As an American it completely breaks my expectations that district heating not only works can be more efficient that decentralized heating. The amount of heat lost just moving water from the water heater on one side of the house to the shower on the other is ridiculously high in houses here. The idea that you can insulate well enough to efficiently move heat across a city is amazing to me.
You're omitting a very important point: the heat sources themselves. The heat for the entire city doesn't come from a single power plant. It is distributed over many heat generation plants throughout the city, some dedicated solely to district heating. I don't think any spot on that map is more than a few km from a heat source.
To be fair, the vast majority of Helsinki's district heating system is powered by three combined heat and power (CHP) generation plants in Vuosaari, Hanasaari and Salmisaari. You're right that there is also 11 dedicated water heating plants to supplement the CHP supply in very cold weather or times of high demand, but they are supplementary.
You can sort of tell from the other responses, but really the core of this argument is not the one you think it is: You think this means it is less appropriate for New York because of this fact. It is the opposite. Your population density is higher, so these types of solutions are easier and more cost-effective. This makes the fact that you don't already have it seem even more incompetent, which is the opposite of what you wanted to achieve.
Consider it's a nation that reinvented a crappy version of a metro with bunch of teslas in a very unsafe tunnel, I don't think you can expect reasonable answers. /sarcasm
I know it's hard to develop actual efficient solutions due to the cost of buying land, creating new infra. So you go for the cost efficient route instead of the practical efficiency.
As the first dorm on the loop my freshman year, I’d get back from crew practice, go into the bathroom, turn on all three showers, and flush the three toilets about three times each to flush all of the hot water out of the cold water line so that I wouldn’t burn myself when taking a shower.
I never heard if anyone got hurt when I took a day off and slept in.
This is most unfortunate but in proper district heating systems the scalding hot district circulation water never touches your house's heating / warm water. A heat exchanger is employed to insulate the different circulation systems. For example, my house has district heating and the warm water side is capped at +65C to protect against burns.
It's still pretty damn hot of course but I've never had any problems like you described, and I've lived in a dozen different houses in my city - all with district heating. Probably the system in the dormitory was somehow badly designed or incorrectly tuned.
I’m not positive I would have been scalded if I didn’t do that, but I do know that just turning on the cold line would yield at least uncomfortably hot water.
Lucky you didn't get legionella. That is not up to spec, cold water lines should always be below 25°c. I have never seen such an installation, even in development countries it was done correctly.
> That is not up to spec, cold water lines should always be below 25
Yikes, that's tough. In my city, the cold water pipes are buried close enough to the surface and the brutal sun that it comes out of the tap about 27-29c during the day.
The hot water from the cold tap reliably went away once the water started running which is what made me think that it was sitting still next to the hot water that caused it
You want to do that with the cooler water that is coming back to the power plant after the heat is delivered to the customer. Thus you use lower value heat to melt the streets. Assuming you do combined heat & power, as a bonus you get a small benefit on the power cycle as you get colder water into the pwrturbine cooling.
When the sidewalks are melted, it becomes waste heat. The rest of the year, it is waste heat. No matter how cold it is, if you accidentally leak heat it is wasteful - even if the side effect is something you may otherwise want.
Idaho summers are very hot. The district heat only runs part time. It is all waste heat from the power plant. There’s ample hydroelectric and wind power in the region as well. I’m not sure if the plant does demand shifting over the course of seasons but it could only run in winter because it runs on biomass and employs students. Many campus facilities are essentially jobs programs for students. The mission is experiential learning. I got a B.S. in business that included welding.
It was actually a great experience. It’s a land grant university that does a lot of really good research and has solid mechanical engineering, business, law, and architecture schools. I worked several on-campus jobs like janitor and IT support. They set me up with good internships over summers and decent mentors. I wouldn’t be where I am in life without the University of Idaho.
It's a fun set of optimisations: to get the path-clearing effect do you run the pipes on less optimal routes (greater capital costs), or do you using varying grades of insulation (less effective under paths to get the clearing effect, more effective on the short-cuts between paths), and so on. I hope Idaho uses these scenarios in their maths lessons, in place of the hoary "the phone company needs to put a line across a property that includes a river where it costs three times as much per metre..." that I teethed with.
