Building energy management system with energy analytics

What is claimed is: 1. A building energy management system comprising: building equipment operable to monitor and control one or more variables in the building energy management system and to provide data samples of the one or more variables; a data collector configured to collect the data samples from the building equipment and generate a data timeseries comprising a plurality of the data samples, wherein the data timeseries is a resource consumption timeseries and the data samples of the data timeseries comprise at least one of electric consumption values, water consumption values, or natural gas consumption values; an analytics service configured to perform one or more analytics using the data timeseries and generate a results timeseries comprising a plurality of result samples indicating results of the one or more analytics, wherein the analytics service comprises an energy benchmarking module configured to use the data timeseries to calculate an energy usage metric for a building associated with the data timeseries, the energy usage metric comprising at least one of energy usage intensity (EUI) or energy density; a timeseries database configured to store the data timeseries and the results timeseries; and an energy management application configured to retrieve the data timeseries and the results timeseries from the timeseries database in response to a request for timeseries data associated with the one or more variables. 2. The building energy management system of claim 1 , wherein the analytics service comprises a weather normalization module configured to generate the results timeseries by removing an effect of weather from the data timeseries. 3. The building energy management system of claim 2 , wherein the weather normalization module is configured to remove the effect of weather from the data timeseries by: generating a regression model that defines a relationship between the data samples of the data timeseries and one or more weather-related variables; determining values of the one or more weather-related variables during a time period associated with the data timeseries; applying the values of the one or more weather-related variables as inputs to the regression model to estimate weather-normalized values of the data samples; and storing the weather-normalized values of the data samples as the results timeseries. 4. The building energy management system of claim 3 , wherein: the one or more weather-related variables comprise at least one of a cooling degree day (CDD) variable and a heating degree day (HDD) variable; the regression model is an energy consumption model that defines energy consumption as a function of at least one of the CDD variable and the HDD variable. 5. The building energy management system of claim 3 , wherein the weather normalization module is configured to generate the regression model by: using weather data for a baseline period to calculate a value for at least one of a cooling degree day (CDD) variable and a heating degree day (HDD) variable for each day of a plurality of days in the baseline period; determining at least one of a plurality of first average daily values for the CCD variable, one first average daily value of the plurality of first average daily values for each time interval of a plurality of time intervals in the baseline period and a plurality of second average daily values of the HDD variable, one second average daily value of the plurality of second average daily values for each time interval in the baseline period; using energy consumption data for the baseline period to determine a plurality of average daily energy consumption values, one average daily energy consumption value of the plurality of average daily energy consumption values for each time interval in the baseline period; and generating regression coefficients for the regression model by fitting the plurality of average daily energy consumption values to at least one of the plurality of first average daily values of the CDD variable and the plurality of second average daily values of the HDD variable. 6. The building energy management system of claim 1 , wherein the energy benchmarking module is configured to calculate the EUI for the building by: identifying a total area of the building associated with the data timeseries; determining a total resource consumption of the building over a time period associated with the data timeseries based on the data samples of the data timeseries; and using the total area of the building and the total resource consumption of the building to calculate a resource consumption per unit area of the building. 7. The building energy management system of claim 1 , wherein the energy benchmarking module is configured to: identify a type of the building associated with the data timeseries; and generate a plot comprising a graphical representation of the energy usage metric for the building and one or more benchmark energy usage metrics for other buildings of the type. 8. The building energy management system of claim 1 , wherein the analytics service comprises a night/day comparison module configured to: use the data samples of the data timeseries to calculate a plurality of night-to-day load ratios, one night-to-day load ratio for each day of a plurality of days associated with the data timeseries; compare each of the plurality of night-to-day load ratios to a threshold load ratio; generate a result sample for each day of the plurality of days associated with the data timeseries, each result sample indicating whether a particular night-to-day load ratio for a corresponding day exceeds the threshold load ratio; and store the plurality of the result samples as the results timeseries. 9. The building energy management system of claim 1 , wherein the analytics service comprises a weekend/weekday comparison module configured to: use the data samples of the data timeseries to calculate a plurality of weekend-to-weekday load ratios, one weekend-to-weekday load ratio of the plurality of weekend-to-weekday load ratios for each week of a plurality of weeks associated with the data timeseries; compare each of the plurality of weekend-to-weekday load ratios to a threshold load ratio; generate a result sample for each week associated with the data timeseries, each result sample indicating whether a particular weekend-to-weekday load ratio for a corresponding week exceeds the threshold load ratio; and store the plurality of the result samples as the results timeseries. 10. A method for performing energy analytics in a building energy management system, the method comprising: operating building equipment to monitor and control one or more variables in the building energy management system; collecting data samples of the one or more variables from the building equipment; generating a data timeseries comprising a plurality of the data samples, wherein the data timeseries is a resource consumption timeseries and the data samples of the data timeseries comprise at least one of electric consumption values, water consumption values, or natural gas consumption values; generating a results timeseries by performing one or more analytics using the data timeseries, the results timeseries comprising a plurality of result samples indicating results of the one or more analytics; storing the data timeseries and the results timeseries in a timeseries database; retrieving the data timeseries and the results timeseries from the timeseries database in response to a request for timeseries data associated with the one or more variables; and using the data timeseries to calculate an energy usage metric for a building associated with the data timeseries, the energy us