Introduction
This article is part of an Asia Clean Energy Development
(ACEF) 2018 discussion forum hosted by the Asia
Development Bank (ADB). Its primary
focus is the identification of commonly used terminology in international and
national public policy debate for the promotion of positive Climate solutions.
As such, I will not discuss the overused and imprecise term Climate Change. I
prefer to use the term ‘man made pollution’. I make no apologies for my use of
non-gender inclusive language where it occurs throughout this article. Instead
I acknowledge that all humans are ultimately responsible for the environmental
and social mess they continue to create for themselves and each other. I prefer not to use terms such as ‘sustainability
or resilience’ because these terms have political connotations as well as
contextually specific value and inferred meaning in business and finance
circles. A community in Brazil might argue that school lunches are a sign of sustainable and resilient government. This sustainability indicator is often used as a measure of government corruption and political inclusiveness in Brazil. The
same term can mean something different on Pacific Islands concerned with sea
water level rises and the loss of community food gardens. We might talk about ‘liveable
cities’ or the importance of sustainable agriculture and aquaculture in remote
and rural communities as a necessary means to achieve Climate Change
resilience. What we need to understand is that these words have context
specific meanings and emotional subtexts for different audiences.
Innovative public policy solutions that are
fully integrated with both private business and community expectations must
achieve responsible and equitable economic and social outcomes. All E-WASH ( Energy, Water, Sanitation, Health and
Education ) infrastructure development imperatives must be viewed in the
context of governance, standards, regulatory compliance and uniform enforcement
measures if they are to maximize community income, water and food security
objectives in a sustainable national debt environment. Smart public policy and
innovative solutions are part and parcel of a multi-disciplinary problem
solving approach. They require carefully articulated strategic policy priorities
at the international, national and local government level. This demands a
consistent policy approach at all levels of government to reduce red tape,
corruption, bureaucratic delays and inefficiencies as well as confusion,
deliberate postponements and nepotism. The implication for this not so radical
rethink is not even a radical question. How relevant is classical and neo liberal
economic theory in a world where community self-sufficiency and self-reliance demands
an equal voice with big government and big business? If we take the meanings of
‘sustainability and resilience’ to their logical conclusions, we must consider
mutually co-operative systems of government that are organized in a holistic
and fully integrated manner. These systems must offer fair and equitable
economic returns to communities. Modern technology allows for each individual to exist
in a symbiotic relationship with all sectors of the economy. Issues of equity,
equal participation and transparency are therefore at the heart of this debate
in all modern democracies. This is true irrespective of a nation’s development
status in the Asia Pacific or beyond. Nothing demonstrates this more
comprehensively then the E-WASH infrastructure needs and the way we measure the
economic cost and benefit repercussions on social and natural capital.
The role of the Universal Development Matrix
All countries in the Asia Pacific, Africa
and beyond face significant future infrastructure development issues. These
issues strike at the core of UN concerns for the building of sustainable and
resilient rural communities and liveable cities. This is true regardless of a
country’s wealth or development status. UN guidelines for poverty reduction, gender
equality, food and water security are often cited as key goals. They are rarely
financed in a manner that reflects a comprehensive multi-disciplinary design approach aimed at maximizing community benefits at the lowest risk to national debt. In
the same context we can cite issues such as access to affordable social housing,
transportation, pollution and waste management. Many of the current responses
are haphazard and short sighted. They remain empty pleas in a world where policy
disharmony and confusion between local, regional and national authorities are
underpinned by self-interest and political and bureaucratic incompetence. The
challenges for Climate smart solutions and their implementation are often insurmountable
in the face of dysfunctional government and inarticulate institutional
responses. Development bankers and major international sponsors are not immune
from this criticism. They are often part of the problem as soft diplomacy
priorities clash with local governance standards in poor compliance and enforcement
regulatory environments. At the heart of this problem we often find powerful
interest groups exploiting internal institutional dysfunction, poor staff
training and knowledge standards and competitive management priorities. In
countries where income distribution, cultural, ethnic, religious and racial
differences form part of the social and economic disruption mix, progress
remains even more frustrating.
