Abstract
According to the long-term energy demand forecast in Japan, the energy supply and its final consumption will increase by 30% in fiscal 2010 on the fiscal 1989 level, and the consumption in the public welfare sector will increase by 60%. Against this background, the purpose of this investigation is to examine the feasibility of introducing a regional system to utilize cascade energy from industrial waste heat, from the viewpoint of thermal energy. First, the end-user energy demand level in the public welfare sector is examined, and the necessity of using industrial waste heat energy to meet this demand is described. Then, heat exchanger and energy transportation system to improve the efficiency of using industrial waste heat energy are discussed. In addition, a method of studying waste energy from the industrial sector, a method of determining the energy demand level in the public welfare sector, and a method of integrating them are presented. Furthermore, the feasibility of introducing a cascade energy utilization system in Kanagawa Prefecture is examined. 163 figs., 94 tabs.
Citation Formats
None.
Investigation of feasibility of introducing a waste heat energy cascade utilization system; Hainetsu energy cascade riyo system donyu kanosei chosa.
Japan: N. p.,
1993.
Web.
None.
Investigation of feasibility of introducing a waste heat energy cascade utilization system; Hainetsu energy cascade riyo system donyu kanosei chosa.
Japan.
None.
1993.
"Investigation of feasibility of introducing a waste heat energy cascade utilization system; Hainetsu energy cascade riyo system donyu kanosei chosa."
Japan.
@misc{etde_10128488,
title = {Investigation of feasibility of introducing a waste heat energy cascade utilization system; Hainetsu energy cascade riyo system donyu kanosei chosa}
author = {None}
abstractNote = {According to the long-term energy demand forecast in Japan, the energy supply and its final consumption will increase by 30% in fiscal 2010 on the fiscal 1989 level, and the consumption in the public welfare sector will increase by 60%. Against this background, the purpose of this investigation is to examine the feasibility of introducing a regional system to utilize cascade energy from industrial waste heat, from the viewpoint of thermal energy. First, the end-user energy demand level in the public welfare sector is examined, and the necessity of using industrial waste heat energy to meet this demand is described. Then, heat exchanger and energy transportation system to improve the efficiency of using industrial waste heat energy are discussed. In addition, a method of studying waste energy from the industrial sector, a method of determining the energy demand level in the public welfare sector, and a method of integrating them are presented. Furthermore, the feasibility of introducing a cascade energy utilization system in Kanagawa Prefecture is examined. 163 figs., 94 tabs.}
place = {Japan}
year = {1993}
month = {Mar}
}
title = {Investigation of feasibility of introducing a waste heat energy cascade utilization system; Hainetsu energy cascade riyo system donyu kanosei chosa}
author = {None}
abstractNote = {According to the long-term energy demand forecast in Japan, the energy supply and its final consumption will increase by 30% in fiscal 2010 on the fiscal 1989 level, and the consumption in the public welfare sector will increase by 60%. Against this background, the purpose of this investigation is to examine the feasibility of introducing a regional system to utilize cascade energy from industrial waste heat, from the viewpoint of thermal energy. First, the end-user energy demand level in the public welfare sector is examined, and the necessity of using industrial waste heat energy to meet this demand is described. Then, heat exchanger and energy transportation system to improve the efficiency of using industrial waste heat energy are discussed. In addition, a method of studying waste energy from the industrial sector, a method of determining the energy demand level in the public welfare sector, and a method of integrating them are presented. Furthermore, the feasibility of introducing a cascade energy utilization system in Kanagawa Prefecture is examined. 163 figs., 94 tabs.}
place = {Japan}
year = {1993}
month = {Mar}
}