New Jersey Governor Phil Murphy signed an executive order on February 15, 2023,
committing the state to 100% clean energy by 2035. This commitment will position New Jersey as
one of the first states in the country to fully transition to renewable energy sources. The Governor
also presented six fundamental elements that will establish the basis for a more sustainable, eco-
friendly, and stronger New Jersey, such as installing zero-carbon-emission heating and cooling
systems in 400,000 homes and 20,000 commercial properties.
According to the World Economic Forum, buildings account for nearly 40% of the world’s
energy consumption and about one-third of the total greenhouse gas emissions. Much of that is
due to inefficient heating and cooling systems. One study says nearly 10% of US emissions come
from fossil fuel consumption from water heaters, furnaces, and other heating sources. As a
compelling solution, the decarbonization heat pumps move heat between the air inside and outside
a home to recover and repurpose heat, delivering up to three times more heat energy to a home
than the electrical energy it consumes.
The state’s environmental community strongly supports the switch to renewable energy. Doug
O’Malley, director of Environment New Jersey, called the order “a necessary step toward reducing
emissions from our buildings, the second-highest polluting sector in the state while delivering
clean air and healthier homes.” Financial incentives have been provided at the federal and state
levels to promote the transition. For example, households can receive a federal tax credit to cover
up to 10% of the cost of insulation materials and other energy-efficient improvements, like
energy-saving windows and doors, in 2022. They can also receive a $300 tax credit for purchasing
efficient heating and cooling equipment, like a heat pump or central air conditioner. Low-income
households in NJ would qualify for additional financial assistance to purchase and install them.
In contrast, the opponents argue that New Jersey does not have the infrastructure to support
such rapid and radical changes and are concerned with the installation cost – “Governor Murphy
doesn’t care how many tens of thousands of dollars it will cost New Jersey families to convert
their gas stoves, water heaters, and furnaces to fully electric appliances.” In addition to high
installation costs, greater space and insulation requirements may further hinder the transition.
Imagine that you are advising that decision-making body on their response to the heat pump
(or other zero-carbon-emission heating and cooling solutions) adoption. Choose between
organization (e.g., country, state or county governor, local business owner, homeowner
association, etc.), company (HVAC manufacturer, hardware supplier, house builder, etc.), or
household. Apply the techniques you have learned in this class to develop a recommendation and
justify any assumptions you make. Your analysis and the report detailing the full context and
analysis should include the following steps:
Choose a decision-making body and research how heat pump adoption impacts them and their
constituents/stakeholders. Briefly describe the decision-making body and its current situation,
citing all sources and avoiding plagiarism (150-300 words). [10pts]
1. Identify the fundamental/ends and means objectives for that decision-making body.
Construct objectives diagrams—either (a) a fundamental objectives hierarchy plus a means
objectives network or (b) a hybrid diagram—to illustrate the relationships among the
objectives. [15pts] 2. Identify alternatives. Be creative, and use existing proposals (citing your sources). Develop
a consequence table with four mutually exclusive, non-dominated alternatives and four
attributes (attributes should be consistent with objectives in Parts 1 & 2). At least three
attributes should be represented as continuous variables on an interval or ratio scale (i.e.,
not nominal or ordinal attributes). [15pts] 3. Identify uncertainty in at least two attributes and present justified uncertainty distributions
of those attributes for all alternatives. You may use objective data or (more likely) generate
your own subjective probability distributions (using techniques from Week 5) based on
your interpretation of the situation. Explain your process and cite/justify any assumptions.
[10pts] 4. Develop a multi-attribute utility model to evaluate your alternatives, using the appropriate
methods we learned in class. You may assume an additive utility function, but you should
use methods from Week 6 to find the univariate utility functions (CE, PE, or TO) and the
weights (swing or lottery weights). [25pts] 5. Evaluate the utility model for each alternative from your consequence table, accounting for
uncertainty (e.g., using a Monte Carlo simulation). Provide information about the utility
distribution for each alternative (e.g., means, histograms). [10pts] 6. Perform sensitivity analyses over at least two factors to assess the robustness of the results
and briefly explain the meaning of each of those analyses for decision-making. [10pts] 7. Make a clear recommendation based on the results and describe any limitations/caveats
that the decision-making body should be aware of.