Despite increasing competition for scarce natural
resources the key drivers of public policy in the 21st century will
be access to cheap and reliable clean energy, food and water. Community
expectations for education, housing and health services must be balanced with a
demand for healthy environments and effective pollution control measures at the
lowest cost to government and business. It might appear these competing demands
are at odds with one another in a global environment pushing for lower
corporate taxes, multi-lateral trade agreements and the imperatives for global
economic growth. This type of economic nonsense is precisely what is wrong with
the current debate. The ability to shift profits from one side of the world to another or make money in the foreign exchange markets often ignores the ordinary worker. The imperatives that underpin sustainable and resilient
communities have little do with the quantity of appropriate economic growth but
the quality of it and the fair and equitable distribution of its benefits. In a
world where 70 trillion dollars must be spent to address the impact of
pollution on public health by the end of the century, everyone expects that the full costs are leveraged
against those directly responsible for creating this mess in the first place.
This risk does not include the risk of ‘man made’ Climate Change, the impact of
deliberate political disruption, wars and self-imposed conflicts. There is a dollar to made in everything. Trading in death is no different.
Conflicts that are created to serve the egotistical needs of irresponsible leaders in the name of faith, nationalistic sentiment or some confused ideology demands that we seriously question the very sanity of the sick people who govern us. There is much truth in the statement that we should not be talking about the present or the future but the continuous repetition of the past. What have we learnt about us in the last eighty thousand years? We have failed to learn, let alone achieve enlightenment in how to assure the survival of our own specifies. Don’t get me wrong! We all know where we have screwed up. Science even tells us how we should fix the mess we created. Getting to the point of actually doing something about it is where the problem with inherently lazy humanity starts. Perhaps there is some truth in the war and global population game simulations that maintain that our planet achieved its optimum population density when it reached 6 billion inhabitants. What we do know is that we place a great deal of faith in our ability to apply technological solutions and scientific method to redress a fundamental flaw in our own character without any real evidence of positive results. Let’s all go into analysis! Maybe that will help. I know, let’s blame a politician! That will surely make us all feel better about ourselves.
Conflicts that are created to serve the egotistical needs of irresponsible leaders in the name of faith, nationalistic sentiment or some confused ideology demands that we seriously question the very sanity of the sick people who govern us. There is much truth in the statement that we should not be talking about the present or the future but the continuous repetition of the past. What have we learnt about us in the last eighty thousand years? We have failed to learn, let alone achieve enlightenment in how to assure the survival of our own specifies. Don’t get me wrong! We all know where we have screwed up. Science even tells us how we should fix the mess we created. Getting to the point of actually doing something about it is where the problem with inherently lazy humanity starts. Perhaps there is some truth in the war and global population game simulations that maintain that our planet achieved its optimum population density when it reached 6 billion inhabitants. What we do know is that we place a great deal of faith in our ability to apply technological solutions and scientific method to redress a fundamental flaw in our own character without any real evidence of positive results. Let’s all go into analysis! Maybe that will help. I know, let’s blame a politician! That will surely make us all feel better about ourselves.
In all cases the core problems can be
directly traced back to governance, standards, compliance and the enforcement
of applied legislative norms. Even wealthy countries such as Australia face these
problems. What we all agree on is that the solutions are context specific and
cannot be ignored in the face of ‘man made Climate Change’. Government complacency,
negligence and corruption often drown in a morass of entitlement and privilege.