As a German living in a city with mandatory district heating... the end result is to be that people seem pay more for heating than they would with a decentralised system.
I think that's mostly due to the high upkeep costs of the system, though, the transmission loss is quite manageable, I think.
Of course there are arguments to be made that when accounting for the cost of installing a heating system, and the space it takes, the premium paid for district heating is not that high.
But still... if district heating is so smart, why ain't it cheaper?
What's nice about it, and maybe hard to quantify, is how this limits air pollution in the city. However, people are still allowed wood burning ovens... which they are now all turning to since the district heat is getting really, really expensive..
> As a German living in a city with mandatory district heating... the end result is to be that people seem pay more for heating than they would with a decentralised system.
So, in America, it is very common for hot water tanks to suddenly fail, leaking water everywhere and causing massive amounts of property damage and even creating health hazards through mold.
In a not-insane world, all hot water tanks would come with moisture meters (you can buy them at the hardware store, $20 maybe) that would alert when the tank started to fail. But no, instead, American's are just accustom to the idea that about every 10-15 years, they will have to fix some large amount of water damage.
The condo complex I used to live in had a huge line item for water damage very year, insurance companies charge a large deductible because they know the damage is going to happen. Recently the condo association has taken to enforcing manual inspections of hot water heaters and requires they be replaced after 10 years, due to the large number of insurance claims that were being made.
(I did suggest they just enforce the use of moisture detectors...)
Oh and in condos, the hot water tanks are supposed to be hooked up to a drain so this flooding isn't an issue. But, well, apparently most of them were not hooked up properly. :/
FWIW I've seen this same issue in multiple places I've lived, apartment complexes have issues with hot water tanks going out all the time.
So anyway, my point is, Americans are really bad at moving hot water around.
Disagree with all of this. Hot water leaks are very rare. Water heater failure usually manifests as cold showers and a quick replacement unit from a plumber. Drain pan with a hose is a more reliable protection than a sensor. Sensors are much more likely to give annoying false positives than to prevent damage; you can see from Rheem discussion forums that they’re not appreciated.
Water heater failure is also easy to avoid by annual or seasonal flushing of any accumulated sediment and checking the anode. As long as the anode is replaced, the water heater should be fine.
I would expect a large condo association's maintenance staff to be able to handle this sort of thing very easily.
I think the real problem is how susceptible houses in US/Canada (maybe elsewhere) are to water leaks of any sort. Drywall, wood, MDF, insulation, etc., are all immediately destroyed with water in a short amount of time. A typical house lasts for 100 years or more and will likely experience many water leaks of various kinds over the course of its lifetime.
Houses last 100 years? They can, but typically after 20 years it starts to make economic sense to scoop the remains of the house into a dump truck and build a fancier house on the now much more expensive land under it.
In my neighborhood (admittedly, originally built in the 50s) every single sale I can remember from the last 15 years has resulted it a complete teardown and rebuild bigger. And one of those rebuilds recently changed hands and is undergoing extensive remodeling for over a year now.
It never makes economic sense to tear down a house if you're paying for it (above the land value). It depends on building codes in your area and such but my house is nearly 40 and it's not even close to end of life. Hell, the house I grew up in is still there and it's gotta be approaching 80.
> It never makes economic sense to tear down a house if you're paying for it (above the land value).
The land value is the key. Often, houses in the 50s-80s were built in what was suburbs or actual small villages back then, with enormous land surrounding them because land was cheap. Nowadays, the urban areas have grown and grown, and with them the desire for space for people to live on - even here in Europe, in Munich for example, land values exploded over the last 20-30 years. Think of like the land price not only doubling or tripling, but increasing tenfold or more since the houses were built.
Say you have land with a house that was worth 50.000 $ when it was constructed... and now, the land alone can be worth millions. So you tear down the existing house that's in the middle of the plot, build four new houses on it, each one bigger than the old one, and sell three of the four houses to pay for your new home and a nice chunk of cash. Or you rent the houses out for absurd amounts of money and never have to work a day in your life again.
