More Information is available at the eWater website
With a straight-forward user interface and a focus on visualising data inputs and outputs, Water Quality Analyser helps to identify water quality trends and simplifies the path to a summary assessment.
Many organisations invest a great deal of time and effort in collecting water quality data. The collected data may be stored in many different ways, ranging from Excel spreadsheets through to complex relational databases. However, it is often difficult to access the required information without the assistance of a database expert.
Water Quality Analyser has been developed to provide a simple interface to any text-formatted database, making it easy to access and scrutinise the required water quality data. It also enhances the ability to effectively share data within and between organisations.
Water Quality Analyser brings together a collection of analytical and statistical tools, databases, a knowledge base, electronic documents (such as water quality guidelines) and a decision support system. It builds on default guideline values from ANZECC and ARMCANZ as well as some state-specific values (for example, Queensland Water Quality Guidelines 2006).
Guideline Tool: The Guideline Tool is statistical software developed to calculate locally relevant water quality guideline values, store guideline values in a searchable database for later and recall and test new datasets against guideline values to provide a statistically sound indication of the health of a site. The procedures used in this tool are based on the ANZECC 2000 methods. Both referential and biological approaches are available for setting up guidelines depending on the type of available data. The tool can also assist in the development of water quality targets by providing a method to calculate proportional improvements in a measured variable.
Loads Tool: The determination of constituent loads or loading rates from rivers and streams is not a trivial task. Due to the relatively sparse nature of concentration data and different sampling methods, special load estimation techniques should be applied to reduce estimation errors. The current version of the Loads tool presents nine of the most common methods for long-term load calculation and four methods for estimating loads from storm events. A built-in function is available to calculate event mean concentration (EMC) values which are useful in catchments modeling exercises.
Trend analysis tool: A tool for detection of water quality trends, statistical testing, change and randomness in water quality data and other time series data. Discovery of temporal water quality trends is a complex process due to characteristics of the non-normal distribution of data, seasonality, flow relatedness, missing values, values below the limit of detection, serial correlation etc. Further, preparing time series data sets and the checks for suitability of available data for trend detection add additional restrictions for trend analysis. Using this tool, users are able to perform explanatory data analysis before stepping into complex modeling processes. The current version presents 13 different statistical tests.
Time series data manager: A tool for manipulating, infilling, cleaning and transforming time series data. This tool comes with advanced data visualization capabilities to summarise and present a large amount of spatial and temporal data. It can also apply any rating curve to a time series to create new time series.
eGuide: This is an electronic document which consists of a number of commonly referred to water quality guideline documents. Users can select the document that they would like to browse manually or select the 'search' tab to search all the guides for some keywords. The searched items can be viewed, copied to another document or printed out for later reference.