Regulatory compliance and transparency standards may vary from country to
country as civil unrest and citizen disillusionment grows ever more poignant in
the face of governments unwilling to deal with the growing income divide. Standards
and government transparency are at the heart of the problems all countries face
when it comes to future proofing their energy, water, sanitation, health and
education infrastructure. Invariably the problems can be traced to the failure
to apply one basic principle. This basic principle is that standards must
always inform government policy. Instead we witness international
standards ignored, or at best, paid a cursory lip service to. As a
consequence we observe short term political policy made on the run without
consideration for a rational and cost effective and consistent long term
national strategic public policy direction. The situation is so tragic that Australia’sChief Scientist recently declared that Australia is facing an energy crisis not
because of the incompetence of the taxpayer funded and cartel controlled energy bureaucracy, but
because these public servants have struggled for years without clear direction
or the power to do anything. Now we have the same public servants steering a transition towards a renewable energy future for the same energy companies that have manipulated government policy for years. The absurdity is mind boggling!
Without adequate consideration for the
application of proper processes and the development of uniform national standards,
regulatory compliance and enforcement frameworks are impossible to formulate. I
fully agree with the Chief Scientist on that. I am sceptical of the proposition
that a consistent national strategic policy direction that all stakeholders can
agree on must necessarily exclude national competition reform, sector wide
re-regulation and positive pricing control measures. Especially when standards remain undefined and understood by the bureaucratic institution responsible for imposing them. You just don't get good governance through compliance and regulatory measures without defining the standards first. You can't achieve a logical and consistent governance framework without first defining the standards the regulatory and enforcement processes must adhere to. In all cases the blame
falls equally on incompetent or corrupt public servants ensnared in partisan
political processes and subject to internal department priorities influenced by
powerful interest groups. It is easy to blame the electoral cycle or the ham
fisted political cash splash during election years. Even our most endearing
symbols of democracy have lowered public debating standards. This poor excuse for a broken and non-transparent
political system remains a convenient defence for the media and by the media
for a failure to promote an inclusive conversation. Australia’s ongoing national
energy policy hiatus stands as a clear example for this comprehensive failure
in governance at all levels of government.
What Australia shows conclusively is that
dysfunctional government, red tape, government waste and corruption is not
merely a historic constitutional problem but a fundamental lack of
co-ordination between all three levels of government. Whether we are discussing
Australia’s federal system or any other form of government that divides
functions between regional and national authorities in the Asia Pacific is
irrelevant. The same issues of inadequate co-operation between government and
institutional bodies inform public policy debate in one form or other
everywhere we look. What is clear is that the greater integration and co-operation
between national and regional institutions is highly desirable. Streamlining
processes by making national institutions responsible for national standards as
well as uniform regulatory compliance and enforcement measures is imperative when
regional state authorities are accountable for the implementation of national
development priorities. We recognize that strong transparency requirements and
clearly articulated oversight processes at all level of government and all key
institutions remains challenging. Abrogating policy decision making processes to a bunch of public servants and waiting for regional government to lead the discussion on the renewable energy transformation of Australia's energy sector is quite frankly a gutless national government response.
There is however an E-WASH model that is
fully compliant with UN rules and guidelines and uniquely adaptable to all
urban and rural environments. This model addresses core issues of poverty
reduction, community self-sufficiency and resilience whilst promoting better
and more transparent government. The model addresses key energy, water,
sanitation, health and education co-ordination requirements whilst articulating
national infrastructure goals under ‘man made’ Climate Change risk conditions. The
model is uniquely adaptable to context specific solutions and can be applied in
an integrated multi- outcome solutions focused public policy setting that includes
transport, pollution, waste management as well as water and food security at the
lowest cost to host countries. The model is fully compliant with UN and International Monetary Fund risk assessment practices and carbon management standards. It
provides both a return to investors and the community without forcing host
countries into an unsustainable debt spiral. The model is designed to
specifically address governance, standards, compliance and enforcement rules from
the project design phase through the finance stages whilst promoting local
institutional and international partner transparency at all levels. This model
is called the Universal Development Matrix. (See Figure 1)
The Universal Development Matrix is built on the philosophic principle of
inter-connectedness. Everything we do in this world has both a risk management
and a cost consequence associated with it. Minimizing future risk within an
integrated project design plan that incorporates a multi-disciplinary
co-operative management implementation strategy is clearly desirable. Focusing
on ‘Avoided Cost’ and multiple project benefits that enable multiple project
income streams and community benefits on a long term basis is one of the key strengths
the Universal Development Matrix delivers to advanced and developing nations.