And that happens not just with houses 50 years or older. Here in Munich, I've seen this happen with houses younger than me, simply because land values went up so immensely.
It depends on the area, yes, but some areas like the Kaufingerstraße went up from 7721€/m² in 1980 to 80.000€ in 2012 [1]. In 2019, not even seven years later, the same area was worth 160.000€/m², and other areas also doubled in value over four years [2].
Munich is fucking expensive, I'm actually looking towards moving away entirely and save up to buy something when prices ever become reasonable. Forget about saving anything while living here - Munich drives away those who have been born here all the time.
European houses are usually built out of bricks and concrete on proper foundations instead of wood and drywall, which means the substance lasts a lot longer itself and it becomes actually economical to do upgrades like heat insulation, PV energy and the likes. Also, we don't have regular extreme weather events like hurricanes that devastate entire countries (and thus make it uneconomical to build expensive houses).
Wood doesn't get any weaker with age. Assuming no water damage, 200 year old timber houses are just as durable now as when they were built. In fact 200 year old timber houses in America are more durable than anything you can build now because the quality of wood 200 years ago, even 100 years ago, is better than what you can get now, and the quality of wood 100 years ago in America is better than anything Europe has had for multiple hundreds of years!
Also drywall is a nice material for many reasons. Need a new wall? One day of work. Want to remove a wall? If there isn't a support beam, not an issue. American houses can be reconfigured as the needs of family and society change. My 1950s house has had walls removed and added throughout its life and owners, which is why it has an up to date flow despite what was a very constricted original floor plan.
Also dry wall is easy to fix and paint.
Water is an issue, yes. That part sucks.
Finally, in regards to natural disasters, wood construction can withstand earthquakes far better than stone construction!
Water is always an issue no matter what type of construction. Concrete and masonry? Water and freeze thaw cycles will eventually destroy it.
Most common major structural work with stick built houses is jacking them up and replacing the foundation. That's because the concrete or masonry foundation has deteriorated but the wood framing is in good condition.
> in America, it is very common for hot water tanks to suddenly fail, leaking water everywhere and causing massive amounts of property damage and even creating health hazards through mold.
I've had them fail and leak many times. But I had the water heater put in the basement next to a floor drain, and the floor slopes slightly towards the drain. No damage whatsoever from leaks, and it wasn't an emergency to get it fixed, either.
It's stupid simple and cheap to do this, I dunno why I've never seen any other dwelling with such a setup. My house has a number of things like this, making it cheap to maintain.
The BC Building Code mandates a floor pan under the HWH, draining into the wastewater system. The floor will be sloped as well, and the drain within X distance of the heater. I expect it’s a Canadian national standard.
When my parents got their house one of the requirements my mom had was to move the water heater out of the hall closet and into a lean-to outside the kitchen door.
When I was a baby we lived in my aunt's basement for a few months and the water heater flooded the basement and my mom swore she would never live in the same house as one of those again.
This comment is wrong on many levels. Hot water heaters should last a lot longer, and when they fail it’s probably a faulty thermostat or short. Still, water heaters get a drain pan to catch leaks. Lastly, installing a leak detectors are trivial and common. Your condo may have been a bad install or not installed to code.
America moves hot water just fine.
EDIT: yes water heaters can fail. Usually due to bad install, people store stuff on the pipes or on top of the unit treating the mechanical closet like a utility storage closet for brooms vacuum ironing board stuffed in, or subjected to a freeze. Nothing wrong with the device itself, everything to do with improper install or maintenance.
> Lastly, installing a leak detectors are trivial and common.
I've told about a dozen people in my life that leak detectors were a thing, and they were all shocked at the info. From what I gather, their existence is not common knowledge.
> Still, water heaters get a drain pan to catch leaks.
Initial leaks yes, but eventually hot water heats fail in a dramatic fashion and spew water everywhere.
> Your condo may have been a bad install or not installed to code.
