Biblioscape User Community

The citation below is from a http://www.etde.org webpage. I initially got no response from Biblioscape when I tried to import it, although the usual activity happened on-screen, indicating Biblioscape was activated. So then I saved the citation to disk and added the spaces below between (for example) the %A and its data and tried to import that by double-clicking the filename. That completely locked up Biblioscape (which was already loaded) and my file management program, until I was able to kill Biblioscape with task manager. I was finally able to get the citation to load by deleting some of the line items that I didn't need and which seemed unusual, and also the parenthetical info after the authors' names.

Whatever was going wrong there should be handled gracefully with error handling. I hope this example is useful.

Also, I found other citations that omitted the space between the tag and the data. It would be nice if Biblioscape could take that error in stride.

%A Gether, Kaare
%A Gether, Joergen(Gether AS (Norway))
%A Gether, Harald(Green Innovation, NTNU (Norway))
%A Skarphagen, Helge(NIVA (Norway))
%0 Conference Proceedings
%D 2009
%I European Council for an Energy-Efficient Economy, Stockholm (Sweden); European Council for an Energy-Efficient Economy, Stockholm (Sweden)
%K 32 ENERGY CONSERVATION, CONSUMPTION, AND UTILIZATION; ENERGY EFFICIENCY; COEFFICIENT OF PERFORMANCE; OFF-PEAK POWER; HEAT STORAGE; HOUSES; COMMERCIAL BUILDINGS; ECONOMICS; SPACE HVAC SYSTEMS; ENERGY, ECONOMIC, SAVINGS, THERMAL, STORAGE, SYSTEM, BUILDINGS, COOLING, HEATING, DYNAMIC, OPTIMAL OPERATING CONDITIONS
%M OSTI ID: 967879
%P 1541-1546 pages
%T Principles of saving energy with dynamic thermal storage
%X This paper describes the interaction between thermal storage and various sources of variation in heat supply and demand, to promise overall thermodynamic work within a temperature span of 20 deg C or less. This allows coefficients of performance (COP) of 6.0, twice that of conventional heat pumps and in many cases free cooling without heat pumps. Variation in ambient air temperature, solar radiation or patterns of energy usage, optimised in conjunction with heat pumps and dynamic thermal energy storage (DTES), promise to save large amounts of energy used for the heating and cooling of buildings. For example, cooling at night at 24 deg C, rather than in warm afternoons at 34 deg C will remove 45% of the thermodynamic load. Economic savings are further improved where off-peak tariffs for electric power exist. Variation from various sources, combined with thermal storage, promises to become an attractive source of renewable energy and economic savings. Furthermore, a dynamic thermal energy storage (DTES) may be combined with borehole thermal energy storage (BTES) to allow summer heat to be used for heating in wintertime, whilst cooling during summer. A DTES is constructed in practice as a below-ground 'well' adjacent to a (new or existing) building. The area on top is available for other use. Typical size for a single-family home is a volume of 5-7 m3 and a cross-section of 2-3 m2. The technology promises to be cost effective in mass application, in particular for commercial buildings.
%C Sweden
%Z Other: Rel-TRN: SE0907500; ISBN 978-91-633-4454-1; ISBN 978-91-633-4454-1; TRN: SE0907658
%Z Announcement Date: 11/19/2009
%2 Availability: Available from: eceee secretariat, Sveavaegen 98, SE-113 50 Stockholm, Sweden; e-mail: eceee@eceee.org Prices: Book (including USB-stick): Euro 150,00; USB-stick only: Euro 70,00
%3 Source: SWD; RN09132376
%1 Language: English