Figure 1
The principles of the Universal Development Matrix
It is irrelevant whether we are talking about liveable cities or
aspects of resilience and sustainability. At the core of all modern societies
is the supply of affordable and reliable energy, water, sanitation, health,
education, housing and food. Secondary issues such as efficient transportation,
logistics and communication are inexorably bound to these basic necessities.
Consequential aspects such as waste management, pollution control as well as
maintaining healthy ecosystems for flora and fauna imply that we must learn to
exist in a symbiotic relationship with planet earth. We don’t adhere to these
basic contentions as a species, preferring to ignore and undervalue social and
natural capital in favour of immediate gratification and exploitation
objectives. Counting the human and financial costs of this deliberate neglect
is a relatively recent phenomenon. This issue alone poses a serious concern for
all international development agencies and UN institutions grappling with
regimes that show variant regard for their own people. Advanced nations are no
less to blame. Armed with the mantra for trickledown economics and little
regard for bridging gender income disparity the nonsense economics that justify
the deliberately politically engineered chasm been rich and poor drones
throughout the western media. Addressing the problems with targeted solutions
is an even more recent phenomenon. It is here that government, industry and
financial institutions stall debate or deliberately undermine clever design
solutions. Integrated solutions that address more than one problem at once with
a multi-disciplinary project management approach are particularly challenging
for governments, bureaucrats, investors and financial institutions to
understand. A preference for simple project finance and single purpose
infrastructure development proposals remain preferred practice.
Let me give you an example
The Australian Prime Minister Mr. Turnbull recently announced a
‘game changing’ solution to Australia’s energy crisis. The Snowy Hydro 2.0
project is designed to boost energy storage and shore up the reliability of
Australia’s national grid. The government advertised this scheme as a game
changer for a national grid suffering from a variety of problems. Among these
are an aging fleet of coal power plants, transmission and distribution grid
reliability and sky rocketing electricity prices for consumers. On the surface
the project seems to make sense. Even the relationship between
unsustainable electricity prices, flagging national productivity and consumer
pain seem plausible. That is until you add the cost of taxpayer subsidies to
the amount of money energy cartels are siphoning out of the country tax free.
What precisely is the base electricity price negotiated between state
governments and electricity Utilities in Australia?
The financial risks and undisclosed costs to taxpayers make the
multi-billion dollar Snowy 2.0 a nostalgic anomaly of highly questionable
value. For a start, the assumed eight billion dollar cost is unlikely to be
realized. Conservative estimates put the project at somewhere closer to ten or
twelve billion dollars. The reason for this is that new transmission line
infrastructure and engineering cost overruns have not been quantified. The
Australian competition and regulatory framework provide ample opportunities for
protected electricity cartels to routinely siphon 28 billion from the
Australian economy into overseas tax heavens. More than 3.4 billion of this blight
on national productivity is the cost of hidden fees and daily grid connection
charges to consumers. These daily charges equate to 10 Kwh of daily solar
rooftop production for rooftop solar owners before they can think about turning
on the light switch. With 1 in 5 Australian homes endowed with rooftop solar
and predictions for battery storage adoption doubling every year for the next
10 years, serious questions have to be asked.
1.)
What happened to the millions of
taxpayer dollars supposedly invested in transmission and distribution grid
infrastructure?
2.)
Why did taxpayers fund the
implementation of smart meters when block chain technology makes them
irrelevant at individual connection level?
3.)
Why have consumers no right to
own their own electricity data despite assurances by the Australian ConsumerCommission regulator who claims that a new era of data sharing is not only on
the horizon but inevitable?
4.)