Literally every apartment complex I've lived in has had this same issue. The apartment complex's my friends live in, same issue. I figure that commercially ran complexes would be motivated to install leak detectors, but apparently not.
> Hot water heaters should last a lot longer, and when they fail it’s probably a faulty thermostat or short.
Should, sure. The warranty is 10 years on higher end models, and the last ($2000!) water heater I had fail on me failed at 9 years and 6 months.
I've seen older hot water heaters, sure, but the expectation is failure after 10 years. All the plumbers I've ever talked to have repeated exactly that. They also say that a large # of tankless units they have seen encounter motor failures after 10 years and also have to be replaced.
You seriously need to tell your condo association to get their maintenance people to flush the water heaters regularly (seasonally or annually) and check/change the anodes. If they're gas-fired heaters, the burner and air intakes should be getting cleaned.
If this isn't being done, it's probably because your maintenance is being done by plumbers, who have convinced everyone that "they just fail, you know?"
Replacing a tankless water heater because the motor has failed is silly. You replace the motor. And tankless heaters don't fail very often unless, again, they don't see regular maintenance. As in: flush/descale annually and water/air filter cleanings.
100 unit complex, no onsite maintenance, each owner is responsible for maintaining their own unit. All exterior entrances, so common areas are outdoors and maintained by contractors.
1) there should be a thermal expansion tank in the system to stop major pressure cycles. If you don’t have one, you’ll have dangerous high pressure spikes in the system.
2) anodes stop heavy corrosion in the system by sacrificing themselves.
Are you saying its not common for water heaters to fail and cause water damage? Maybe I'm an outlier, but several people have told me that this happened in their homes.
It does. Unfortunately, homeowners have no interest in paying for premium units or investing in maintenance. So manufacturing precision goes into exceeding the 8-10 year warranty and little more. My hope is that the current and upcoming electric and natural gas pricing increases will lead to more awareness of heat pump water heaters, which last quite a bit longer.
They leak because the sacrificial anode rod corrodes away. The difference between a 5 year warranty and 12 year warranty water heater is a few inches of metal.
There’s a cheap ($20?) add on for our water heater that adds a conductivity sensor in the drip pan, and a shutoff valve on the inlet.
There’s a slightly more expensive variant from another company that supposedly looks at flow for the whole house, and cuts water off due to slow leaks or burst pipes.
I’m shocked that the water heater cutoff valve isn’t required by code. In contrast, plumbed drain lines for water tank flushing have a much worse payoff per dollar and are required by code around here. (When I’m feeling cynical, I assume that the codes here are designed to subsidize contractors while maximally screwing over home owners.)
Edit: the plumbed lines don’t actually help with leaks; so they do nothing that a garden hose would not accomplish.
> There’s a cheap ($20?) add on for our water heater that adds a conductivity sensor in the drip pan, and a shutoff valve on the inlet.
Oh I know, they are awesome. They should come standard, and more people should know about them. It is one of those things I try to bring up in conversations at random, because holy crap the # of people I know who have had water damage from their water heating dramatically failing is too high. Heck it happened to my family twice while I was growing up.
> the plumbed lines don’t actually help with leaks; so they do nothing that a garden hose would not accomplish.
Why not? I've seen places where with a drip pan angled towards a hole connects to a pipe that drains outside.
It should work for slow leaks. Doesn't do anything if the tank bursts of course...
The drip pan is for slow leaks , not for flushing or a gusher - but most gushers start as slow leaks, and it’s easy for a drip to cause massive damage if it goes unnoticed for months.
If they changed the anode rod on the water heater periodically it might last longer. Also the reality is that HVAC and water heater might need periodic inspections.
Anode rods are consumable. Did you personally see the rod itself during the inspection?
They also don't repair damage. A really mean thing to do would be to replace the anode on a nearly-dead water heater right before selling a house. The minute the anode finishes rusting away, the heater could let go.
Where I'm from mostly installations have a 2 inch deep drip pan which you place a water detector. It emits a very loud noise if the bottom of it gets wet
> one year of my life that my HVAC system didn't break down in some fashion
Something’s wrong here. I’ve only seen 1 partial failure (a refrigerant leak reduced efficiency by 5x, but the AC still worked) in the last 15 years across several houses. You’ve got an order of magnitude more failures.
