论文信息 - A PROPOSED HYBRID GEOTHERMAL - NATURAL GAS - BIOMASS ENERGY SYSTEM FOR CORNELL UNIVERSITY. TECHNICAL AND ECONOMIC ASSESSMENT OF RETROFITTING A LOW - TEMPERATURE GEOTHERMAL DISTRICT HEATING SYSTEM AND HEAT CASCADING SOLUTIONS.

A PROPOSED HYBRID GEOTHERMAL - NATURAL GAS - BIOMASS ENERGY SYSTEM FOR CORNELL UNIVERSITY. TECHNICAL AND ECONOMIC ASSESSMENT OF RETROFITTING A LOW - TEMPERATURE GEOTHERMAL DISTRICT HEATING SYSTEM AND HEAT CASCADING SOLUTIONS.

Cornell‟s 2009 Climate Action Plan provides a roadmap for the Cornell University to achieve carbon neutrality by 2050. A geothermal-biomass hybrid renewable energy system has been proposed as a component of Cornell‟s transformational energy plan to economically reduce its fossil fuel consumption and CO2 emissions. This paper provides an in-depth technical and economic analysis of supplementing the existing natural gas-fired combined cycle heat and power (CHP) plant with an Enhanced Geothermal System (EGS) and a torrefied biomass boiler. Cornell University‟s buildings and facilities provide a representative model distributed energy system for mid-sized communities of about 30,000 people. Cornell‟s location in a relatively high grade EGS region for the Northeastern U.S. provides a further opportunity to evaluate the potential of using low enthalpy geothermal resources for district heating and other direct-use applications.

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