What role do large centralized
power generation and energy storage infrastructure projects play in a
commercial environment that favours small scale distributed and locally managed
community owned renewable energy networks connected to the national
transmission grid clustered into 40 MWH renewable hubs and connected to the
national grid by a single Utility owned
smart meter?
5.)
How do we transition the
electricity companies / Utilities from an inefficient centralized power
generation sector to a highly responsive service industry responsible for the
management of distributed energy resources ( DER) between multiple 40 MVH renewable energy Hubs
/ Zones?
In the case of the Snowy Hydro 2.0 project
announced by the Turnbull government these questions remain unanswered. There
are other financial and taxpayers risks this project poses. If the states of
Victoria and New South Wales develop solar powered regional ‘Blockchain VPN
managed embedded Smartgrid’ towns along their respective state borders, Snowy
2.0 will become an expensive white elephant. This is particularly true if these
regional solar towns contain embedded battery storage and are connected to a
series of proposed distributed waste to energy plants. Even without the
construction of waste to energy plants; direct PPA agreements between solar
towns and large scale wind and solar farms in the region, will mean that Snowy
2.0 is unlikely to turn a profit until 2040 or beyond. The only sensible project rationale is a
political imperative and the not so hidden agenda that tells us, that the real purpose
of Snowy 2.0 as to guarantee the long term electricity supply for the city of
Canberra only. After all, additional income streams from R-FACAS services are
unlikely, given ramp up delays and embedded battery technology roll outs. This
leaves the Snowy 2.0 project with the option of generating income from continuous R-FACAs
idle services that provide gird frequency stability and storage services for
the large solar and wind farms in the region. However with the introduction of 40 MV
regional self-managed renewable energy hubs and embedded battery storage at both
transmission and local wind and solar farm level, this income option is likely to leave Snowy 2.0 stranded in debt.
What you can see from this is that the
project is an entirely ridiculous over kill from a financial perspective. This
is particularly true for a national electricity transmission grid supposedly in
compliance with international grid standards codes. Since the transmission line
infrastructure connecting the Snowy 2.0 project has not been designed, costed
nor built, the issue of national grid standards compliance remains. Building
massive infrastructure projects on a political whim poses the same problem as development
banks funding gas power plants on remote Pacific Islands and roads to nowhere
in Papua New Guinea. It is the same problem as funding hospitals without
doctors and schools without teachers. At the international development
institutional level these problems can be directly traced back to institutional
staff competence, soft diplomacy objectives, and entrenched preferred consultant
interests. Discretionary interactions between donor and host countries through
a preferred consultancy network invariably ends up in a very poor value for
money return for never ending projects that have been purposefully designed to
never fully meet host country expectations.
Let me give you an example
I recently attended a PHD research proposal
by an ADB staff member at the University of Melbourne. The Thailand based ADB
energy professional cited his PHD research topic as the ‘Impact of Demand
Management Policy on Transmission grid reliability’. No one informed this PHD
candidate that data transparency and data sharing between Australian
Transmission Grid owners and government agencies, let alone third parties, was not
even legislated under the Australian National Energy Market and Competition
rules. So the entire PHD was based on assumptions and AEMO ( Australian Energy
Market Operator ) data when AEMO itself complains of insufficient data access
for reliable modelling and grid forecasting. No one informed the PHD candidate
that ‘Demand Management’ policy is a reverse subsidy scheme that rewards
customers for not using energy during periods of high demand. No one informed
this PHD candidate that his specific interest in the Aluminium industry and the
application of ‘Demand Management’ policy to Malaysia and Thailand would
produce a very expensive policy nonsense for these countries. Why is that? The
Aluminium sector in Australia receives a raft of subsidies starting with
generous tax allowances and ending with electricity price and supply
guarantees. As a consequence any ‘Demand Management’ subsidy subsidizes at
least two existing subsidies through discrete and undisclosed usage arrangements between state authorities, the regulator and the Australian electricity
authorities. Translating this policy nonsense into the Asia Pacific would place
considerable strain on government finances for developing nations. At an ADB staff
culture level this example poses both a serious internal credibility as well as
a long term host country debt problem. Why is that? If the purpose of development
finance is to create sustainable and resilient communities, a project that increases
national debt for developing countries must be excluded from bank consideration
and automatically trigger a project risk warning. The very idea that
development bank institutions consider unsustainable subsidy programs as part
of a standard project finance arrangement when better solutions are available
simply defies logic.
