The study describes the modeling of flood events of an ungauged river by using recorded data from a neighboring watershed. The Fenton and Mount Hope Rivers are two tributaries of the Thames River in Northwest Connecti...The study describes the modeling of flood events of an ungauged river by using recorded data from a neighboring watershed. The Fenton and Mount Hope Rivers are two tributaries of the Thames River in Northwest Connecticut, New England. The Fenton River was an ungauged stream until 2006, the Mount Hope River has stream discharges measurements since 1940. Due to the lack of discharge measurements in the Fenton River during the XX century, there is a huge uncertainty about the characteristics of past flood events. An analysis was conducted to map the most important floods in the Fenton River around the pump wells of the University of Connecticut (UConn) with simulated peak discharges applying the drainage-area ratio methodology using recorded peak discharges from the Mount Hope River in 1955, 2005 and, 2008. Flood maps of the Fenton River were generated applying a one-dimensional (1D) HEC-RAS model for the 1955, 2005, 2008 events and a simulated 2022 flood. The methodology shows that it is possible to simulate flood maps of past events using a neighboring watershed discharges.展开更多
The objective of this study was to assess the biomass production potential from hybrid poplars using marginal lands in the state of Connecticut,USA.A land-use suitability model was developed to identify and classify m...The objective of this study was to assess the biomass production potential from hybrid poplars using marginal lands in the state of Connecticut,USA.A land-use suitability model was developed to identify and classify marginal lands in the state that could be used for growing hybrid poplars as a biofuel woody energy crop.The model was built on a geographic information system(GIS)platform,consisting of an exclusion area section,an ecological suitability section,and an economic/land-use suitability section.The model then was used to estimate the total biomass of the land-cover forests,annual biomass from forest and agricultural residues,and in particular the production potential of biomass from hybrid poplars over marginal lands in the state at county level.The results indicated that about 50%of the land in this state is unavailable for hybrid poplar cultivation and that less than 5%is highly suitable.The amount of usable area is highly variable on the county level.Without large-scale land use change,it appears that biofuel production in this state can only be a supplemental resource to the current energy supply.展开更多
文摘The study describes the modeling of flood events of an ungauged river by using recorded data from a neighboring watershed. The Fenton and Mount Hope Rivers are two tributaries of the Thames River in Northwest Connecticut, New England. The Fenton River was an ungauged stream until 2006, the Mount Hope River has stream discharges measurements since 1940. Due to the lack of discharge measurements in the Fenton River during the XX century, there is a huge uncertainty about the characteristics of past flood events. An analysis was conducted to map the most important floods in the Fenton River around the pump wells of the University of Connecticut (UConn) with simulated peak discharges applying the drainage-area ratio methodology using recorded peak discharges from the Mount Hope River in 1955, 2005 and, 2008. Flood maps of the Fenton River were generated applying a one-dimensional (1D) HEC-RAS model for the 1955, 2005, 2008 events and a simulated 2022 flood. The methodology shows that it is possible to simulate flood maps of past events using a neighboring watershed discharges.
文摘The objective of this study was to assess the biomass production potential from hybrid poplars using marginal lands in the state of Connecticut,USA.A land-use suitability model was developed to identify and classify marginal lands in the state that could be used for growing hybrid poplars as a biofuel woody energy crop.The model was built on a geographic information system(GIS)platform,consisting of an exclusion area section,an ecological suitability section,and an economic/land-use suitability section.The model then was used to estimate the total biomass of the land-cover forests,annual biomass from forest and agricultural residues,and in particular the production potential of biomass from hybrid poplars over marginal lands in the state at county level.The results indicated that about 50%of the land in this state is unavailable for hybrid poplar cultivation and that less than 5%is highly suitable.The amount of usable area is highly variable on the county level.Without large-scale land use change,it appears that biofuel production in this state can only be a supplemental resource to the current energy supply.