Hydronic heating system[1] (hot water running under the floors) that was incompetently installed. No expansion tanks, wrong pipes used (no oxygen barrier so oxygen seeped in and rusted the cast iron pump), pressure wasn't balanced, just tons of issues.
My current house's HVAC system was also done piss poorly in places and there can be a 15 degree difference between rooms, so that's going to be 10k+ to fix. Fun times.
[1]Despite the obscene maintenance costs, the luxury is worth it. Warm floors are really nice!
Last year, one of the district heating pipes in my fairly new apartment block (7 years old) start leaking where it enters the building. Once discovered someone from the heating company came to turn off our supply, and then the next day they came to dig up the pavement outside and fix it.
On a side note, it seems like a very bad design choice to have that place be the room where all the electrical meters are. However even where there were large puddles of water over the floor it didn't cause any issues.
You kinda offer a solution by telling us about the annual inspections. There are also water alarms that go in the pan under a water heater for slow leaks.
I've also seen them placed in areas with tile floors and a drain just in case. Sounds like much of the decentralized system damage from water heaters is customer neglect.
Here in Poland we pay much LESS with district heating than decentralized one.
If I would have to pay for decentralized heating of my flat, I'd need to use natural gas. But even before nat gas proces went to the moon, it was at least Here in Poland we pay much LESS with district heating than decentralized one 2x more expensive than district heating
Weird - natural gas was, up until last year, the cheapest of all options in Austria. My father used to pay more in base fees and taxes than the actual gas. For some people, prices now went up by x8, so it’s now the most expensive option. Many are looking into heat pumps + solar right now.
I think from what I heard the problem with district heating in Germany is quite complex and as said probably not one of energy efficiency. It very much is as I understand a problem for a non-functioning market and problems with centralised planning. Often people e.g. need to subscribe to a higher energy base amount than they need. As there is only one player in the market and consumption is mandatory, there is few incentives to drive down cost structures and scale better with demand.
One reason Denmark has very affordable district heating is that it is based on "waste heat" from power plants, and "waste heat" is exempt of energy taxes (because those are paid on the primary energy sale, i.e. the electricity).
This comes with some perverse incentives in an age of renewables:
1. If the power plants use surplus electricity to provide district heating it is no longer a "waste product" and consequently taxed. Since the power plant cannot run without generating electricity, this leads to periods of negative power prices.
2. Cooling water from e.g. data centers is too cold for district heating, but it would be energy efficient to use heat pumps to extract that energy. This is not done, because the product would be subject to full energy taxes as it is not a waste product.
Wood burning ovens for heating in city area should not be allowed, that is just idiotic. The amount of deaths and health issues that is going to cause is really nasty.
>As a German living in a city with mandatory district heating... the end result is to be that people seem pay more for heating than they would with a decentralised system.
True, my sister's family lives in a house with centralized heating and they pay 3-4 times more (!) per month compared to our home which simply uses an on-demand heater.
That sounds like some terrible bureaucracy coupled with some hybrid privatisation. I would be livid if my politicians allowed some company to profit off their de facto monopoly on a central heating grid.
The story of an efficient centralized system costing more than an inefficient decentralized one replays itself throughout the lives of Germans, resulting in impoverishment of the average German.
Germany is a very rich country with the poorest people in Europe. Germany has a huge amount of political and corruption problems and they are covered up well. You will be shocked by the tax rate too if you tried to earn an income. Median German households are the poorest in all of Europe. Don't just take my word for it either.
So if the district heating system operates on as a "quasi business" (and AFAIK most Stadtwerke do even though they are publically owned), wouldn't it make sense to price close or at the price it would cost to use other heating. That maximizes the profit.
> Yeah I'd hate having District heating. A friend had this in the past and she couldn't even regulate it.
Interesting because I could regulate mine after all the radiators were replaced around 20 years ago.
And I kind of had to because the workers installing them made a mistake and I got the radiator meant for the living room, so it was grossly oversized for the space it heated.
