81 results were found for WA 0859 3970 0884 Pemborong Interior Rumah Luas Tanah 500 Meter Di Genuk Semarang.

Results:

• 41. 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

• 42. 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

• 43. VI_2020_011_en

  Veðurstofa Íslands 2 Almannavarnadeild Ríkislögreglustjóra 3 Jarðvísindastofnun Háskólans 4 Istituto Nazionale di Geofisica e Vulcanologia (INGV), Bologna 5 Istituto Nazionale di Geofisica e Vulcanologia (INGV), Pisa 6 Jarðvísindadeild Háskóla Íslands 7 Agricultural University of Iceland 8 Consultant Skýrsla nr. Dags. ISSN Opin Lokuð VÍ 2020-011 Desember 2020 1670-8261 Skilmálar: Heiti skýrslu /media/vedurstofan-utgafa-2020/VI_2020_011_en.pdf

• 44. 100 years since Katla erupted

  an operational monitoring system exists to track ash dispersion.The monitoring network around Katla volcano is dense. Seismic stations are marked as black triangles (SIL-stations). Missing from the map are gas-sensors at Sólheimaheiði and Sólheimajökull, a bore-hole strain meter at Eystri-Skógar and other instruments farther away, which are also significant for volcano monitoring, e.g. infrasound /about-imo/news/100-years-since-katla-erupted

• 45. 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

• 46. Mo_Birger_CES_2010

  Simulation results Hydropower Thermal production Energy balance CO2-emissions 4 Summary and concluding remarks Sintef Energy Research Quantitative system analysis 8 of 21 Introduction Electricity system model Simulation results Summary and concluding remarks Hydropower Thermal production Energy balance CO2-emissions Annual average in ow over the year, GWh 0 14 28 42 52 0 500 1;000 1;500 2;000 2;500 /media/ces/Mo_Birger_CES_2010.pdf

• 47. Climate Report

  ) noted that Iceland had a maritime climate that was much milder than its position on the globe might suggest. In data from 1981–2010, Iceland annual average temperatures ranged from 6°C at the south coast to 3°C at the north coast, with a substantially colder highland interior. In comparison with the latitudinal average for the same period, the coastal temperatures in Iceland are 8–10°C warmer /climatology/iceland/climate-report

• 48. Climate Report

  ) noted that Iceland had a maritime climate that was much milder than its position on the globe might suggest. In data from 1981–2010, Iceland annual average temperatures ranged from 6°C at the south coast to 3°C at the north coast, with a substantially colder highland interior. In comparison with the latitudinal average for the same period, the coastal temperatures in Iceland are 8–10°C warmer /climatology/iceland/climate-report/

• 49. Alam_Ashraful_CES_2010

  (ECT) Working paths and machinery transportation + C Rotation period Plant production and transportation Site preparation a r b o n Planting E n e r d i o Thinnings/ harvesting operations h di g y i x i d e Emission parametersEcosystem model S ort stance transportation Long distance n p u t E m i s Emission calculation tool transportation Chipping s i o n CO2 balance 14 Energy wood /media/ces/Alam_Ashraful_CES_2010.pdf

• 50. VanderKeur_etal-2008-Uncertainty_IWRM-WARM

  pm en t. Co ntex t(natura l,techni ca l an d so ci al sy ste m s): tra ns bo un da ry iss ue s w ith man y di ffe ren tspa tia lsc ales . So ci o ec o n o m ic an d cl im at e chang e ar e imp ortan t 1:Ont ologica l2:Sce nari o O fte n domina nt D ominant :Compl ex Int egrate d Sy ste m A na ly sis (C ISA ): in te gr at ed m o de lli ng an d as se ss m en tf or ex am in at io n o f co m pl ex re /media/loftslag/VanderKeur_etal-2008-Uncertainty_IWRM-WARM.pdf