Let me cite two simple examples
11.)
Let’s consider a tax credit
policy that lowers corporate tax for industry investment into renewable energy
projects such as direct PPA agreements, onsite self-generation and energy
efficiency measures. Let’s consider a 15% corporate tax for any project that
reduces grid reliance by 20% for a fixed investment and tax minimization period
of 5 years. Let’s consider a Green Bond funding mechanism for this 20% industry
renewable energy project. Naturally the policy can be incorporated into a 100% self-generation
and energy self-reliance policy framework over a 25 year project maturation lifespan.
22.)
Let’s consider legislation for
a national white good appliance energy efficiency plan. This plan would phase
out 240 volt domestic appliances over a 20 / 25 year period. In the Asia
Pacific the energy requirements for domestic refrigeration, cooling and washing
machines will place considerable strain on existing and future electricity
infrastructure. A simple phase out program that mandates 12 volt appliances can
save billions in infrastructure expenditure and avoid a ‘Demand Management’
scheme completely. A uniform policy between Asia Pacific trading partners can
put extensive pressure on white goods manufacturers to design better products
under a mandated minimum 12 volt energy efficiency compliance ratings scheme.
In both cases the two policy examples have
multiple cost, efficiency, grid resilience and health impacts. In the case of
the Australian Snowy 2.0 project the effort remains to find multiple income streams
in order to demonstrate project viability. In the case of the institutional
staffing competence example we are looking at failure of banking practices at
the most rudimentary level. We can trace these failures back down to the
traditional way we apply classical economic doctrine to inform our decision
making practices as the means to rationalize project design standards for the justification of political imperatives. Couching these familiar themes in media hype
that crows about the national significance of a project’s value to taxpayers is
a well trotted path. Ignoring ‘Avoided Costs’ and community benefits that do
not comply with stakeholder interests remain equally undervalued in this perverted
game of sustainability and resilience that rationalizes exploitation by stealth.
An integrated project design approach based
on uniform national and international policies can turn a white elephant into a
profitable business whilst addressing national debt. At issue are the often ignored economic
concepts of ‘Avoided Cost’ and ancillary income streams. Instead of thinking of
large infrastructure projects as single use and single purpose projects we must
embrace the idea of multi-use and multi-benefit projects. These principles can
be applied to a single building, a road or any large scale city and rural
development scheme.
For example
Pumped Hydro Energy storage projects should
include the ‘Avoided Cost’ and ‘Ancillary Income’ provided by:
1.)
Water Security and environmental and irrigation
flow
2.)
Land based aquaculture and
other high return agricultural business development in regional / rural towns.
3.)
Boating and fishing / nature
tourism
4.)
Distributed drinking water
storage for Asia’s mega cities
5.)
Environmental impacts
6.)
Downstream impacts for
communities dependent on adequate water flow.
7.)
Pollution and silt management
8.)
Drought and soil quality impact
for managed environments such as farmlands and wetlands.
Even if there are no obvious negative consequences
the project should at least quantify the positive benefits for all identified project
consequences other than reliance on narrow economic assumptions for economic
returns to some stakeholders.
Applying the Universal Development Matrix to Liveable
Cities
Eight years ago I was asked to participate in
a national building and planning code review aimed at developing a sustainable
housing energy efficiency rating systems.
