One important planning approach for sustainable living is how to locate and integrate the natural and man-made attributes of the land to configure a low-carbon site for large scale development. Steven Kellenberg's, Urban Land Green article, "Ten Keys to a Low-Carbon Community", http://www.uli.org/ResearchAndPublications/Magazines/UrbanLandGreen.aspx offers an excellent primer on the symbiotic relationship between a variety of planning and design principles that provide measurable solutions for sustainable growth.
Land planners continue to deepened the analytical process of qualifying low-carbon sites through an integrated strategy for sustainable site development called Potential Energy & Renewable Resource Mapping, or PERRM.
PERRM assists property owners identify and document the inherent surface and subsurface resources available on their land to create synergy and an energy efficient infrastructure between the natural and man-made environment to provide an affordable strategy for low carbon development. The goal is to save energy costs for the property owner, the inhabitants and the planet by lowering greenhouse gas emissions and promoting a carbon neutral environment. The objectives are to leverage financial incentives, create steady, ancillary revenue sources and foster entrepreneurial cooperation based on a framework of low carbon development and energy efficiency.
In the past developers often ignored potential energy & renewable resources or left them independent. The data collected by civil and geotechnical engineers was primarily used to identify build /no build areas or close gaps in the traditional infrastructure owned by public utilities. Today, property owners have found PERRM to be valuable for establishing energy usage and efficiency criteria required to for new community development, renewable energy tax credits, revenue negotiations, formation of municipal utility districts, lease strategies, partnering with emerging technology companies, energy legislation and jurisdictional approvals and new federal and state incentive programs,. Also, PERRM is useful to communicate the ‘uniqueness of the land' as a branding opportunity, since the process and results are inherently interesting to the public.
PERRM identifies and explores the potential for integrated strategies between crude oil, natural gas, landfill, wastewater treatment, hydro, solar, wind, geothermal, water wells, rain harvesting, conventional power grids CH&P, desalinization, biomass agriculture, bioremediation and potential for loop optimization to fulfill a variety of outcomes. For instance, a slope analysis study, often used only to identify buildable areas are being reexamined using PERRM as locations for thermal radiation collection based on solar and surface geothermal (GHPs) potential.
PERRM may not make sense everywhere. Scale is important and large properties benefit. Some of the overlapping tasks that need to be performed in a PERRM study include:
PERRM studies ultimately leads to a myriad of new questions and scenarios that need to be solved on a case by case basis. The methodology also involves engaging new disciplines and energy experts to cooperate on this breakthrough process. PERRM creates a new value proposition from how land planning and development has been approached before in order to create a low carbon environment to help us all.
Comments
PERRM?? - Sustainable Hydrogen/Ammonia Microgrid City?
This work sounds like an analytical tool similar my own thinking about the local micropolitan city of Macomb, IL. I've posted here at Planetizen under "Model Sustainable/Hydrogen City" over in the forums. My thinking can also be found at my "Model Sustainable Cities" website at www.modelsustainablecities.weebly.com
Could I get some advice on how this tool or similar tools might help to systematically evaluate my own thinking? After all, there are the rumblings of interest at the local level. But more help with developing a case for local sustainability as tied to larger portions of renewable energy infrastructure and sustainable infrastructure would be appreciated. Thanks for your thoughts, folks.
dissertation
hello sir i found your topic very interesting. i am rahul studying planning, i need to do project this time. please suggest me topic topic related to energy
Response to Rahul - Re: Dissertation
Hello, Rahul.
I just found your post here. I am glad that you found this topic to be interesting.
As for my preliminary, layman's research, I believe that there can be integration among renewable electricity, the energy carriers of hydrogen/ammonia/"hydricity" (hydrogen/electricity), and smart microgrids. The ammonia has some advantages over hydrogen in some places, especially as a renewable fertilizer for agricultural purposes.
My thoughts are somewhat scattered around online. A search for "Model Sustainable/Hydrogen City", "Model Sustainable Cities", "sustainable city Macomb, IL" and similar keywords will yield most of my posts. Also, with regard to ammonia - see the "International Renewable Hydrogen Transmission Demonstration Facility (IRHTDF)", the "Ammonia Fuel Network", and the "Stranded Wind Initiative." These are just a few starting points. There is also some preliminary thinking about integrating these electricity/chemical energy carrier systems with railway electrification (including freight, smaller interurban, and other passenger rail).
I hope not to send you on too much of a wild goose chase, but if I can be of any additional assistance, contact me through my website's contact link at modelsustainablecities.weebly.com
MachWing