That being said it's usually mandatory to keep them at least half-open considering that the heat is shared with other apartments.
I now live in a building from the early 90s and the knobs are all functional but I don't use them because the city pumps heat according to the weather outside.
> That being said it's usually mandatory to keep them at least half-open considering that the heat is shared with other apartments.
Yeah that was kinda the thing. She could technically close it but then the neighbours would complain.
I would hate that as most of the time I use no heating (or cooling) at all. Also, I wouldn't like to pay for it if I don't even use it.
PS: I live in a nicely mild-climated mediterranean coastal city so I can imagine "not using the heater" is not really a done thing if you live in Finland :)
That's only the case with really old apartments. I live in a fairly new apartment with district heating (7 years old) and each room has its own thermostat to control the underfloor heating.
In Finland, which this news article is about, typically in apartments, each radiator has a thermostat so you have very precise control. Also in houses. Further, each building has a heat exchanger.
It really shouldn't stop from regulating temperature. It is basically two heat exchangers. One for local central heating which is then controlled by what ever thermostats you have connected and one for hot water...
Ofc, it the thermostats used are bad there might be problems.
Most household water pipes really aren't insulated, or aren't insulated well enough. Plus, moving water under the frostline means that the ground it's moving through might be upwards of 55 degrees F.
My house came with an outdoor wood boiler (it's more a rural cabin than a house, really). It moves 180*F water from the boiler 50 feet underground into the house, where it runs through an air exchanger in the central air system and pipes it back out to be reheated.
Newer models of these things can get upwards of 98-99% burn efficiency, and ~85% heat transfer efficiency- as good as or better than you can get with standard efficiency furnaces.
My hometown has a power plant in city center. During winter it uses the entire downtown area as a heat sink. It's great. Power plant gets cooling for its hot water, city residents get cheap heating for their homes.
Best part is you don't even care about heat loss because you're trying to get rid of all that heat anyway.
Unless it has a lot of flue scrubbing, it's likely to be far, far worse than 200,000 reasonably modern cars in terms of things like fine particulate matter emissions, NOx and SOx emissions, etc. which are the real bad ones for health issues.
Traditionally when using combustion plants the great advantage in nordic countries comes from CHP (combined heat and power), you can extract much more energy from the fuel this way vs having separate electricity and heat plants. But yep great insulation in the network is a requirement.
i have been thinking about getting a solar water heater>heat pump>radiator to warm up my home but the costs just dont make sense because of the heat pump. i am told the life expectancy of a good heatpump is like 10 years, that amount divided by only 10 winters it is expected to see is more than what we currently pay for electricity in winters, accepting that we don't currently have whole house heating, (we rely on personal hot water bottles/electric blankets in bed)
My father works in that field. In his opinion heat pumps (with today prices and optimizations) are way overrated. The initial investment and the energy spent (it’s way more than advertised) doesn’t make sense for the average family.
i dont mind the energy spent on a day to day basis because i already have a 5.5kwh solar off grid array. i generate around 30 kwh during a good summer month and a fraction during winters but it gets offset from the grid also.
the grand scheme as i wrote above does not seem cost effective only because of the heat pump. if it were cheaper, i would definitely buy it because radiators/solar water/solar panels are low/no maintenance while heat pump does have it.
that can't be true. In Germany it is quite a trend now, but they are installed for many years. What I can read in the boards is not that discouraging. Where does this 10 year number come from?
The internet tells me that split-ac systems (basically small heat pumps) have a life expectancy of 10-20 years. That's not too bad, for example an oil-based heating system (as we have in our german basement) also only has a life expectancy of 20 years and has way less moving parts.
My oil based system is 45 years old but no part in it is the original one anymore, so with a certain maintenance cost spread over the years you keep it living indefinitely. Does the ship of Theseus concept apply also for heat pumps, or there you have to throw it away after 10 years?
Cost wise it only makes sense if you have photo-voltaic on the roof. In Germany there is more acceptance of paying more if there is a (possibly perceived) environmental benefit.