I declined the invitation from the Australian federal government agency
not because the terms of reference where outdated but because the standards
upon which they were based where fundamentally inadequate. Not only was the
proposal unlikely to achieve a coherent national standard uniformly enforceable
at all state and local government level, it would pose significant compliance
issues at the building materials and inspection level. Once again we were
looking at a stop gap measure that would never be enforceable at local urban
and rural planning level for built environments. Instead I proposed a much
simpler national energy efficiency guide for domestic and commercial buildings.
This guide was based on the following standards specifications.
1.)
A building receives a 1 star
energy rating if it self-generates or purchases all of its renewable energy requirements.
2.)
The building would receive a 2
star rating if it stored at least one 24 day of its own maximum consumption or
could demonstrate a reliable local clean energy supply requiring no
transmission grid supplement for a maximum daily period of at least 8 hours.
3.)
A building would receive a 3
star rating if it could solely function in a distributed Blockchain managed
under a localized community VPN and under
transmission grid disconnection or Utility routing / maintenance incidents caused by high demand or unusual environmental conditions such as storms and
bush fires.
4.)
A building would receive a 4 star rating if it generated more than its
own energy requirements and fed all excess energy to either a community owned
centralized battery storage facility ( in addition to its own local battery
storage ) or sold the additional energy to local industry and electrified
transport networks.
5.)
A building would receive a 5
star rating if in addition to points 1-4 it collected at least 25 litres per
day of rain water for each occupant’s drinking purposes.
6.)
A building would receive a 6
star rating if it stored and recycled all grey water for use in toilets in
addition to points 1-5.
7.)
A building would receive a 7
star rating if it collected and partially treated its own black water (sewage)
in addition to points 1-6.
8.)
A building would receive an 8
star rating if it fully recycled its grey and black water in addition to points
1-7.
9.)
A building would receive a 9
star rating if it fully recycled it’s grey and black water and green waste in
an onsite waste to energy conversion facility in addition to points 1-9
10.) A building would receive a 10 star rating if in addition to points
1-9 it maintains an average energy consumption not exceeding 1.2 Kwh per day
per occupant.
This 10 star ratings system is at the heart
of all liveable cities and sustainable rural communities in both the developing
and developed world. Why is this so? If you look at figure 2 you will notice
that the renewable energy zones / hubs propose a net zero emissions profile.
You will also notice that the distributed energy and energy storage profile are
mutually self-reinforcing. Promoting lower overall national government
transmission infrastructure costs, higher distribution grid reliability and higher
community income returns at lower national government debt should be at the
core of sustainable energy infrastructure design. If you add into the system
distributed waste to energy including sewage to energy conversion technology
you increase the resilience of the local distribution grid. You also minimize
land fill, waste cartage, sewage pipelines, pumping stations, filtration, ocean
outfall as well as local waterway and wetland degradation. Additional income
streams from waste to hydrogen technology can benefit from a national hydrogen
/ hybrid public transport policy. In conjunction with a inner city diesel
exclusion policy, it is possible to reduce air born particles, traffic
congestion, noise and improve public
health outcomes.
The true challenge for everyone looking to
implement an integrated E-WASH Universal Development Matrix for existing cities
and remote rural communities is twofold.
1.)
How do you redesign existing
infrastructure around the current built environment at lowest cost?
2.)
How do you connect remote
communities into the national network so they can benefit from development cost
savings and increased income streams?
In highly populated countries such as India
this problem is both a curse as well as a blessing. In countries characterized
by low population and large distances the same is true. Small Pacific Island
communities on the other hand pose different problems of scale. What we have
discovered is that the net zero built environmental model works in all cases at
the lowest marginal cost whilst enabling the highest community return per
capita. Once again it all depends on the application of intelligent and
nationally consistent standards, compliance and regulatory frameworks and
policies in a context of co-operative and transparent governance. Let’s assume
a high fossil fuel import Asia Pacific nation or a western nation trying to balance
its education budget. The following example works for both.
