Find a certified Builder, Find a certified Rater, Learn about PHIUS+ / US DoE Challenge Home certification, See completed Passive house Projects, Learn why hygrothermal analysis is important and why Passive House construction is one of the fastest growing segments in the construction industry. It is a pleasure being involved with such an innovative and energy efficient organization. I encourage you to visit their website by clicking the logo to the left and learning more about this exciting and fast growing technology.
A national forum for professionals, find local chapters, conduit for building industry factions to synchronize with Passive House community, network amongst professionals, a unified voice to policy makers and code officials, training programs, dialogue with policy makers, stimulate desire for reduced consumption while improving indoor comfort and health, incentive for development of higher performing products that meet the Passive House standard, promotion of a more sustainable building approach that addresses current largest portion of US energy production contributing 47% of harmful greenhouse gas emissions.
A national organization supporting architects and related building design professionals. This is a great resource for finding licensed architects for a variety of different projects. It represents architects registered or licensed in any state, territory or possession of the United States or foreign country. ALA now has members across the United States and in foreign countries.
The ICC was formed by the combination of BOCA (Building Officials and Code Administrators), SBCCI (Southern Building Code Congress International) and ICBO (International Conference of Building Officials) in the late 1990’s. Since 2000, they combined as promulgators of the coordinated International family of codes International Building, Residential, Energy Conservation, Existing Building, Mechanical, Fuel Gas, Plumbing, Fire, Performance, Green Construction, Property Maintenance, Swimming pool and Spa Codes which are maintained and updated every three years based upon consensus input. ICC codes are the most widely used in the US. ICC provides education and certification, technical support and code opinions for members. ICCES (Evaluation Services) for products wishing to be certified as meeting code requirements based upon independently established testing methods and criteria.
The National Council of Architectural Registration Boards establishes and supports the architectural profession through general education on how to become a licensed Architect, how to develop experience as an Intern Architect, creation and maintenance of the Architectural Registration Exam, how to obtain State licensure, and how to gain reciprocity in other States. Certification maintenance insures continued education and experience record keeping for license maintenance and to allow for simplified path to reciprocity in other States.
U.S. Department of Energy Building energy Codes Program
This portion of the DoE indicates status of energy conservation code by state and provides free software andother resources for compliance with minimum requirements of adopted energy conservation codes.
The U.S. EIA provides independent statistics and analysis of energy sources and consumption. They also provide useful information about energy and calculations and conversions of the many energy sources. A world energy consumption outlook through the year 2040 is explained in http://www.eia.gov/forecasts/ieo/index.cfm .
EPA U.S. Environmental Protection Agency The U.S. EPA advocates, provides information and establishes regulations pertaining to many aspects of protecting the environment within the U.S. including climate change, air quality, health and safety, waste management and ecosystems. They also make provisions for the enforcement of the established regulations.
Architecture 2030, a non-profit, non-partisan and independent organization, was established in response to the climate change crisis by architect Edward Mazria in 2002. 2030’s mission is to rapidly transform the U.S. and global Building Sector from the major contributor of greenhouse gas emissions to a central part of the solution to the climate change, energy consumption, and economic crises. Our goal is straightforward: to achieve a dramatic reduction in the climate-change-causing greenhouse gas (GHG) emissions of the Building Sector by changing the way buildings and developments are planned, designed and constructed. Problem – the Building Sector, Solution – the Building Sector.
There are many organizations worldwide that have developed statistics, information and images regarding energy use per capita. According to this site, residents of the US account for only approximately 5% of the world population, but consume over 22% of the energy – up to over 6 times per person of any other country on Earth.
Use world atlas to find your latitude and longitude. This information can be used to determine your locations mean annual temperature, mean annual precipitation and other specific climate data where you live and work. The information is vital to building energy modeling to determine your new or retrofitted building’s energy consumption before construction begins.
World Weather and Climate Information Find annual graphs of average hours of sunshine, minimum and maximum temperatures, precipitation amount, number of precipitation days, humidity, and wind speed for many large cities throughout the world. Comparing graphs of cities on opposite sides of the globe will help explain the similarities or differences that have and should influence building design and construction techniques.
Sun Angle calculator This tool calculates the angle of the sun by latitude, longitude, elevation, month and time of day. Knowing this information is vital to the proper design of passive stationary shading devices to allow ‘free’ solar radiation gain when desirable and prevent solar radiation when not desirable. Knowing the time of year to switch from gain to shade and from shade to gain is key to lowering both heating and cooling energy demand.
BizEE Degree Days This site is tool to determine heating and cooling degree days based upon a base temperature (Passive House – 68degF for heating and 77degF for cooling) using recorded historical data from thousands and thousands of public and private weather station devices throughout the world.
U.S Solar Radiation Resource Maps This portion of the National Renewable Energy creates average, minimum and maximum solar radiation quantity maps by month or annual average based upon the type and orientation of PV (photovoltaic) or concentrating thermal collector of the U.S. based upon 30 year historical data. These maps can be used, to predict the amount of electricity that will be generated by a given type of solar collector and orientation.
Source Energy and Emission Factors for Energy Use in Buildings
This document studied and documented Source (Primary) energy factors for electricity generation throughout the U.S. It also summarizes the emissions from those electrical generation grids. Passive House criteria includes a maximum Primary (aka Source) Energy demand per square foot per year. The factor used in PHPP is 2.6 as that is the average throughout Europe. Factors actually vary depending on the grid generation plant fuel sources, conversion efficiency and length of transmission and distribution from the generation plants to where it enters buildings. In the U.S. the conversion factor for electricity is between 2.854 (Western US interconnection – where there is the largest percentage of hydroelectric and solar thermal generation of any interconnection in the US) and 4.022 (Hawaii – where over 77% of electricity is generated burning petroleum) depending on the grid/interconnection. The national average in 2004 of 3.315 means it took, on average in the U.S., 3.315 times the amount of energy consumed at a building site to harvest fuel, transport it to the energy generation station, convert it to electricity (most often by combustion of a carbon fuel), transmit and distribute it to the building site. The 2015 International Energy Conservation Code promulgated by the International Code Council indicates using a factor of 3.16 for all forms of purchased/distributed electricity. All purchased/distributed fossil fuels burned on site have a conversion factor of only 1.1 as there is no loss/waste heat in converting the fuel into electricity – before distributing/transmitting it to site or building in a useful form. The most efficient use of energy sources are when source energy is harvested on or close to the building site and converted directly to a useful form of energy without waste heat (i.e. bio fuels burned for space conditioning heat, renewable source energy electrical generation or heat pumps that cool and simultaneously use waste heat for space or water heating.
NERC is the North American Electrical reliability Council.