You can actually use an absorption heat pump that multiplies your solar thermal collector heat flux by 2~3 to lift outside ambient/ground source temperature to inside levels.
> But yep great insulation in the network is a requirement.
Indeed, even with "free" heat from CHP you can get an economic net loss.
Every house connected is a lot if piping, most of it unproductive — heating empty space, and losses in piping. So CHP district heating work best with large apartment buildings, and worst with single family housing.
This way Danish 65C° district heating for detached housing may be the worst example of district heating adoption.
And even if you do have only commie block style apartments, you may still end with having to add extra heat from local boilers in very cold climates. There regions in Russia where heating eats 1/3 of regional GDP.
But an overall, does district heating makes sense? Hell yes, and it must be made mandatory in the West one way, or another, along with policies to prevent counterproductive outcomes.
For USA, district heating made sense in the coal power era. Today, why burn natural gas at a central plant and then have to manage a complex steam distribution network with associated losses when you can simply distribute natural gas instead and get 98% AFUE at the point of use? Even better is a heat pump with gas backup at point of use. Triumph of technology.
Also, You dont really insulate the steam distribution pipes, you just count the loss bug as a feature “heated roads and sidewalks to melt snow!”
Lastly, district heat doest work in American low density
District heating can use cogeneration in nearby power plant, so it essentially reuses waste heat from electricity production. There are even district heatings that use heat from nearby nuclear power plant.
Also note that modern systems does not use steam distribution, but high-pressure hot water distribution.
If you burn the gas in a power plant you turn something like 40% into electricity. You can deliver something like half of the remaining Joules as heat to homes, raising the overall efficiency to 60% or so. You can then use the 40% you have as electricity to run heat pumps, which put out something like 2-5 Joules of heat per Joule of electricity. In total this gives you a lot more Joules of heat per unit of gas than just burning the gas in the homes directly.
Here in Netherlands, districted heating is considered green because the centralized heat is not generated using coal or gas. Instead the heat comes from burning trash or other industrial waste heat.
Geothermal makes so much sense conceptually. It seems ridiculous to run natural gas pipelines everywhere when there is a limitless supply of heat under every house provided one drills down far enough. Hopefully the process can be simplified and costs can be reduced significantly.
> Today, why burn natural gas at a central plant and then have to manage a complex steam distribution network with associated losses when you can simply distribute natural gas instead and get 98% AFUE at the point of use?
- efficiency of gas heaters, both with tanks and without, is definitely not 98%. Only the most modern condensing boilers can achieve over 90% efficiency, and the utter majority of heating systems are old clunkers [2].
- a central plant can/has to install exhaust and condensate filtering systems, whereas decentral heaters just pipe their exhaust into the environment
- gas lines are a massive fire and explosion risk
- decentralized heaters that are based on burning anything are carbon monoxide risks - in Germany alone, it's usual to have a dozen people or more die due to CM poisoning by a defective heater [3] each year.
- a district heating system can be adapted to different fuels (anything from trash over oil to gas or geothermal energy can be used), whereas a switch of the heat source is completely out of the question in a decentralized system (which is a real big issue here in Europe at the moment, as alone in Germany half the heat is generated by gas burners [4])
- a central plant can also use energy to power electricity generators, thereby improving total efficiency
> You dont really insulate the steam distribution pipes
Of course we do. Right around the corner where I live there is a centralized heating in construction, and these pipes are heavily insulated.
The idea that anything can be insulated at all is fucking novel.
New construction has minimum standards these days, but that does nothing for the majority of older house which have single glazed window, iron roofs, and no insulation whatsoever and, if you're renting, lucky to have a heat pump.
And yeah, no insulation on the hot water piping means massive loses from water heater to tap.
As a Swede, I've never been as cold as in Australia in winter! My Australian friends can't believe -20 degrees is survivable, but the thing is that our houses have a different temperature on the inside ;)
In Hobart I once lived in a place that had radiators. I made the mistake of keeping the place comfortable and it cost me $700 of cheap hydro power in a fortnight.
I have a hot water recirculator installed and love it. It's even faster than on demand.