Example
We know that 400 solar panels on a school
roof can supply 1 gigawatt of electricity per annum. Assuming a 15 cent per Kwh
feed in tariff on a 4 year ROI will generate an income of $75,000 per school
per annum. This equates to 1 fully funded teacher per school in Australia. In
the Asia Pacific it equates to approximately 12 fully funded teachers per
school. If we then consider the avoided cost of diesel and gas imports and any
related fuel subsidies and add to that the carbon emissions, credits and air
pollution savings we have to wonder why governments in the Asia Pacific don’t
have this policy.
Example:
Let’s consider the application of the Development
Matrix to the issue of water security. With cities such as Cape Town in the
grip of a water crisis and Jakarta unable to meet its own drinking water needs
both cities are discussing water desalination systems among other things. The
vast majority of Asia’s mega-cities currently cannot provide clean and reliable
tap water to its residents. High rise housing developments do not incorporate
energy storage walls nor do they mandate hydro-walls for rain water collection and
grey water storage. They don’t incorporate these things because at the local
municipal planning and building code level these things are foreign
concepts. At the national ministerial level these integrated distributed
resource concepts are equally unknown. As a consequence everyone scrambles
madly to get funding for huge centralized energy and water projects without
thinking about the downstream cash needed for the kilometres of pipes, cables
and other infrastructure. If however you look at every social housing project
in Asia, you will notice that developers maintain a long term interest in the
provision of energy, water, sewage and communications services infrastructure
as an additional income stream. This is particularly true in the Philippines
and India where special subsidies and social housing exemptions for government
staff, the military and police is common. The same exists for public housing
and welfare recipients in Australia. With ever increasing frequency of freak
natural events and rising infrastructure maintenance and upgrade cost pressures
on national budgets to reduce welfare, education and health spending is a
popular political theme. Implementing a rational national 10 point building
energy efficiency plan seems to be in the too hard basket. This is despite the
savings in water and sewage infrastructure cost and the benefits to
environmental run of and pollution. These problems are particularly evident
during periods of unusually high rainfall, drought or during the tropical
monsoon season. It doesn’t matter whether you are in Delhi, Jakarta or the
north of Queensland! There is at least 1 time during the year that your
sandaled feet will trudge through raw sewage spilling out of the storm water
drains into streets and into shopping malls. Mandated hydro-walls for high rise
apartments, factories and low rise domestic dwellings can reduce the overall
volume of seasonal rain water, lower the cost of purchasing bottled water and
reduce city infrastructure costs.
The same principles can be applied to road
construction. Distributed underground storm water collection tanks and small
lakes in planned green spaces can reduce water flow and environmental run of.
It also provides a valuable water reserve for city park irrigation that can be
developed into a local aquaculture project. In Melbourne Australia several
urban lakes are used for recreational fishing and commercial eel harvesting.
Once again, the issue is not that smart design breed’s innovation, but that innovative
policies applied consistently at a national level and in compliance with
international standards enables informed governance and the enforcement of transparent regulatory mechanisms at local level. A more integrated, better trained multi-disciplinary
bureaucracy can be a nice added benefit.
Short Author Biography
Mr. Angerer has more than 30 years’
experience as a government adviser and senior consultant covering all aspects
of Climate policy and context specific solutions for urban and rural development.
Mr. Angerer has a multi-disciplinary background in Architecture, Engineering,
ICT, GIS & Mapping, Urban and Rural Development, International Development
Law, Transport Systems, Environmental Management, Business and Project
Management, Risk Analysis, Change Management as well as E-Learning, Education
Management and Training. Mr. Angerer has developed the UN compliant E-WASH
system with a focus on poverty reduction, food and income security, whilst
enabling positive investor returns at the lowest risk for developing nations.
Mr. Angerer’s expertise is in strategic government and business policy and
business development for all aspects of renewable energy and Blockchain peer to
peer VPN managed community owned smart grids for integrated E-WASH grid
connected and off grid system. Mr Angerer also has an extensive background in
employment and training policies and curriculum design standards at national
and international level.