29 results were found for WA 0859 3970 0884 Pemborong Pemasangan Interior Sekat Ruang Gypsum Giriwoyo Wonogiri.

Results:

• 21. VI_2021_008

  /media/vedurstofan-utgafa-2021/VI_2021_008.pdf

• 22. Journal_of_Hydrology_Veijalainen_etal

  The hydrological simulations were performed with the Wa- tershed Simulation and Forecasting System (WSFS) developed and operated in the Finnish Environment Institute (Vehviläinen et al., 2005). The WSFS is used in Finland for operational hydrolog- ical forecasting and flood warnings (www.environment.fi/water- forecast/), regulation planning and research purposes (Vehviläinen and Huttunen, 1997 /media/ces/Journal_of_Hydrology_Veijalainen_etal.pdf

• 23. Hare-2011-ParticipatoryModelling

  ea th , th e m et ho d u se d at th is st ag e fo r th es e st ak eh o ld er typ es is sp ec i
  ed .Sh oul d ther e be tw o o r mor e model sbein g develope d in th e process ,the n th e typ e o fmode lt o whic h th e metho d wa s applie d is show n in parentheses .O T re fe rs to th e co m po si tio n o ft he o rg an iz in g te am . Fo r o rg an iz in g te am in vo lve m en t in di ffe re n t pa rt /media/loftslag/Hare-2011-ParticipatoryModelling.pdf

• 24. 2010_016

  -based and 10 based on IPCC GCM simulations. The choice of the GCM models was based on their SAT performance for the present-day climate near Iceland as mentioned above. 2. For GCM-based scenarios, temperature change in the highland interior of Iceland, where the large ice caps are located, were increased by 25% based on the results of RCM downscaling (Nawri & Björnsson, 2010). 3. Expected /media/ces/2010_016.pdf

• 25. VI_2015_007

  the report. 2 Study area and data 2.1 River basins The region under study is located in the East fjords and the surrounding area (Fig. 1). This region is characterised by a complex topography along the coast, Vatnajökull ice cap in the southwest and highlands in the interior. This leads to large precipitation and temperature gradients in the region (Crochet et al., 2007; Crochet & Jóhannesson, 2011). Eight /media/vedurstofan/utgafa/skyrslur/2015/VI_2015_007.pdf

• 26. Adalgeirsdottir-etal-tc-5-961-2011

  by 25 % in the interior of Ice- land, where the large ice caps are located (Nawri and Björns- son, 2010). Before year 2010, the glacier model is forced with daily mean records constructed from the monthly mean observed temperature and precipitation as previously explained. Pos- sible natural variations in the climate are important for near- future projections as the magnitude of the expected /media/ces/Adalgeirsdottir-etal-tc-5-961-2011.pdf

• 27. GA_2009_91A_4_Andreassen

  Kjøllmoenet al. 2007).Storbreen is located just east of the main waterdivide between east and west in southern Norwayand receives precipitation from both directions(Liestøl 1967). The glacier is part of an east–west mass balance transect in southern Norway where mass turnover is largest near the western coast anddecreases towards the drier interior (Andreassen etal. 2005). Storbreen is in this respect /media/ces/GA_2009_91A_4_Andreassen.pdf

• 28. vonKorff_etal-2010

  the analysis will allow us to present the outline for a new, potentially more robust and comprehensive design process. The outline as presented here consists of principles, phases and their interior steps, and tools for participation processes. We will now turn to the various elements of the potential new guide. We will start by presenting the principles of design, followed by the steps and tools /media/loftslag/vonKorff_etal-2010.pdf

• 29. VI_2020_005

  glacier, and a general land rise along the southern coast and in the countries interior (figure 1). This rise results from recent melt of the Icelandic glaciers, which have been melting since the late 19th century. An acceleration in land uplift is even evident in the Southeast. STL analysis of vertical GPS measurements in 1997- 2015 from Höfn in Hornafjörður show over 8 mm/yr uplift in the first /media/vedurstofan-utgafa-2020/VI_2020_005.pdf