Faster hot water incentivizes hand washing. Just think about how many more people would wash their hands at the airport if they didn't have to wait 2 minutes (or forever) to get hot water.
I'm looking at going this route before I finish the basement. The master shower is the furthest point from the heater, and it takes a solid 2-3 gallons to get hot water in the morning. The math didn't make sense until I put in a heat-pump water heater. Now I average $170/year to heat my water, and the recirc should only add ~$30/year. My pipes are well insulated, but I'm in a colder climate so loosing heat into the walls just lowers my heating bill.
I installed a recirculating pump and had it on the timer. But then for some reason, I switched it to always on and it's so much nicer. Hot water is always hot.
Assuming your pipes are between the tap and the water heater, and the pipes run indoors, the water temperature will be close to room temperature - nowhere near freezing.
It is cost effective, efficient and saves on emissions. Nowadays, all major cities and towns in Sweden have district heating systems. Stockholm also has a distric cooling system, although not as developed.
I once visited a geothermal plant about 20km outside Reykjavik that supplies hot water for heating the city. Even in the depths of Icelandic winter, the temperature only drops 1 deg C between the plant and the city. A lot of Rockwool around the pipe IIRC.
I live on a small island in Iceland, too far across the sea to pipe Geothermal water to, so the town heats water electrically and pipes it to homes instead. It's not very efficient, and it is rather expensive. It's kind of interesting because there just aren't hot water heaters for sale here, and Icelandic homes are built with that assumption.
I'm on the far side of the island from the plant, and in winter you can absolutely tell the difference in water temperature. In summer months there's an anti-scald unit in every home that's necessary to prevent it being too hot, but in winter sometimes you end up with rather lackluster showers.
I would have to imagine heat loss in transit, as it's not a problem anywhere else other than the far side. The plant itself has a lot of waste heat and not boiling too much water is a concern.
Well, if you want to hear from the darkside... Romania.
Badly maintained infrastructure (as an American you're probably familiar with the idea). Keeps breaking down. Not enough money invested to bring it to modern standards. Pipes are not well insulated, they break down constantly, huge leakages and losses.
Cost of heating is so high that about 20% or more of the entire Bucharest city budget (I've just checked, budget: ~$1.8 billion, subsidies: ~$450 million; Bucharest has about 2.2 million people) is spent on subsidizing heat for poor families. Heating/hot water sometimes go down for hours or even days in random districts.
In many districts district heating is mandatory because everyone who can pull out does so and that makes the system even more inefficient, which would cause the collapse of the entire system, hurting poor families even more.
They do try to fix it and in the vast majority of cases it's a bunch of hours. If it's longer than that, people have electric heaters, some use their gas stoves... you can kind of handle that for a short while.
And it's usually quite localized, some blocks don't have it, obviously if it affects large chunks of the population priority goes up.
Well there is district steam in New York. Another thing may be density: you will lose less heat due to distance travelled for central parts of New York than for a less dense(?) European city which is itself much much denser than a typical American suburb-city
This is actually a really good business for natural gas utilities to switch to if they want to survive in the future.
They have tons of experience with pipes, they can swap gas furnaces for heat pumps and exchangers.
And it turns out that the areas that district heating works well with are really comparable to where it makes sense to pump natural gas. Yoi don't necessarily need heated pipes, just using the ambient temp in the ground is usually good, with very small bits of storage/heating.
Even just adding a little inuslation to a pipe will drop the heat loss down to a few watts/ft when dealing with a pretty large delta T. If you’re using 20k+ watts to heat a home the losses on the pipe are minimal. And I’m guessing these homes are all pretty close together. Not a mile apart.
I wonder how far out one can scale a cooling, rather than heating, system. Probably not worth it making it city-wide, but then - who knows? If it works for heating...
There are district cooling systems as well, there don't seem to be any scale problems in the engineering. It's more attractive if you have a body of cool water nearby for the heat pumps.
But the users need to have different heat exchangers than just radiators, if you just put cold water into radiators they'll start sweating precipitation and you'll get mold etc damage.
