaverkfræðingur frá HÍ 1987. Hann lauk civ. ing. prófi frá DTH í Danmörku 1989 og PhD. prófi I verkfræöi frá sama skóla 1994. Dr. Valdimar K. Jónsson, prófessor viö véla- og iönaöarverkfræöiskor, lauk fyrrihlutaprófi í verkfræöi frá HÍ 1957 og civ. ing. prófi í vélaverkfræði frá DTH í Danmörku 1960. Hann lauk PhD. prófi frá Há- skólanum í Minnesóta og var prófessor viö Pennsylvania State Uni- versity, Bandaríkjunum, 1969-1972. Abstract The aim of the present paper is to obtain a temperature sequence that is more represen- tative as a load variable to a district heating system compared to only the outdoor tem- perature. Thus, the obtained sequence will not only take into account all relevant cli- mate factors, but also the dynamics of the system. The resulting sequence may be used, e.g. to estimate extreme weather con- ditions when designing a district heating system. Basically, the method consists of the following steps. First, a dynamical model which describes the mass flow as a function of all relevant climate variables is obtained. Then the so-called steady state equivalent outdoor temperature is calculated. it is a lin- ear combination of the relevant weather variables. A model for the mass flow is then found where this new sequence is the only climate input. The dynamic equivalent out- door temperature is then obtained by fílter- ing the steady state equivalent outdoor tem- perature by the model or filter polymomials, thereby including the dynamics of the sys- tem in the load sequence. The flow data comes from the Reykjavik Municipal District Heating Company, Iceland. It shows the daily hot water flow in m3/h from the

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